-'". ~ ••• ,~' __ : __ <~_ •• _ ..' __ -~~ __ i: ,

, :

!--. ._. ..__ . --l_ ._..-...._ ...

.,-------''---'--:--,

__.~__ i----J-__...-,-_I

_.~- !I--_.--~i>-.-.-+---

I •

~-----;---_. -'--. r i, '

---+-:;_._ ~_ ..-.~~----.-----1'------:-,.r . -' •. ,

.----~ .• i ---.-.----.--t---i

I! ---

: f ,

i' t I --J, __ \_

i ~ f, i i ii I ---.! 1I ,

I . Ii-----+--f! I I+

i 1I, !

1

"\

t i i Ii III

, ,I ;

• l'.

!,I

I.

I

i

.

t!

1\ I.: I, I,

, I

I

,[) I 1\1': I 1\ tu; C'l!lJJ, U" ....~ ..IS II

~•.6- ----'.~~I'III "'''L.r ~

I II~II~ IL ~&e:1 • Iv r •.r:'"' I...... If'''' , •..•1. • I' '"'"~•.'""--.- I" ~,,.....II'"U I = .. '- i~V •••\...'U I

I I

D68n cd Facultvof .t>JchhectLHe ~). PlanninuProfessor M. A. Muktadir

Dean of FtiCUlty of CivH EflgineEii ing. Prcfe.ss(nf" J, R, Choudhury

Deem of Faculty of ,tlectllcal & EI6GtrOil!C tngin(;':erlngProfessor Shamsuddin Ahmed

Dean of Faculty of EngineerinoProfessor M. Serajul lslarn

trI,

.: j'

Dean of Facu'Professor \VI.

of Mechanical Engineering;war Hossain

",.. )

PROVOSTS OF HALLS OF RESI DENCE.

Ahsan Ullah HallProfessor Dipak K. Das

Nazrul Islam HallProfessor S. M. Nazrul Islam

Shahid Smirity HallOr. Shahjahan- Mridha

Shet.e~Bafigla HailProfessor A, M, M,' SafiullFi-'

Suhrawardy HaliOre Tofazzai Hossain

Titumir Haii, Professor M. Feraze Ahmed

ADMISSION AND EXAMINATION RULES ANO REGULA'TION$'

Admission Requirements for Undergraduate and Postgraduate CoursesExaminations Rules and Regulations for Undergraduate and Postg'rad.uateStudents

I

ll' ;~"

. I,!i

\

II

L

CONTENTS

GENERAL INFORMATION OF THE UNIVERSITY

Historical Backgroundlist of Faculti~s and Teaching Depa rtmentsAcademic FeesScholarships -and AwardsExamination RulesTeaching Staff of the UniversityList. f Academic Saff of the University in alphabeticall;~. ' Admin istrative Officers of the University;:.ree, 'F "I".L, 19 "aci Itl9SIt "t t Health Service

\ Re~' .Jrch & Extension Services and Workshop FacilitiesComputer CentreDirectorate of Stl.idents WelfareGames and SportsStudents Halls of Residence.University InstitutesAuditorium Complex and Semi nar HallList of 1"\utho,i~ies .Universit\' ,- -bt :t;ati ans

t

SUI\t1MARY OF COURSES OF THE DEPARTMENTSfaculty of Architecture and Planning , ':Oepartment of ArchitectureC ~.partment of Humanities II""

Department of Urban and Regional Planni ng

F,8culty of Civil EngineeringDepartment of Civil EngineeringDep~rtment of Water Resources ,Engineering

Faculty of Electrical and Electronic EngineeringDepartment 0'1 Electrical and Electronic Engineer ingDepartment of Computer Engineering

order

.-~Ji'.1~:

1233345

1414U516161717181821'2122

23

26

333739

.~i':',}~.

4349

5157

J

jI

L,,'

,~i

Faculty of Engineering

Department of Chemical Engineeri'ng.;..Department of ChemistryDepartment of MathematicsDepartment of Metallurgical EngineeringDepartment of Physics

Faculty of Mechanical Engineering

Department of Industrial and Pr oduction EngineeringDepartment of Mechanical EngineeringDepartment of Naval Architecture and Marine Engineering

DETAILED caUR SES OF THE DEPARTMENTS

Faculty of j~rch.teo_t_ure~andPlanning .

Department of ArchitectureDepartment of HumanititiesDepartment of Urban and Regional Planning

,Faculty of Civil Engineering

Department of Civil EngineeringDepartment of water Rasources Engineering

Faculty- of Electrical and Electronic EngineeringDepartment of Computer EngineeringDepartment of Electrical and Electronic Engineering

Facurty of Engineering'-

Departmentof Chemical EngineeringDepartment of ChemistryDepartmentaf MathematicsD9partment of Metalfurg ical Engineering,Department of Physics

Faculty of Mechanical Enginearing

Department of Industrial and Ptoduction EngineeringDepartment of Mechanical Enginii!sringDepartment of Naval Architectur& and Marine Engineering

5963656771

737581

8593

101

111131

131143

165,.83195215235

24525527.1

11B;. isBeSlfothlthlInprEoffcalme,anein ~reSEstalEngladeand

Thecam, .

buil(hascom,

UndEElecl

-' fournic,EngirBachl

Postgthe",.lllM.Sc.course

Historical Background

Bangladesh University of Engineering and Technology, abbreviated as 8UET,is the oldest institution for the study of Engineering and Architecture inBangladesh. The history of this institution dates back to the days of DhakaSurvey School which was established" at Nalgola in .1876 to train Surveyorsfor the then Government of 8engal of 8ritish India. As the years passed,the Survey School became the Ahsanullah School of Engineeting offeringthree-year diploma courses in Civi I, Electrical and Technical Enginee ring.In 1948, the _School "":,,s upgraded to Ahsanullah Engineering College (at itspresent premise) as a Faculty of Engineering under the University of Dhaka,offering four-year bachelor's Courses in Civi', Electrical, Mechanical, Chemi-cal end Metallurgical Engineering. This action was taken with a view tomeet the increasing demand for engineers in the newly independent countryand to expand the facilities for Quicker advancement of engineering education,in general. In order to create facilities for postgraduate studies andresearch, in P~:tJticu'ar, Ahsanul/ah Engineering College was upgraded to thestatus of a University giving a new name of East Pakistan University ofEngineering'l!lod Technology in the year 1962. After independence of Bang-ladesh in 1971, it was renamed as the Bangladesh University of Engineeringand Technology.

The BUET campus is in the heart of the city of Dhaka. It has a compactcampus with halls of residence within walking distances of the academicbuildings. The physical expansion of the University over the last ten yearshas been impressive with construction of new academicbu ildings, auditoriumcomplex, students' hall of residence etc.

Undergraduate courses in the faculties of Engineering, Civil Engineering,Electrical & Electronic Engineering and Mechanical Engineering extend overfour years and lead to B.Sc. Engineering degrees in Civil, Electrical & Electro-. nic, Mechanical, Chemical, Metallurgical and Nava I Architecture & MarineEngineering. In the Faculty of Arch itecture and Planning, the degree ofBachelor of Architecture is obtained in five years.

POstgraduate studies and research are, now among the primary functions, ofthe"..university. Most of the departments under the different faculties offerM.Sc. Engg. and M. Engg. degrees and some departments have started Ph.D.Courses. Postgraduate degrees in Architecture {M. Arch.) and in Urban and

..

I,,

',0(

. 'Faculty

MechanicalEngineering

list of Faculties and Teaching Departments:

The University has fifteen teaching departments under fi ve faculties. Notall of them are degree offering. Faculty-wise list of the departmenrs withthe status of the degrees offered. is given below:

rStatus

I

of degree offering IDepartments \ Both UG Non degreelI PG only I & PG offeringI

Architecture xUrban andRt!gional Planning x.Huminities x

Civil Engineering xWater Resources Engi-

xnearing

Electrical andElectronic Engi- xneer ingComputer Engineering x

Chemical Engineering I xMetallurgical Engg. xChemistry xMathematics

/ x I xPhysics

I ndustrial and.---/,

Production Engineering xM~chanical Engineering xNaval Architecture andMarine Engineering UG on-Iy

,.,aUET

Regional. Planning (MURP-;) are offared by the Faculty of Architecture andPlanning. In' addition to its own research programmes, the Universityundertakes reseaf~ch programmes sponsored by outside organisations,viz. UN Organiz.ations~ Co.mmonwealth, UGC etc. The expertise of th eUni'versity:.'teacoo'rs and ..the laboratory facilities of the University are also'utili~,ed, "to ."soI've .protir;ms of and to provide upto-date engineeringand te~ti'~ofog'lc'a'i'" k~owledge to t he various organisati ons of the country.The University ,(5 presistent. in its effort to imp rove its researchfacilities, . staff position and courses and curricul a to meet the growingtechnological challanges .confronting the country.

Civil Engineering

Architectu re andPlanninl}

Electrica I andElectronic Engi-neering

Engineering

t 2

.\

Admission Requirement~, Academic Fees and ExaminationRules & Regulations:Admission requirements for both undergraduate and postgraduate studies(see next sect ion of this book),

Academic Fees:

(a) Admission fee Tk. 206,00(b) A local student has to pay Tk. 317.00 as tuiti on and other fees in each

aca demic session. The detai Is of the fees are given below:

Tuition fees - Tk. 180.00 ( Tk. 22.50 per instalment)

Seat rent - Tk. 40.00 ( Tk.' 5.00 "., )

Examination fees ,Tk. 60.00 ( per academic year )

Ath letic fees Tk. 13.00 ( " " " ) . -- -~-',

Union fees Tk. 17.00 ( ,, " " )

Medical fees Tk. 7.00 ( " " " )

(c) A foreign student has to pay one th:>usand U.S. dollars p3r aC3demicyear as tu ition and other fees.,

II

II

I

Examination :An academic session, normally of one calendar year, is divided into approxi-

.. mately two equal parts, namely, Part A and Part B, fo r the purpose of exa-mination. A formal written examination 'is taken at the end of eac h partand the promotion to next higher academic year is based on the aggr'eegate

Scholarships and Awards:Scholarships, stipends, teaching assistantships/fellowships are given to the,local students. The students enjoy scholarships from the EducationBoards, also technical scholarshi ps, scholarships from the University GrantsCommission and other organizations, societies and clubs, namely, Bangla-desh Chemical Industries Corporation, 61-Club, tafsils, district bodies,Bangladesh Tobacco Company, National Science & Technology, BangladeshSugar & Food Industries Corporation, Aligarh Old Boy's Assoc iation,Ahsanur Rahman Scholarship, Habibur Rahman Scholarship etc. Medtscholarships and Un iversity stipends are also available. Awards are alsogiven by: the University for outstanding per.form ance. Oth er than awards,gold medals are awarded namely, Masud Hasan gold medal, Malik AkramHossain gold meda I and Ahsanur Rahman gold medal.

..•~

Calendar3

iI1

!Ijj!

;J

j.._~t'j'IIjI

I

I

1I1j

of the marks of these two examinations and also the class tests (20 percentof the total marks for 'each subject) and the obtaining passing grades in thesessional subjects. The rules and regulations of examinati ons are given indetails in the next section on 'Admission Regulations and Examination Rulesand Regulations'. The academic regulations are framed by the AcademicCouncil on recommendation's from the Boards of Studies, the Faculties andthe Committee of Advanced Studies and Research (CASR).

Teaching Staff of the University:

The total number of teaching posts is 324 out of which 218 teachers are inactive service and 106 teachers are on leave for higher studies abroad. Thereare .tour positions of teachers, namely, lecturer, Assistant Professor, Asso-ciate Professor and Professor. The following table gives position anddegree-wise breakdown of the teachers inactive service including those onleave-vacancies also:

Statistics of teachers in post with their qualifications

Position

Professor'Associate Professor

<-

. Asstt. Professorlecturer

Total.

'.B.Sc. Engg.,B. Arch., M.A.M.Sc., M.Com.

2174

95

Master inEnQg., Arch.& M.ph if.

112166

35

Ph.D.

412423

88

. Total

42366080

218

B,esides these teaching posts, there are Professorships and Chairs which aregiven below:

a) Dr. Rashid Chair: In memory of late Dr. M.A. Rashid, formerly Professorof Civil Engineering and the First Vice-Chancellor of

,J,'BUET, a chair has been created, sponsored by' thegr~duates of the year 1961 of . BUET (61-Club).Professor M. A.Jabbar, an eminent Mathematician and'formerly Professor of Mathematics of the Universityjoined as th~ fi rst 0 r. Rashid Chai r Professor.

b) Professors Emiritus and Supernumerary Professors:

In order to get the benefits from the services of eminent people of efth~~rscholastic and academic' brilliance. or outstanding professionals,' l~

4 BUiET,;-.';:;.,..•.

fi

Jjl

~"

Engineering t Architecture and Planning, the University has establishedprovisions for appointment 'of such persons as Emiritus and SupernumeraryProfessors. Prof. A.M. Zahoorul Huq and Prof. M. Ibrahim, formerly Pro.fessors of Electrical & Electronic Engineering and Metallurgical Engineeringof BUET respectively are now ser",ing in their respective departments asSupernumerary Professors.

Note: The date in" the fourth column indicates the date of original appoin-tment. Abbreviations used in th e second co lumn are as follows:Arch-Architecture, CE"':"Civi I Engineer ing, ChE-Chemica I ~ngi-neering, Chern-Chemistry, CompE-Computer Engi neering, EEE-Electrical & Electronic Engineering, Hum-Huminities, I PE-Indus-trial & Production Engi.neering, IFCDR-":lnstitute of Flood Contro I& Drainage Heseerch," IAT-Institute of Appropriate Technology,Math-Mathematics, ME-M"echenical Engineering, MetE-Metal !ur-gica I Engineering, NAME-N'aval-- Ar'13-hitecture.& Marine Engineer-ing, Phy-Physics, URP-Urban & Regional Planning, WRE-WaterResources Engineering.

List of Academic Staff- of the University in al phabetical order:

t ;i I

, .

Name

Abedin, Md. Zoyna1Afzal, Syed A,i -Ahmad, Md. ZakariaAhamed, Rukunuddin.Ahmed, Azmal HayatAhmed, Belal

~Ahmed, Oil AfrozeAhmed, Faruque_Ahmad, GiasuddinAtlmed, IrtishaduddinAhmed, Jamal UddinAhmed, Kazi MohiuddinAhmed, KhaliqAhmed, Mahbub IftekharAhme'"d,M. FerozeAhmed, Md. KurshidAhmed, MustaqAhmed, Nesaruddin

Calendar

Department

CEMathCEURPURPME

"PhyCE-PhyCEEEEEEEChEEEECEHumIFCDRCE

DeSignation

Asstt. ProfessorProfessorLecturerAsstt.P rof.Assoc. Prof.Assoc. ProtAsstt. Prof.Asstt. Prof.ProfessorAsstt. Pro f.Assoc. Prof.Asstt. Prof.LecturerAsstt. Prof.ProfessorLecturerLecturerLecturer

Date ofJoining

23.12.8028.4.78..18.9.8415.3.7624.3.6626.5.7731.3.7022.3.8025.1.616.2.785.9,81

26.7.8412.8.828.6.811.9.69

23.7.7725.6.818.6.81

5

I" .

I:;:

I!

f\Jameil D~partment Designation Date of

r Joining

~;Ahmed. Nizamuddin Arch Asstt. Prof. 15.9.80

Ahmed, Nooruddin ChE Professor 12.2.69

1. Ahmed, Razia S. URP Asstt. Prof. 21.3.83t,.

I'Ahmed, S. Shahnawaz EEE Lectu re r 26.12.83

Ahmed, Salahuddin ME Lecturer 8.6.81

I Ahmed, Salahuddin CE Lecturer 26.2.79'.

f Ahmed, Shamsuddin EEE Professor 1.6.75

\'Ahmed, Sohrabuddin CE Professor 14.11.62

f:

Ahmed, Syed Mohib Udd in " WR EAssoc. Prof. 25.10.78!-; Ahmed, Syed Nuruddin CE Assoc. Prof. 1.3.64f.; Ahmed, Tariq WRE Lecturer 26.12.83

I Ahammed, Mukshed CE Asstt. Prof. 26.2.79

.'Ahsan, --A;K:M.-Quamruj I~CDR Lecturer 11.8.82

Ahsan, Mainul IFCDR Lecturer 2.6.84'

Allsan, Mohd. Qamrul EEE Asstt. Prof. 20.10.76

Akhanda, Md. Abdur Razzak ME Asstt. Prof. 20:11.76

Akhtar, Syeda Tahg.ra Che:n Lecturer 8.3.79

Akhtar, Md. Nasim CE Asstt. Prof. 10.4.80

Alam,A.H. M. Jahi rui EEE Lecturer 1.4.85

Alam, Md. Khorshed WRE Assoc. Prof. 20.4.72

Ala"), Md. Kurshid EEE Professor 3.8.69

A/am, Md. Mahbubul ME Lecturer 27.12.83

Aram, Md. Shamsul EEE Asstt. Prof. " . 16.4.74., Alam, Md. Shawkatul EEE.. Lecturer 18.9.84:1

..

Alam-, Wahiduf Arch Lecturer 1.1.84 '

AU, Abu Taher ME Professor 29.1.67

Ali, Md. Ash raf CE Lecturer 26.2.79

IAli, Md. G.olam CE Asstt. Prof. 11.8.82

Ali,. Md. Hossain CE Assoc. Prof. 11.1.73

Ali, Md. Iman Math Assoc. Prof. 21.11.62 ~'~

I,Ali, Md. Sabder ChE Asstt. Prof. 12.4.70 'I

i

Ali, Meer Mobashsher Arch Professor 14.11.62 !

\ Ali, Sk. Sekander CE Asstt. Prof. 6.2.78 i1:

. 'I

Ameen, S. Fakhrul CE Asstt. Prof. 19.2.79.~

rI

Ameen, Md. Shahidul Arch Asstt. -Prof. 5.].79 " l~

, Amin, A.K.M. Nuru! IPE Asstt. Prof. 9.1.83 I,.: f;. Anwar,A.F.M. EEE Lecturer 1P,9~82i

" Anwar, A.M.M. Taufiqul CE Asstt. Prof. 29.3.82iI,

Asgar, Md. Ali Phy Professor 2.12.62!

6BUET .'~I;,>:~

"'1' .".'"

E,r"j

.~.i

, ,

Department 'Designation Date ofJoining

IJ

t

.Jj

'1If

f,:/,,'",',',1," ~:"1

I

Ashraf, Md. Al iAwal, Md. AbdulAwal, Haris Md. RoufanAzim, Md. AnwarulAzim, Md. AbdulBadaruzzaman, Abu Bo rhan Md.Bari, Md. SadiqulBar i, M. ShafiulBari, Md. FazlulBari, SaitulBasher, EnamulBe9g, Md. Rezaul KarimBegum, Dil Afroza

--~-Begum-;-SelinaBegum, Syeda' RashedaBegum, Ummey Khaled,aBepari, M. Mohar AliBiswas, Saroj KantiBhuiyan, Md. Abu HashanBhuiyan, Mohammad AliChoudhury. A.K.M. ZahiruddinChoudhury, J.R.Chowdhury, Khabirul HuqChowdhury, M. Nazrul IslamChowdhury, Mohiudd'nChowdhury, Masrur AhmedChowdHury, Md. Mostafa KamalChowdhury, Mohammad AliChowdhury, Mustafizur RahmanChowdhury, Mustafizur RahmanChowdhury, Md. Nurul AminChowdhury; Shahjahan KabirChowdhury, Showkat JahanChowdhury, Zariff .AhmedDas DipakKantiDebnath, Narayan ChandraDey, Swapan KumarElahi, Syed ManzurElias, Md.

Calendar

MathCECEIPEMECENAMECEWREMEEEEEEE

Ch EWREEEEPhyMetEEEEPhyWREIFCDRCENAMECENAMEChEMathEEECEEEEEEE'WREMEMetEMEEEENAMECE,Math

Assoc. Prot.LecturerLecturerProfessorLecturelLecturerAsstt. Prof.Asstt. Prof.Asstt. Prof.LecturerAsstt. Prof.LecturerAsstt. ProLLecturerLecturerLecturerAssoc. Prof.Asstt. Prof.Asstt. Prof.LecturerAssoc. Prof.ProfessorAsstt. Prof.LacturerAssoc. Prof.Lecture'rAsstt. Prof.Asstt. Prof.Asstt. Prof.LecturerAsstt. Prof.Assoc. Pro f.LecturerAsstt. Prof.ProfessorLecturerAsstt. Prof.Lecturer

Le:::turer

10.7.6311.8.828.8.83

21.10.6111.8.8218.9.8415.3.7930.6.831.11.1418.9.8431.3.8318.9.841.2.8216~8.828.6.8119.9.7817.2.73

20.10.767.9.816.3.8217.4.74.2.,.,641.12.71'26.2.791.1.698.8.83

24.10.754.1.8010,4.808.6.814.2.8029.3.737.9.81

26.12',831.1.69

18.9.844.2.8125.3.848.4.84

7

\

f\lame

Eusufzai, Shafiui A .K.Eusufzai, S.H.K.F.aruque, AbdullahFaruque, ShamsuzzamanFazli-i- Rahman, SyedFerdousy, Sha mim AraHabib, Alamg';rHabib, Ash rafHaleerri, Md. AbdulHannan. AbdulHaq, Md. AminulHaque, A.F.M. AnwarulHaque, AKM. ZiaulHaque, EnamulHaque, Md. HamiduL

. Haque, Md. MohafizulHaque, Md. MonzurulHaque, Md. ShamsulHaque, ZiaulHasan, A.S. MahmudulHasan. AltafHasan, Dewan MahbubHasan, M.M. ShahidulHasan, MojibulHasan, Reazu' G. Mahmud

'Hasan, ShafiulHasan, Syed IqbalHasan. M.A. ZakirHaseeb. ,A.S. Md. Abdu IHashmi, a. Sarwar EhsanHazra, Md. A. KhalequeHasnath, Syed AbuHelali, MaksudHossain, A.B.M. SiddiqueHossain, A.S.M. MustaqueHossain, 'lftekharHossain, Ijaz

8

Department

ArchCEEEEChEEEEArchCECompEWREWREEEEIPEIFCDRChEEEEMetEMECEMEEEEME

.ArchEEEMEMEEEENAMEMEMetECEMathURPMEEEECECEChE

Designation

LecturerProfessorAsstt. Prof.LecturerProfessorAsstt. Prof.ProfessorLecturerAssoc. Prof.ProfessorAsstt. Prof.'ProfessorLecturerAsstt. Prof.Asstt. Prof.,Assoc.Prof.LecturerLecturerAsstt. Prof.LecturerAsstt. Prof.Asstt. Prof.Asstt. Prof.

, Lecture rLecturerLecturerLecturerLecturerLecture',LecturerAsstL ,PratoAsstt • Pr'of.Lecture,.,ProfessorLecturer,LecturerAsstt .. Pro'f.

Date ofJoining

13.2.8325.1.55

, 10.4.8012.8.8216.6.545.7.791.2.64

28.6,8511.1.73

24.10.5911.9.807.7.651.6.85

-20.3.79 -10.4.8030.1.7418.9.8418.9.843.4.83

30.8.82/ .

11.8.824.7.7926.9.8010.2.738.8.856.2.78

26.2.8430.4.7618.9.846.2.78

1'0.10.6614.4.7218.9.841.3.73

2'5.3.8410.4.8010.4.80

SUET

Name Department Desig nation .DatEt,ofJoining

Hossain, M. Akram CE Asstt. Prof. 26.2.79Hossain, fJi. Anwar ME Professor 21. 10.61Hossain, Md. Delwar CE Lecturer 8.6.81Hossain, Md. Farhad ME Asstt. Prof. 25.2.82Hossain, Md. Imtiaz ME Asstt. Prof. 16.11.76Hossain, Md. Monwar WRE Asstt. Prof. .30.4.76

. Hossain, Md. Monwar ChE Asst!. Prof. 22.2.79Hossain, Mokbul CE Asstt., Prof. 26.2.79Hossain, Sajjad EEE Lecturer 1.4.85

iI

!Hossai il, Totazza I PhV Assoc .. Prof. 9.4.64 .I

j

Hossain, Zakiuddin Asstt.Prof.I

ME 1.1.69 - i

I

Huda, M. NuruJ CE Asstt. Prof. 26.2.79 .1.

Huq, A.A Md. RezauJ MetE Asstt, PrQt 31.5.75 j-- .

Huq, A.M. Azizu J ME Professor 8.9.65Huq, Alamgir Mujibul CE Professor 31.3.73Huq, A. M. ~ahoOruI EEE Professor 9.3.52Huq, Ehsanul MetE Professor 1.1.69Huq, Enamul Chern .- Assoc. Prof. 1.7.65Huq, Mah bubuJ EEE Asstt. Prof. 2.11.18Huq, Md. Mizan'ul CE .Professor 5.1 :69Huq. Md. Mazharul CE Ass!t. Prof. 26.2.1'9Huq, Md. Nasrul MetE Asstt. Prof. 1.2.78Huq, Md. Nazmu! ChE Asstt. Prof. 31.5.75 iHuq, Mon'imul Chern Asstt. Prof. 29.3.74

I

IHussain, Hyder Shahabuddin ME Asstt. Prof 11.1.68Hussain, Rafiqul Arch Assoc. Prof. 11.7.13 IHyder, Md. Ehteshamul ME Lecturer \ 1.3.78 ! .Ibrahim, M. MetE Professor 13.11.50 :

Iftekhar, Ali CompE Asstt. Prof. 9.11.82Ilahi, Md. Fazli .ME Assoc. Prof. 15.2.73 ,

lmamuddin, Abu Hyder Arch AssU. Prof. . 15.10.75 'IInam, Md. Khairul Arch Assoc. Prof. 15.2.72

/'

Isa, r,,1ohammed - Math Asstt. Prof. 11.4.61Islam, A.K.M. Sadrul ME Asstt. Prof. 18.8.80 1

1, slam, A.K.M. Shariful ME Lecturer 8.6.81 I

iIslam, Md. Aminul CE Asstt. Prof. 4.8.75 IIslam, Kh. Ashraful ME Lecturer 29.3.79 I

I

Islam, Md. Badrul IFCDR Lecturer 24.4.78 i

Islam, M. Nurut ChE Professor 1.2.68 Ii.,

Calendar 9 iJ,

l, I,

v

Narne Departm.ent Designation Date ofJoining

Islam, Md. Kabirul CE Lecturer 18.9.84.Islam, Mir Shahidul URP Assoc. Prof. 1.3.73

Islam, Md. Monwarul Chern Asstt. Prof. 1.4.74

Islam, Md. N. Chern Asstt. Prof. 21.8.67

Islam, Md, Qumrul ME Asstt. Prof. 20.11.76

Islam, Md. Seraju I MetE Professor 16.11.54Islam, Md. Zahuru I IFCDR Asstt. Prof. '2.6.84Islam, S.M. Nazrul ME Professor 1.3.70Islam, S.M. Rezaul CornpE Lecturer 9.11.82Islam, Md. Syed Kamrul EEE Lecturer 26.12.83'srail, Abu Syed Md. CE Lecturer 11.8.82Jabeen, .S. CE Lecturer 18.9.84Jafar, M. Sayeeda -_. Hum Lecturer 17.8.81Jahan., M. Nasim Arch Lecturer 15.9.80 1

Jasimuzzaman, Md. ChE Professor 8..12.63Kabir, A.8.M. Zohrul IPE , Assoc. Prof. 20.1.81Kabir, A.H. Ehsanul EEE Lecturer 10.9.82Kabir, Ahsanul CE Asstt. Prof. 3.10.77Kabir, Jobaid WRE Asstt. Prof. 29.10.74Kabir, Md. Golam CE Lecturer 18.9.84Kabir, Md. Humavan CE Asstt. Prof. 17.7.73Kabir, S.M. Lutful EEE Asstt. Prof. 30.8.82Kar, Dulal Chandra CompE Lecturer 9.11.82

Karim, Md. Rezaul Chern Lecturer 12.12.80Karim, Md. Rezaui CE Lecturer 25.3.84

Karim, Mir Nazmul Hum Asstt. Prof. 21,1.69

Khalil, Gazi Md. NAME Assoc. Prof. 5.4.73Khan, A.K.M. Mahfuzur Rahman EEE Professor 9.2.67Khan, Abu Obaida Ansari WRE AsstL Prof. 17.3.78Khan, Ashan Ali IPE Asstt. Prof. 19.7.84Khan, Faruq Ahmadullah Arch Assoc. Prof. 1'1.73Khan, Md. Feroze Alam Phy Lecturer 20.1.85Khan, Iftekhar MaY-har Arch Assoc. Prof. 1.10.76Khan, Liaquat AI i WRE Asstt. Prof. 8.6.81Khan, Lutful Islam CE Lecturer 18.9.84

.~,

Khan, M. H~ ME Professor ,.,12~66

Khan, Md. Easin EEE Lecturer 9.1"1.82'.

Khan, Md. Ekramul Hasan ME Lecturer 1.1.84

10 SUET

.,

Department

~..

Ii

, I:

Name

Khan, Md. Emdadu I HuqKhan, Md. Feroz AlamKhan, Md. RaquibuddinKhan, Md. RezwaoKhan, Md. NesarullahKhan, Md. Wah abKhan, Shahidul I slarT.Khan, Serajul HuqKhanam, FahimaKhandakar, A.I.M. Nazme RahmaniKtlandaker, JalaluddinKhasnabish, BhumipKhatoon, SufiaKibrya, Md. GolamKurny, Abu Syed WaisMahbub-un-Nabi,A.S. M.Mahdiuzz~man, Md.Mahmud, Iqba IMahmud, TareqMajumder, Satya PrasadMaleque, Md. AbdulMandai, Amalesh Ch,

~ Matin, Md. AbdulMatin, Md. AbdulMesbahuddin, A.K.Mia, Abdu I OliadusMia, M. Abdul MaleqMia, Mir JahanMohammad, NiazMohit, Md. AbdulMollah, Mr. Abdul HamidMridha, ShajahanMujtaba, Iqbal MohammedMuktadir, M.A.Morshed, Hassain MonjurMurshed, M.M.OumrulMurshed, RafiqulMurtaza, Md. Alee .Naser, Jamal Abdun

Calendar

EEEPhyMEEEEWREChemEEEChEPhyEEECEEEEHumMEMetEURPEEEChEChEEEEMathMEWREEEEMEMathEEEWRE. WRE

URPChE-MetEChEArch,CECompEEEECEME

Designation

Assttc Prof.lecturerLecturerLecturerLecturerLecturerAsstt. Prof.Asstt. Prof.LecturerLecturerLecturerlecturer .Asstt. Prof.LecturerAssoc. Prof.Assoc. Prof.Assoc. Prof.ProfessorAsstt. Prof.Asstt. Prof.LecturerAsstt. Prof.Asstt. Prof.Assoc. Prof.LecturerAsstt. Prof.Asstt. Prof.Asstt. Prof.LecturerAsstt. Prof.Lect urerAssoc. Prof.LecturerProfessorLecturerLecturerAsstt. Pr of.ProfessorLecturer

Date ofJoining

16.4.7420.1.8518.9.8410.4.8415.12.843.2.8518.4.8122.1.8126.12.8213.4.782.5.7430.8.8228.12.6826.5.7730.1.744.5.7220.6.6426.10.6425.10.7919.9.81 -16.4.8431.5.756.3.8213.5.8118.9.8414.11.7419.2.768.4.7711.8.826.11.8118.9.84.2.5.7218.9.8414.11.628.4.7728.5.8519.9.811.8.738.8.83

11

rName

Nasim, Mustaq AhmedNilufar, FahmidaNilufar, FahmidaNishat, Ainun.Noor, Mag lub alOmar, K. IkhtyarPatwari, A.M.Quaium, A.S.M. AbdulQuader, A.K.M.A.Rabbani, GolamRahim, AbdurRahman, A.K.M. Matiur

. Rahman, Ahmad HabiburRahman, AminurRahman, AminurRahman, AnisurRahman, GolamRahman, KhailqurRahman, M. -AyuburRahman, Md. AnisurRahman, Md. Azadu rRahman, Md. Habibu rRahman, Md. HabiburRahman, Md. HabiburRahman, MahbuburRahman, Md. MashuqurRahman, Md. MizanurRahman, Md. M izan urRahman, Md. MujiburRahman, Md. MujiburRahman, Md. RezaurRahman, Miftahu rRahman, Mohd. Hamidu rRahman, MoududurRahman, Mustafizur••Rahman, SaifurRahman, ShahedaRahman; Shah idur

12

Department

CE,-IFCDREEEWREMEChEEEEURPChEIFCDRNAMEChemCEIPECEMEURPChECEEEECECEEEEHumArchEEEIPEMEEEECEIFCDRPhyEEEMEMEEEEArchChem

Desig nat ion

lecturerLecturerlecturerProfessor.Asstt. Prof.Assoc. Prof.ProfessorAs~tt. Prof.Assoc. Prof.Asstt. Pro f.LecturerAsstt". Prof.Asstt. Prof.'LecturerLecturerLecturerAssoc. Prof.ProfessorAsstt. Prof.LecturerProfessorAsstt. Prof.Lecture rLectur'erLecturerLecturerProfe$sorLecturerProfessorAsstt. Prof.LecturerLecturerAsstt. Prof.LecturerLecturerLecturerAsstt. Prof.Lecturer

Date ofJoining

30.4.769.8.82

22.6.8112.6.723.4.83

17.4.7218.11.5630.4.853.4.761.7.818.6.816.2.682.5,74

20.1.8518.9.843.4.83

25.8.656.11.79

17.10.7818.9.8018.4.7211.8.8217.4.7211.9.781.4.85 .

10.9.8211.1.688.6.815.1.69

29.10.8011.8.8212.5.8016.8.69

26.12.8322.4.80 '9.7.73

.25.10.76.- 22.4J30

BUET

Departm,ent Date of.Joining

18.9.8415.11.623.4.8226.2.7915.10.7510.8.8331.5.7518.9.8411.8.825.11.6031.5.752.6.84

31.3.7330.3.6910.4.8020.1.8518.9.848.4.7711.8.8211.8.8220 •.9.8224.9.8418.9.8415.10.601.9.6918.3.8014.6.708.9.8111.8.8228.5.851.2.841.4.8520.2.7916.4.801.3.8316.2.728.4.778.4;77

Designation

lecturerAs~tt. Prof.Asstt. Prof.LecturerA'sstt. Prof.LecturerAsstt. Prof.Lecturerlecturer'Assoc. Prof.Assoc. Prof.lecturerProfessorAsstt. Prof.Asstt. Prof.LecturerlecturerAsstt. Prof.LecturerLecturerAsstt. Prof.LecturerlecturerProfessorProfessorAsstt. Prof.Asstt. Prof.lecturerlecturerlecturerlecturerAsstt. Prof.Asstt. Prof.LecturerAssoc. Prof.Asstt. Prof.Asstt. Prof.Lecturer

CEEEECompECEArchChernNAMEEEEtFCDRCECEIFCDRCEEEECEEEECEWREArchArchIPEPhyCEWRECEEEEMathIPECEMEHumIFCDRMathChernMEArchWRECE

Rahman, Shar ifurRahman, Syed AnisurRahman, Syed MahbuburRahman, Z. H. Mosh'iiqurRash id, Kha ledaRashid, Md. AbdurRefayetullah M.Reza, Syed Mostafa MohshiurRokunuzzaman, Md.Rouf, A. F.M.A.Rout Md. AbdurSabur, Md. AbtjusSafiullah. A.M.M.S,aha, Bangs hi BadanSaha, Sunil KumarSaha, T. K.Saif, Md. Tahir AbuSaleh, Abut Fazal Md.Saleh Uddin, Md.Sarker, DebashisSarker, Ruhu' Am inSattar, Md. AbdusSeraj, Salek MuhammadShahjahan, M.Shamim-uzzaman, Md.Sharif, Hafiz Faruq AhmedSheikh, Jamshed AliShikder, Ashraf AliSiddiqqe, {AbuTamim, Md.Ullah, Md. AhsanUllah, Md. HabibUllah, Md. Obayed 'Ullah, Md. RafiqWahhajjauddin, Md.Wares, ShamsulWasi mi, Saleh AhmedYazdani, Nur

Calendar 13

~ r,

IiName Department Designation Date of

. Joining, ,

" Yunus, Shah Md. GE lecturerII

8.4.77I: Zakaria, Md. CE Asstt. Prof. 9.10.77l Zakerullah, Md. Math - Assoc. Prof. 15.9.65Zaman, Md. Atiquz EEE Lecturer 30.8.82Zaman, Nazma Phy Asstt. Prof. 2.8.76Zamil, A.K.M. Reazul CE lecturer 26.12.83Zubair, A.K.M. CE lectu re r 8.8.83

List of Administrative Officers of the University:

Computer Centre

Inst. qf Flood Cnntrol&Research

Di rector, Planning andmentDirector,

Registrar

Comptroller

Director, Advisory, Extension &Research ServicesDirector, St udents' Welfare

Controller of Examinations

Develop-

Director~Drainage

Mr. Abu Taher

Mr. M. A. Afzal

Prof. Md. Mizanur Rahman

Prof. A.F.M. Anwarul .Haque

Mr. Asadullah Khan

Prof. Alamgir Mujibul Huq

Prof. Jamilur Reza Choudhury

Dr. A.K.M. Zahiruddin Choudhury

!, i

Prof. Md. Nu ru I' Islam

Mr. Md. Mahtab Hossain

Mr. Abu Bakr Siddique

Director, Inst. of Appropriate Tech.

University Engineer

Dy. Li.brarian and librarian-in-charge

Library Facilities:

The four-storied library building stands close to the academic buildings: .. Itis. a compact library with built-in facilities to provide the following servicesto the students and teachers:

(i) Acquisition and processing of books an d journals and other publishedmaterials

(ii) Issue and receipt of books

(iii) Research and journals library

(iv) Reading room

14 suet

(v) Reprographic Service

(vi) Rental libraryStock of books and journa Is upto June, 1984 is given below:

The Reading room can accommodate 200 students at a time to providereading faci lities of rare and out- of.;print books, ready reference booksand

prescribed text books.

The Journals library provides services to the postgraduate studentS,resear-chers and teachers. The library' procures. photocopies of articles, papersand other published matters on request f.rom th e researchers and teachers'through agencies such as the British Lending Librar y.

( * includes journals, conference proceedings, patents, 'standards,

ficati on etc.)'

Books:

, Journats :curr.entback volumes

80,000

212*10000

speci-

The Reprographic section provides reprodution facilities of articles,parts of rare and out of .print text b:>oks and pub lis hed materials tostudents and researchers at a very nominal charge.

The Renta I library issues text books to. students for one academicsession on rental basis through payment' of a nominal fee.

Library timing:General Library

. Opening (Saturday-Wednesday) - 9 A. M. till 5 P.M.Reference L ibary :Opening (Saturday-Wedne~day) : 9 A. M . till 10 P:M.

Thursday ; 9 A.M. till 9 P.M.

Student Health- Servi ce :A students health centre provides primary' and basic health care facilitiesto students (residential and non-residentia I) free of charge. A hospitaJ andan out-patient dispensary are maintained for the students. The out~patientdepartment is staffed with four full-time gene ral practitioners who also attendresidential student patients on call. For specialized consultation' on com-plica,t'ed diseas as, the cantere refers the patients to , specialist-consu It~nts.The University bears all hospital ex}):m:ies, in case a student needs hos-

pitalization.

15Calendar

I~I:iI;

~1-

~ .!

Research & Extensoin Services and Workshop Facilities:

To provide engineering and works hop services as backup facilities toresearc~ (instrumentation, equipment maintenance, construction of rigs forexperimentations etc.), the Un iversity is formidably equipped with fewworkshops. Under a separate Directorate 'of Advisory, Extension andResearch Services, these workshops are administered and managed.

These workshops also function as teach ing workshops to impart practicalknowledge in workshop technology and metal cutting technology and on-job tra ining to the first yaar students, in general and to tha second yearstudents of Architecture, Civil Engineering and Mechanical Engineering stu-dents and also to the third year and fourth year students. of MechanicalEngineering who ..take sessional works on Machine Tools and ProductionEngineering. Machine Shop,' Foundary & Pattern Shop, Sheet Meta.! & Wel-ding. Shop, Carpentry Shop and Automobil~ ~119P a[e t he major teaching-cum-service wo.rkshops, while the Central Instrument Workshop.providesservices in repairing and maintaining equipments of all engineering andscience departments. This workshop also provides photocopying servicesand other modern reproduction facilities for academic and official purposes.

Computer Centre :

The Computer Centre plays an important role in the teaching and researchof the students of the diffe"rentfaculties and provides useful services indata processing facilities required in various sectors of national develop-ment.

The Computer Centre has two main frame computers, IBM 370 Mode I 115H02 system and an IBM 4331-K02 system. In addition microcomputers withhard disc and plotting facilities are available. Th eon-fine peripheriaisare eight 3340 DASD devices each having a capacity of seventy megabytes,three magnetic tape units, one card reader, one diskette I/O unit and twoline printers. Interactive facilities are available through four VDU termi-nal~ in addition to a .matrix. printer conected to the 370/115 and ~enVDU terminals connected to the 4331 system. Off-ti me data entry facilitiesinclUde five units(ten workstations) of IBM 3742 Dual Data Stations, fourIBM 5280 work stations and one IBM 029 card punch.

The 'operating systems for the mainframe computers include DOS/VS,POWER/VS I ETSSII, DOS/VSE, POWER/VSE and VSE/ICCF. The Compner~avialable are FORTRAN IV, COBOL, ASSEMBLER. Application pac1<'ages

'", /' "- availabl e are SPSS, SYMAP, SHAZAM etc. The. operating systems available

I

16BUET

,

lI

. i

! '-

for the micro-computers TRS/DOS, MSDOS, CP/M and the compi.iers availableare BASIC,. rORTRAN, COBOLe PASCAL and ASSEMBLER. Appl ication. packagesavailable are PROFILE II, PIE word processor, DBASE II, PFS, SCRlPST etc.

Directorate of Students Welfare:(Students Union, Athleti"c Club and games & sports facilities)

The Directorate of Students Welfare is responsible for the various activitiesralated to the physical, psychological, social and other aspects of welfare ofthe students. These include arrangement of supervision 1.0-r halls of resi-dence, programlJles for physical education, games. and sports, supervisionof the programmes for extra-curricular activities of students through theCentral Students Union and through the students unions of the various hallsof. residence. It is also responsible for providing health services throughthe Students Health Centre (See page 15 ), to direct students' consultingand guidance programmes, to aid in arranging employments for students andto organise and maintain contact with fhe -a'iumni -of the -University etc.

The Central . Students Union, most of who~e members are et ected- by. thestudents, oversees the socio-cultural activities of the students. It maintainsand aids new students in their introduction to the Un iversity as well as in

'Iooking after the problems of students already at the University.

The students unions of the va.rious halls of residence also arrange theirindividual socio-cultural activj~ies, literary competitions etc.. and . help thehall managements in the day-to-day running of the halls.

Games and Sports :The athletic club of the University provides excellent facilities to studentsto acquire physical fitness indispensible for a healthy mind and body. TheUniversity maintai ns a beautifull playground, a squash court, tennis lawns andbasketball courts. A well-equipped modern gymnasium provides ample faci-lities for various types of phy~icaJ activities to a large number of studentsat a time. At present a separate hockey field is under development and aswimming pool is in the design phase. The athletic .club arranges a colourfulathletic competition eWJrYyear in the form of annual sports meet.

For improvement of the standard of games and sport.s, regular coaching byexperts are arranged.. The~uiversitv arranges inter-h all football, hockey,basketball,. tennis, swimming competitions etc. It also participates in Inter-University and national competition's in which won medals on diffe-rent occassions.lnter-hall indoor games' competition are held yearly andteacher-student friendly games are also arranged at times.

Calendar '17

Students r-tall 'of Residence:

The University has six halls of residence and one female students residen .•tial annexe with the Titumir Hatl. The. total capacity of these halls is around2100 (including 26 female students). Following are the halls with theirrespective $tudents -residential capacities. The halls are named after ,thenational heroes, stalwarts. poets and eminent personalities of the country.

Name of Hall

Ahsan UlJah HaUNazrul Islam Hal fShahid Smrity HaUSher-e-Bangla HallSiJhrawardy HallI

Titumir Hall

Residential Capacity

452281293317316403

Total 2062

i _

.The existing capacity is around 67% of the total number of students of theUniversity. Non-residential students are to be attached with a half, so thatadministrative control On students becomes" hall-based. To meet theincreasing demand and shortage of residential capacity , two new haUs of. residertce, one for 300 female students and another for 400 male studentsare under constuction.

All of the sixhaHs are set in gardens and frontal green plantations and lawnsand all are within easy walking distances of the Un iversity, almost at thecentre of the city,. near shopping centres and on bus routes to the city andsuburb. The students I-ive in these hal/son community-basis, while a singleroom, depending 00 its size, is shared by 3 to 4 students. Each halls has acommon-room/television lounge, library, dining hall, prayer rqom androom laundry service and other service faci !ities.- -

University Institutes:

_two research institutes, namely, (i) Institute of Flood Control and DrainageResearch, and (ii) Institute of Appropriate Technolog y have been establishedin the University with clear objectives and purposes. These ins~itutes arebasically of non-teaching character; the rnain purpose to be served by theseinstitutes is to carryout basic and applied research in the two relevant vita.!areas and develop useful and important softwares.

18 -BUET

It

1.~

,-I

Institute of Flood Control and Drainage Research:In recognition of the importance of research in floodc ontrol, irriga~tion and drainage in the country, Institute of Flood Control and DrainageResearch was established in July 1974. The specif i c aims and objectivesof the Institute are: .

a.' to undertake research relating to behaviour of Bangladesh rivers wi themphasis on flood control, river training, bank prot ection and relatedproblems.

b. to study problems relating to draillage, groundwater, water distribution

and management and agriculture. I

c. to carry.out basic research as applied to hydrology, hydraulics, rivermechanices; fluid machanics and other relevant fields.

d. to study the long term effects of embankments, barrages, dams and--.other--sta biliZi ng works on the ragime of rivers as well as on the mor-

phology of the flood plains.....• ..•. .

e. to study harbour and coastal engineering problems with special emphasis

on tides and salinity.f. to provide extension courses, training and research facilities in the

above fi.elds.

g. to provide research facilities.

h. to provide advisory and consulting services to Government, Semi-

Government and other -agencies.'

i. to maintain contact with simi lar organizations both within and outsids

Bangladesh.In view of the national importance of flood control and the pressing

urgencies for the. development of efficient irrigation and drainage_ systemsto agricultural lands for the increased production of food, emphasis inresearch will include studies in the following areas:

1. Studies on characteristics of rivers of Bang ladesh.

2. Flood and -flood/control study series.

3. Studies -on water management and irrigation problem of Bangl adesh.4. Mathematica I modelling study series.The Institute has already taken up a number of research .projects. Some

of them are mentioned below:1. Regional flood frequency analysis of Bangladesh.

19Calendar

II... ~_." .... _fI

!f!II

\

I.,

2. A review and analysis of hydrological gauging networks of Bangia desh.

3 .. Laboratory study of distribution pattern of sediment load ..

4. Mathematical model study of storm drainage problem in Dhaka City ..5. A review of flood and road embankment construction practice in

Bang ladesh.

6. 'Study on flood depth of the north-east region of Bangladesh ..-,','

7. Study on river banks shifting characteristics of Bang ladesh.

8. Study of groundwater qual ity and its effects upon physical properties o,firrigated so ils in the southern region of Chalan Beel.

9. Numerical simulation of tides and saline water intrusion in the GangesDelta ..

1a.Computer modelling of river channel changes;n alluvial condition.

11. Numerical modelling of sediment transpGrt process by finite element-~- .....t-e.c-hnique...

Institute of Appropriate Technology:

The institute was established in 1980 with clear purpose to adapt, innovatedevelop ana implement technol og ies appropriate to country's. need. Thisinclude also' technology transfer and dissemination with emphasis on;:lfUraltechnology. The institute is ya t in taking-off stage due to government'sdecision and approval at various stages of its implementation .

I!

It.

A planned workprogramme of the

i) Policy research

ti) Technology AssessmentResearch

iii) Resource ~Assessment andTechnology Development

iv} Technology Trasfer andDissemination

v} Train1ng Programme

20

Institute is given as follows:

Techno logy policy related to Agricultureand Rural development sector.

Agricultural production, rural develop-ment, Agro~processing & non-agro-pro-cessing industries.'

Assessment of vi IIage resomces to deve-lop. technologies.

Related to Agriculture & Rural develop-ment and small industries. ,

Develop train ing programme. ( shortcourse, seminar, workshop, participatoryresearch ) on Technology Assessment,Ada ptation & Development, diffusion andd isseminati on.

SUET ..

),;

vi) Network Programme

vii) Documentation and Inforemation Dissemination prOegram'lle

viii) Advisory Serv ice Pro-gramme

Establish contact and exchange programc

me with national and International ins-titut ions of simi lar nature.

Exchange of documents and information.

: Provide adv isory services to the need ofconcerned agencies.

•~'I Auditorium Complex and' Seminar Hall':

j The University has its own Auditorium COrnPlex with ;modern facilities which,I houses one auditorium with a sea tingcapacity of 1500. Within this corn-:;, plex, a modern and hygenically 'sOund canteen caters for food to the ,students' I ' . "" , '

~!,---'- ~--' --and.--teachers. There is also one semina, hal', with a seating capacity of 250,~lcapable of holding conferences Clnd' seminars. Besides this seminathall, a~ similar one with modern electronic gadgets having a seating capacity of~ around 200 is located on the first floor of the Civil Engineering 'Building.

list of Committees:The University has the foil owing eight statutory committees:

1) Syndicate

2) Academi c Coune it

3) Finance Committee

4) Planning and Development Committee

5) Committee for Advanced Studies and Research (CASR)

6) Boards of Undergraduate Studies (BUGS)

7) Boards of Post graduate Studies (BPGS)

8) Faculties

, IIi

-I

;)h:1

J~_t

The Syndicate is the supreme authority in major pol iCyemaking matter andin approving recommendations. The Finance Committee, the Planning andDevelopment Committee and other committees assist the Syndicate in matt,er's

, .. important for- proper functioning of the Univers'ity. The Academic Councilis the supreme body in formulating academic rul es and regulations to whi~hthe CASA, Boards of Undergraduate and. Postgraduata Studies, and F~cultiesrecommend.

Calendar '21

University Publications:The University publishes the following items at- various times:

(i) Calendar and Diary: About 5500 copies of Calendar and 1500 copiesof diaryannuatly.

iii) Annual Report: Annually aoout 750 copies

(iii) Research Abstract Biannually about 750 copies

(iv) Research bulletins: Mechanical Engineering,Chemical Engineering,Water ResourcesEngineering,

.Electrical & Electronic Engineer,ing( Published'annually)

(v) Ordinance, Statutes, Rules and Regulations, Pubfished occassionally.'.' ~__ - ._---,-'0=,...-.--

(vi) University Calendar: 5500 copies published biannually.c- . . (Syllabus)

!'

.1

22 6UET

.{.~

! 'i '--:'-'1 -'-"-l -l--r-(-i-! lLj I I j l--.-J j ~I_~ ;----:-~~+---:-!~l. I I "f

,

t''"i "IIh-I I. I-"t-' I

! I

I,

. .I

I i i , ..

Ll , , .I-1-. ! -r--" I .'

1 I . I i -l I

! r-i . I

I i '---I , I I I I ! r-! I

!

I I i II

I 1 I Il 'I

I I I . ! I ,1 I i I I

. I

I! I J I

I I f I

1 JI I ! t.

I I 1 II

I I I jI . I

1 .' I1 -

I I11 I I I , !, i !jI ,

I I II I 1I

I

I j II .I

.1I I IJ I- I

i i I! I- .-

.' .I

.li

..

;

,I!

," I

I

,I

.."' i

I

,..!

, i,•

I

,~

,

,I

!\

I

,(

I

1

\

,.., Ii

..•.. -a - .•.. "-- -. -- II-.- II~iSldn - nl~I II II I:H-Qrr ••.~

II e •

I"

IIJ,

~

-.I• ~,.•••• '\1is:

A AI r-\ ni:l :tJ~ ••,

.-li (,

-R II II •• "'l1lI 11"""-I I

~ ..,.. ...•~

", I",

I"..

,!- t

-I

j !I.• !I

I

I ,,

:\

I.I•I

I;I

I

II

i

J

Admission Requirements for Undergraduateand Postgraduate Courses:

Students get their admission into the four-year B.Sc. Engineering degreecourse in the var ious engineering departments and in the five'-year architec-ture course through an open admission test. Candidat es for admission intothe B.Sc. Engg. and the B. Arch. courses must have passed the HigherSecondary Certificate (HSC) examination (Science group) after twelve yearsof schooling or its equivalent. Students are generally seiected on the basisof the result of the admission test. The number of fresh entrant in theengineering faculty is usually 510 and that for Architecture is 50.Moreover, a maximum of 26 seats are reserved for foreign students and 21seats for the members of the Bangladesh armed forces. Students would giveoption for any of the branches of engineering viz. Chemi cal, Civil, Electli-

--cal-and electronic, Mechanical, Metallurgical and Naval Architecture &Marine Engineering during admission.

The qualifying requ irements for the admission test for subsequent entry inthe undergraduate Courses are as follows :

(i) Minimum of 50% of marks in Secondary Sch001 Certificate (10 yearsof schooling equivalent to Matriculation) examination.

(ii) Minimum of 55 % of marks in aggregate in the subjects of Physics,Chemistry and Mathematics and not less than 45% marks in each ofthese subjects separately in the Higher Secondary Certificate exa-mination.

The detailed rules of admission for each academic session are framed bythe Academic Council of the Unive rSlty. Usually, the notice for admissionis advertised in the local news papers soon after the results of the HSCexaminations are announced. Application forms an d any othe r informationmay be obtained from the Academic Section of the Registrar's Office.'

Overseas students may contact the Registrar of the University for detailsabout the admission procedure.

Registration/Admission:

Students qualified in the admission test, have to undergo a medical check-up. The medical check-up is conducted at the Students Health Centre ofthe University. Med;'ca! Examination is preceeded by verification of previ-ous academic documents at the academic section of the Registrar's officebefore the students can get their admissions into the f irst y~ar cia sse's.

Calendar23

The right of admisson to the Un iversity is subject to the requirement th~tthe student will comply with the admissio n procedure and wi II obey theexisting statutes, ordinances, ru les and regulations of the University andthose framed from time to time.

Discipline and Conduct:

As member of the universit y community a student is expected to behave ina seemly fashion. It is obligatory for him to abide by the rules and regu-lations of the University. In case of violation o'f some rules or in case ofmisconduct or an act of indiscipline a student may be pena Iised by th econcerned authorities of the university, or his case may be refe rre d to theBoard of Residence and Discipline f or appropriate action. Student may beinformed of the relevant ru les at different times by the offices of theRegistrar, the Comptroller, the Controller of Examinations, the Librarian, theDirector of Students Welfare and the Provosts of residential. halls .. Studentsshould keep themselves aware of the different notifications issued by theseoffices. In case a student is interested to know about any regulation ofthe university he may contact the office of the Registrar of the university.

Postgraduate Admission and Course-Qualifying Requiremementsand Academic Regulations:

(i) M.Sc. Engg./M. Engg. and M. Arch.-A student must have a bachelor'sdegree or its equivalent from a recognized university or institutionwith a g')od academic record.

(ii) Master of Urban & Regional Planning-A student must have a bachelor's- degree or its' equivalent in Engineering/Architecture/PlanningjAgricul-tural Economics or a Master's deg ree in Sociology/Social Welfare/Social Work/Geograph y/Economicsfrom a recognized university orinstitution with a good academic record.

(iii) M. Phil in Physics and Chemistry-A student must have a bachelor'sdegree or its equivalent in relevant Engineering or a Master's degree.in relevant subjects from a recognized university or inst itution witha good academicre cord.

(iv) Ph.D.-A student must ha,ye a Masters' degree or M. Phil. from a recog-nized university or institution a student; in the Master's programmamay be transferred to the Ph.D. programme if he shows excellentprogress in his Master's thesis after completion of courses.

24 BUET

Academic Duration:

(i) Master's courses in Engineering and Architectu re are of threesemesters with a minimum duration of one year and a half.

(ii) M.Phil, MURP and Ph.D. are of four semesters with a minimumdu ration 0 f two years.

A candidate for the Master's degree must complete all requirements withinfive calendar years and Ph.D. within six calendar years from his first enrol-ment in respective programmes.

Academic Regulations:

The academic year for postgraduate studies is divided into two semesters.Ac,aaemic progress is measured in terms of credit hours earned by a student.One credit hour subje?t should require one hour of c,lass attendance perweek for one semester. A student needs creqit_,!,()_,!rs, !O!.i~~pectivedegrees as follows:

.j

IiI

IJ

f,,

II,

Degrees

M.Sc.Engg/M. ArchM. Engg.M. URPM. PhilPh. D.

CourseC • hr.

183030189

Thesis/ ProjectCr. hr.

'86183045

, /,'!

I

IIIi

Examinations Rules and RegulationsFor Undergraduate and Postgraduate Students

A. Undergrduate

,Rules relating, to conduct of examinations forundergraduate' engineering and arch itecture coursesappJj'ca~le to the students admitted to this university. in session 1983-84 onwards and repe,aters along withthem':

System & conduct• of Examination,

Cahmdai

The, B. Sc. Engineering and Architecture degreesco"urse,s shall be divided for' the purposes of theex'amination and promotion as follows:

26

I..i

.r,

. :

Class test

Date ofExamination

Prepars tory.Jeav.e .

Minimum passlqualifying marks

26.

For 1st Year, 2nd Year, 3rd Ve3r and 4th year (forEngineering) and 1st Year, 2nd Year, 3rd Year, 4thYear and 5th Year (for Architecture) each will ex-tend over one academic session. For the purpose ofexaminati on, a course will be divided into. tw 0 parts,Part 'A' and Part 'B'. Part 'A' Examination wil! beheld in the midd Ie of the session and '("ill carry 40%of the total marksailott ed for .the courses/subjectsand part 'B' examination will be held at the end ofthe session and will carry 40%of the total marksallotted for the courses/subjects.

There shall be continuous assessment of performance.of students through class tests in aIitheorycou'~sesand 2_Q%.._QLtOlgJ. at~JkJ~.of that course (10% of totalmarks in each of part-A and part-B) shall be allottedfor these class tests. In each part of the session,the teacher( 5) concerned shall take at least two, butnot more than three class tests . and shall preparemarksheet which he shal! submit separately at the endof each part of the session.

The dates of various examinations shall be announ-ced oy the Dean at the beginning of each session.The dates of examinations shal' not be changedexcept by a specific decision of the Academic' Coun-cil on the recommendation of the Faculty concerned,

A preparatory leave o'f tw,o weeks wil r be allowedbefore part 'A' examinat ion and .two t9 three weeksbefore part ' B'examination .

40% is the minimum pass marks in each theory/sess-ional subject. Where a subject is taken as morethan one distinctly different. subjects mentioned inthe curricula, the paper shall . be divided intorequisite number of parts and it shall. be obligatoryto pass the pints separately. Marks obtained in the.part 'A' .and '8' examinations and \heclass tests'will be added to' calculate the total marks obtainedby a student in that' subject. Absence in any paper

"

will be considered equivalent to securing zero inthat paper.

A student will be promoted to the higher class whenhe passes in all the subjects.

Distribution of marks of different courses will be asfollows ~

1st 2nd 3rd 4th

Distribution year year year year

of marks 1 period per week 50 100 100 100 Theory(for engineering) 2 150 t5d 200 200 subjects

" "3 " ,, , . 200 250 300 3004 " "

, , 300 300 400" 400

For sessional/practical, for all years fora course of 3hours per week, markswill be 100 and/or of a courseof 3 hours per alternate week, marks will be 50 ..

Eligibility ofexaminee

Merit position &award of Class

Calendar

A candidate may' not be admitted to any universityexamination unless:

: Submits an application for appearing in theexaminationin the prescribed form to the Controllerof Examinations.

: Paid the prescribed examination fees and all out-standing University and Hall dues.

Class of a student shall be decided 0 n t he marks heobtained in the regular examinations and class tests.

The classes will be determined on the basis of theaggregate of marks obtained by a candidate in allthe eight theory/sessional examinati ons of the fOUJ

year'courses for engineering and in all the tentheory/sessional examinat.ions of the five year coursesfor architecture.

A candidate. secur;n9 75% or above in the aggregateof marks in all the papers for all the four yearclasses for engineering and for all the five year classes

27

~'.....

ReferredExaminati on

Attendance

for archi tecture, shall be placed in the First Class withHonou rs. If the aggregate is ,below 75% but 60%or higher ,he/she shall be dec lared to have obtain'adFirst Class. If the aggregate is below 60% but 50%or hig her, he/she shall be declared to have obtainedSecond Class (Upper). Other successful candidatesshall be placed in the ,Second Class.

A student who fails in not more than two theorysubjects, provided that he has aIready obtained atleast 40% marks in aggregate (i.e'. total of all theoryand sessional courses for that year), will be allowedto sit for a referred examination to clear those sub-jects to be held normally in the 2nd week from thebeginning of the classes of the next academic session.A student taking referred examination will beprovisionally allowed- <,to attend the higher classuntil the result of the referred exai1linati on ispublished. A student who will pass in the referredsubjects shall be declared to have passed in therelevant examinaton.

The rules for attendance report ,of students are asfollows: Student's attendance reports for eachsubject in one academic session shall be notified infour instalments as given, below :

i) First quarterly report: Six. weeks after theresumption of classes ofthe part-A

Ii) Second quarterly' report: A cumu lative attendance(Cumulative) of a student during

'part-A at the end ofpart-A classes

II

iii) Third quarterly report(Cumulative)

: A cumulatIve attendanceof a student duringpart-A and .the currentquarter of six weeksaft~J:'th? resumption ofclass~s.of part-B

'BUET

.,,';'i

• 'f..'j'

.tcd.~.

iI

, I

Iji

. I,\

. i!I

' .• j

.: ;

I

" !

'~>';',';'.l". '

;>~' i~;

r...~;..'.fl

Private

Exemption

Calendar

v) Fina{ overal! cumulativereport: At the end of classes of

the part-B, total cimula-tive atteridanceof a stu-dent du"ring the session.

A student shall not be admitted to part- B examina-tion if his cumulative attendance so re corded abovefalls short of 60% of the total classes held in everysubject during part-A andpart-B classes of thesession.

A list of the students whose attendance is less than60% wi II be prepared by the Registrar within 2 work-ing days after obtaining a report and the respectiveguardians of these defualting students would be'informed .

If after the third report a student's attendancefalls below 60% and is such that even if the studentattends all the classes after t he announcement ofthis thi rd report land still could not. achieve 60%attendance, he shall not be allowed to continueattend ing the remaining classes of part-B.

A student who fail s as per rules and who has passedin all sessional/practical subjects may appear in theexamination. in which he failed, as a private candidateon payment of examination fees. He shall be required.to pass all theory subjects for promotion to thehigher class.

Repeater students may be exempted in the theorycourse(s) in whi~h he secured 60% or more marks.Head of the relevant department concerned may,however, disallow such -exemption. For exemption insessional/practical subjects following rules will apply:

i) 40% shall not be exempted

ii) ~ove 40% and below 45%, Head of the Depart-ment concerned may allow exemption

29

iii) 45% and above, shall be exempted dire~tly onthe basis of appl ication (provided the studenthas applied for such exemption within the speci-tied time).

B. Postgraduate

Rules relating to conduct of examinationsgraduate courses in M. Sc. Engg., M.Arch., M.URP, M. Phil. and -Ph. D.

,for post-Engg., M.

Conduct ofExamin'ation

/

GradingSystem

30

i) For all postgraduate degrees in Engineering,Architecture, Urban & Regional Planning andPhysics and Chemistry, in addition to test, assign-ments and/or examinations during the semester asmay be given by the teacher (s) concerned, there

• " -<!.: _. < • -- •• • -, - , ~ ••• ~~- •

shall be a written examination and/or other test foreach of the subjects offered in a semester at the endof that semester. The dates 'of which shall be anno-unced by the, Dean of the respective Faculties at leasttwo weeks before the commencement of the examina-tion. The final grade in a subject shall be basad on.the performanca in all tests, assignments and/or exa-

minations.

Final' grades for courses shall be recorded as follows:

Grade Mer it description Grade Numericalpoints markings

A+ Excellent 4.0 90% and above

A ' Very good 3.5 80% to below 90%

8+ Good 3.0 70% to below 80%

B Average 2.5 60% to below 70%

C pass 2.0 50% to below 60%

F* Failure below 50%

'*. Incomplete

S or U Satisfactory or Unsatisfactory (for non-credit course)

W Withdrawn from course

••• Subject in which the student gets F grades shallnot be counted towards credit hour requirementsand for the calcuiation of Grade Poi nt Average

(GPA).SUET

.. 11;'I

1

-L,.i..,~

""",..,'

\'

j,

OualifyingRequirements

Thesis/Project

Calendar

:i:* Given oniy a student is unable to cOiflpleta thecourse becauseof circumstances beyond his control.it must be made up by the close of next twosemesters or the incomplete grade becomes a fai-iure. He may, however, be allowed to registerwithout further payment of tuition fees for thatcourse.

The qualifying requi rement for graduation is that astudent must earn the minimum grade point of 2.65based on tt:1eweighted average in his course work.

The C grades, upto a maximum of two subjects maybe ignored for calculation of grade point average(GPA) at the written request of the student, providedthe student has completed the total credit hour requi-rement with a minimum weighted GPA of 2.65 in theremaining subjects. Nosul)ject shall be repeatedunless it is a compulsory requirement for the degreeas determined by the Board of Postgraduate Studies.Performance in all the subjects shall be reflected inthe transcript.

I f the cumulative number of F grades obtained by thestudent is th-ree-or more he shall not be a1I0wed toconti nue in the programme.

If at the end of the second or any subsequent seme-sters, the cumulative GPA falls below 2.5 (consideringall grades including F grades), he shall not be allowedto continue in the programme"

In addition to successful completion of course worksevery student shall submit a thesis/project on hisresearch work, fulfill ing the requirements as detai ledbelow .

. Every candidate submitti.ng a thesis/project in partialfulfilment of the requ irements of a degree, shall berequired to appear at an oral examinat.ion, ona dateor dates fixed by the Head of the department andmust satisfy the examiners that he is capable ofintelligently applying the results of this research tothe solution of problems, of undertaking independentwork, and also afford evidence of satisfactory know-ledge related to the theory and technique used in hisresearc.hwork. C

31

,-

!!

tr,I

/

Conduct ofExamination

QualifyingRequirements

Comprehensi ve .Examination

Thesis

32

(ii) For Ph.0. degree :

As in (i) above for Masters and M. Phil degrees.

To qualify for the degree a student must earn a mini-mum grade of 2.65 based on the weighted average inhis course work.

The date and time of the comprehensive examinationshall be fixed by the Doctoral Committee on therequest of the supervisor. Comprehensive Examinationshall ordinarily be held after. the .completion of thecourse work by the student.

The comprehensive examination shall comprise' awritten examination and/or an ora I examination to

. test the knowledge of the student in his field ofstudy. The Doctoral Committee shall conduct. the'cO:mprehensive examination. If a studen t fai Is toqualify in a comprehensive examination he shall begiven one more chance to apoear in the examination, -as scheduled by the Doctoral Committee.

Research work for a thesis s,all be carried out in thisUniversity' or at a place(s) appro ved by the' DoctoralCommi ttee in consultation with the supervisor.

.<

At theeno' of the student"s research work the stud-ent shall submit a thesis which must be an originalcontribution .to engineering/sciences and worthyof publication. At least five type written' copies ofthe thesis in the final form must be submitted to theHead of the department through the supervisor in theapproved format .

In case a student fails to satisfy the Board of Exami-ners in thesis and lor oral examination, the studentshall be given one more chance to resubmit the the-,sis and / or appear !n oral exallin3tion as recom-mended by the Board.

A student who 'has been transferred to the . Ph.D.progr.amme from the M .Sc. Engg./M. Phil. programmemay be awarded an M. Sc. Engg./ M. Phil. degree onrecommendation .of the supervisor, if the studentfails to qualify for the award of the Ph.D. degree.

BUET

1------

i II

I If I

I ! !! -r I,i

! i-I I -l_

I '~-L-

! i

Ij

I!

jI

i

III

I i!

! S... I

, j :

; I

I I II :1

I IILi jI t II , '.' 1_ it II I

/. II !l I

!IIj

Ii

I

IIIII

-+--.-j

I

I

I

-"_._--,. -" .-.r~'-'-"--~~~~,==~~---.--~ 1( r- .. -- -_.'------ . ._._._. :"~-..-.-._-.-.-----=.~-t~'"

t' . '.' 'J {

, ' iI ; I :---"-"~ I I

"i \. I

: I I ' ; ~I r

I

l' --~~.~-L ."..j : I

'\ -_._---{--_._:_- ,,,\ : ,--~--'--, "

~ ---- _ .... __ .'..t

I,

~~1JThMRnr.; e~ ~:eP~~~~I

,.

33

- -,

Ph. D.

Introduction and Architecture Programme:The Department of Architecture, is the only teaching department inBangladesh, imparting formal education and training in architecture. tn1961, the introduction of architectural education, side by side with theengineering education, was _a significant step forward in the historyof this institu tion. The department of Architecture was started with onlyone foreign teacher and six stu dents. By 1966, six local teachers joined the ,department after obtaining architecture degrees from U.S.A. Presently the

* Head of the department

Calendar

LecturersDebashis Sarker, B. Arch.Md. Saleh Uddin, B. Arch.Shafiu I A. K. Eusufzai, B. Arch., M. Arch.Md. Mahbubur Rahman, B. Arch.

Department of ArchitectureTeaching Staff:

Assistant ProfessorsSl1amsul Wares, B. Arch.Abu Hyder Imamuddin, B. Arch., M. Arch.Shaheda Rahman, B . Arch., M. Arch.Khaleda Rashid, B. Arch., M.URP.Dewan Mahbub Hasan, B. Arch.Shahidul Ameen, B. Arch.Shamim Ara Ferdousy, B. Arch.Nasim Jahan, B. Arch.Wahidul Alam, B. Arch., MUD.

ProfessorsM. A. Muktadir, B. Sc. Engg. (Civil), B, Arch" Ph. D,

Meer Mobashsher Ali*, B. Sc. Engg. (Civil), B. Arch" M. Phil.

Associate ProfessorsRafiqu I Hussain, B. Arch., M. Arch. Engg.Iftekhar Mazhar Khan, B. Arch., postgraduate 0 ipl. ,Faruq Abmadullah Khan, B. Arch., M. Arch.Md. Khairul Inam, B. Arch., M. Arch.

Faculty of Architecture and Planning

Ii• I

~.l!

Ii

IJI

I:I

IJ

department has 19 teachers, 12 of them with postgraduate degrees, specia-lizing!n Housing, Environment, .Urban Design, Landscape, Health and Educa-tional Facilities. Intake of students we re initially 25. This was later increasedto 35 and presently 50 students are admitted in the 1st year' course.

The curriculum is comprehensive with emphasis on design. I t also include'd. .Humanities, Physical Sciences, Arts, Construction, Architectural Hrstory,Environment, and Engineeing. The understanding of human being associal creature, his perception of environment, goals,' hopes andaspirations, capabilities and limitations, all these are accepted as principalguiding factors for creation of the built environment. Accordinglypresent day architectura I education is mostly concern3d with studiesand investigation of the determinants of architecture arid objective analysis

of all other factors.

The graduates of the department are employed by the government,semi-gavernmant agencies, corporations and private consulting firms.Many of th3 graduates are self-employed running design offices.

The department of architecture offers a five-year undergraduate programmeleading to the Degree of Bachelor of Architecture (B. Arch.). Studentsare given a ser ies of courses and design exercises aimed at developing athorough understan ding of the fundamentals of architecture and acquiringprogressively complex design skills through these' exercises. In the fifth yearduring first half of the course, students accomplish a complete project inclu-ding prelimina ry design, development, working drawings and specifications;in the final part of the fifth year, each student chooses a project of signi'fi-cance which is about to be taken up by some government or' private agency.I n each case the project consists of the development of concept and criteriafor design through investigation of the physical and socio-economic aspectsof the problem and preparation of a design solution.

With time, design o'f environment for projects such as housing, health facili-ties, educational facilties etc.. have become complex and deserve more in-vestigation and research. Architects also haye a significant role to play in thepolicy making process of physical development of .the country. The under-graduate prog ramme does not provide adequate scope for specialization andresearch. Current research includes,' an approach to the formulation ofdesign criteria and space standards for community secondary schools anddesigning a prototype in Bangadesh, the sharing problems' of multiowner-ship flats and Investigation of noise and study of the relevant architecturalaspects in some selected industries in Bangladesh. . ...;:.,.,.

..t't!

,.

34 SUET

\

SUMMARY OF CO URSES ~

Undergraduate

Calendar

Arch 29-3

First year

Course No.

Hum 111Arch 121Math 122Phy 123Arch 1 31Arch 132Arch 141Shop 142Arch 191Arch 192

Second YearArch 211Arch 221.Arch 232Arch 241Arch 243CE 229CE 231Arch 291Arch 292

ThirdArch ~ArchMEEEArchArchCE - -ArchArchArch

Year311312321323

~329342391392

Subject Title

Sociology and PsychologyCli1mate and Desig-nMathematicsPhysicsDesign I

..Art and ArchitectureConstruction Detai Is ICarpentry and Metal Wor ks9C'sign IArchitectural Graphics

Basic PlanningClimate and Design I.Art and Architecture IIConstruct ion Detai Is IIBui Iding and Fin ish MaterialsStructure IIPlumbillgDesign IIPhotography and Graphi cReproduct ionGraphic Art and Sculpture

Advanced Theories of Planning.Urban DestgnMechanical EquipmentsElectrical EquipmentsArchitectural AcousticsArt and 'Architecture III'Structu re IIISpecifications a,nd Cost. Esti.mat ingDesign IIIWorking Drawings

Hours/week

2-02-02-02~01-02-01-00-30-90-6

1-01-02-01-02-02-01-00-12

0-30-6

1-01-01-01-01-02-02-01-00-180-3

Marks

2002002002001002001001004~0300

100.100--200100200200100600

100200

100100100100100200200100900100

35

I. I

Ij

I

Cours No.

r Fourth Year

"Hours/week Marks

HumArchArchArchArch

CEArchArch

411412413414421

429491492

Subject Title

logic and Philosoph'{HousingRural Planni ngLandscape DesignSurveying Techniques andAnalytic MethodsStructure IVDesign IVLandscape Desigo

2-02-01--01-0

1 to 2 weeks2-"0 .0-180-3

200200100100

100..200900100

Fifth Year

Arch 511Arch 513Arch 541Arch 543Hum 516CE 529"Arch 515

Health Facil it ies PianningSeminar (Thesis,- Design Arch)Professional Pract iceConstruction ManagementAccountingStructure VDesign V

2-01-01-01-01-02-00-21

2001001001001002001050

PostgraduateCourse r~o.

I

I

'Ij

Arch

ArchArchArch

ArchArchArchArch"ArchArchArchArchArch

36

6101

610261036104

610562026203620462056206 -6303"63046309

Subject Title

Housing Problems and Policiesin the Developing CountriesThermal Environment in Built -formTheo.ries of Urban DesigoHealth Problems in theContemporary Societies I

Analyt ic Me thodsUrban HousingSonic En"vironment in Built-formUrban SystemsHealth Facilities, Planning and Design"Research Methodology in Archi tectureDomestic Architectureluminous Envi ronment in Built-forms

Thesis

Credit Hours

3 +- 12 + 11 + 1

11

2 + 12 + 11 + 1

11

2 + 1 '"2 + 1

18

SUET

'J

Department of tiumanitge~

Teaching Staff:Assistant ProfessorsSufia Khatun

iB. ft.. (I-tons), fv1. P..

i,Jiir Nazmul Kari111*, B_ Com, (I-ions), [\/i. Corn,

lecturersMd. Khurshid Ahmed, B. .A. (Hons), M. A.Md. Habibur Rahman, B. A. (Hans), M. A.Sayeeda J-afar, B. A. (Hons), M. A.Md. Ahsan Ullah, B. Com. (Hens), M. Com.

Introduc:t-S-Jrl :The department is basically non-degree offering. It offers courses in EnglishEconomics, _ Sociology, Governmsnt, Accountancy. Industrial Management,Industrial law, Philosophy and Pyschology in the undergraduate classes inArchitecture, Civil, Electrical & Electronic, Engineering and Mechanica I facul-ties. The British council has provided the department with necessary teachingtraining facilities and materials under a programme enti.tled "English forSpec ilic Pu,po se. " Th is p ,og' amm~ will immense Iy be neli t Ihe sluden Is

of tha University in their engineering studies.

SUMMARY OF COURSES :

Couse No. Subject TitleHours/Week Marks

Hum 101 English and Economics2-0 150

Hum 103 English2-0 200

Hum 111 Sociology & Psychology2-0 200

Hum 201 Government & Sociology2-0 150

Hum 203 Accountancy & -Indulstrial3-0 250

Management

Hum 207 Accounts and Sociology2-0 150

Hum 303 Development Economic~ and Accounts2-.0 200

Hum 305 Industrial law, Sociology and3-0 300

Accounts

Hum 307 Industrial Management and 2-0 200

Gcvernment

Hum 309 Economics and development Economics 2-0 200

Hum 313 Industrial law, Sociology andAccounts

3-0 300

Hum 411 logic and Philosophy2-cO 200

*H9ad of the department

37

Calendar

Department of Urban and AegionS:li P!annin.9Teaching. Staff ;

Inttoduction :

The concept of planning haschangad significantly in the recent years. Emp-hasis has been expanded from a focus only all such caS9S as, physical, envi-ronment, .Iand-use, circulation system, commnuity facilit les etc. to a.broader and more explicit concern for environmental policy, social, economicpolicy, urban and rura I systems. .

39

M.A. (Econ.), M.URP'

/

*Head of the department

The planning and urban,. regiona I & rural studies currently focus on specia,.lized areas, such as' (i) City Services Analysis, (ij) Me tropolitanRegion,(iii) income distribution, (iv) Community development, (v) Agricultural dev-elopm ent, (vi) Rural development, (vii) Institutiqnal. aspects of development,(vi Ii) National Policy for rural and village level deve lopment, (ix) pove-rty and (x) Food distribution.

The Master's Degree in the department, a two-year programme, is designedto provide a set of widely applicable skills and experience and theirapplication to urban and regional problems.

Moreover, under the broad subject of urban and regional & rural planninp,"wide spectrum of spatial and sociaf context are covered namely, city, metr4opal is, region, rura I area, village etc. Within this context the education isfocused .to the following areas, such as :

i) . a general understanding of the interaction between the social,economic, spatial and institU1ional aspects of the society,

Calendar

Associate Prafe ssors

Golam Rahman, B. A, (Hons), !VI, A., MCRP.A.S.M. Mahbub-un-Nabi, B,Sc. Engg. (Civil), M.P.P., Dip!. in Dev. Planning.Ajmal Hayat A!lmed*, B. Sc. Engg. (Civil), B~Arch., M. Arch., M.e.p.Mir Shahidul Is13m, B. Sc. Engg. (Civil), M.P.P., Ph. D.

Assistant ProfessorsSyed Abu Hasnath, B.A. (Hans), M.A. (Econ), M.P.P.A.S.M. Abdul Quaium, B.Sc. Engg. (Civil), M .URP.Rukunuddin Ahammed, Diploma-in-Civil, Dip!. in Arch.,Aazia S. Ahmed, B. A. (Hans), M.A., M.C.P.Md. Abdul Mohit, M. A. (Econ), M. PhiL, M.URP.

ii) techniques for analyzing the urban, regtonal and rural communities-their'social, economic characterist ics and the process of change, and

iii) skill ,in the synthesis of urban and rural policies includ.ing , the plannig,process and the insti'tutional relationsh ips affecting the policies.

SUMMARY OF COURSES:Postgraduate

The three numbers in the last column are (a) lecture hour per week(b) studio or sessional hours per week and (c) number of creditsrespectively.

2-0-21-3-2

2-0-22.;.0-22-0-22-0-2 '

2-0-22-0-22-0-22-0-20-6-2

i;JUET

2 credits

Hours perweek &. credit

18 credits2-0-22-0-.22-0-22-0-22-0-22-0-21-3-22-0-22-0-2

Subject Title

ThesisHuman Settlement and Land EconomicsEconomics fo r PlannersPlanning Process and TheoriesUrban Planning IRural Develo pment Planning IRegional Plann ingQuantitativ~ Techniques in Planning AnalysisTran sportation PlanningHousing and Community DevelopmentPlanning Admin istration linplementation andManagement Process IProject Evaluation and Management TechniquesSeminar on Special Problems in Planning andDevelopment I

Urban Planning and Housing:

Urban Planning IIUrban DesignHousing and Site PlanningPhysical Infrastructure Planning (Urban & Rural)Planning Administration Implementation andManagement Process IILow-Income Housing and SettlementTransport EconomicsSystem Analysis in Urban and Region ~I, PlanningQuantitative Technique in Planning ,Analysis II

Coure No.

Plan 6000Plan 6001Plan 6002Plan 6003Plan 6004Plan 6005Plan 6006Plan 6007Plan 6008Plan 6009Plan 6010

Plan 6011Plan 6012

Optional Courses

Div'ision - I

Plan 6101Plan 6102'Plan 6103Plan 6104Plan 6105

Plan 6106Plan 6107Plan 6108Plan 610940

.f

, ,

i1:1ii

I~i

Il

I'.-TIEL, fl'; , .1 • ~~

:' 'f

Calendar

Non-Credit Prerequisite Courses:

Plan 6501 Graphic Reprsent"ation and Surveying TechniquesPlan 6502 Mathematics for Planners

Division - II

41

0-6-00-3-0

2-0-2

2-0-22-0-22-0-22-0-22-0-22-0-22-0-22-0.2

2-0-22-0-22-0-20-6-20-6-20-6-2

2-0-22-0 .•2

2-0-20-6-20-6-2

Hours perweek & cred it

Subject Title

Regional and Rural Planning:

Regional Development Planning and Resource UscRural Development Planning IIEconomics of Population GrowthStudio: Regional Plann ing Techn iqueStudio : RuraJ Planni ng TechniqueRural Development PJann ing IIIEnergy Resource and P Janning for RuralDevelopment

Development Planning :

Urban and Regional EconomicsPublic Finance in Underdeveloped CountriesRural/Agricultural Developmen tAgriculture in Economic DevelopmentEconomic DavelopmentWater Resource Deve' opment PlanningAppropriate Technology and PlanningLocal Government Finance

Special StudiesEnvironmental PlanningOperations Research in Urban and RegionalPlanningStudio: Urban Planning TechniqueStudio: Housing and Area Planning

61136114

611061116112

Division-III

Plan 6130Pla"n 6131Plan 6132Plan 6133Plan 6134Plan 6135Plan 6136Plan 6137

Plan 6120Plan 6121Plan 6122Plan 6123Plan 6124Plan 6125Plan 6126

PlanPlan

PlanPlanPlan

Course No,

Faculty of Civil Engineering

Department of Civil EngineeringTeaching Staff:

ProfessorsS.Ii.K. Eusufzai B.Se. Engg. (Civil), M.S., Ph.D.Sohrabuddin Ahmed, B.Se. Engg. (Civil), M.Sc., Ph. D.J.R. Choudhury, B.Se. Engg. (Civil), M.Sc., Ph. D.Alar:ngir Habib*, B.S~. Engg. (Civil), M. Engg., Ph. D.Md. Shamim-uz-Zaman, B.Se. Engg. (Civil), M.Sc. Engg., Ph. D.Md. Alee Murtaza, B.Sc. Engg. (Civil), M.Sc. Engg., Ph. D.Alamgir Mujibul Huq, B.Sc. Engg. (Civil), M.Sc. Engg., Ph.D.Md. Mizanul Huq, B.Se. Engg. (Civil), M.Sc. ,Engg., Ph. D.M. Feroze Ahmed, B.Se. Engg. (Civilt M.Sc.' Engg., Ph. D.A.M.M. ,Safiullah, B.Sc. Engg. (Civil), M.Sc. Engg., Ph. D.Md. Azadur Rahman, B.Sc. EngJ. (Civil). M.S~. Engg.,. Ph.D.

Associate ProfessorsA.F.M.A. Rout. B.Se. Engg. (Civil), M. Engg.Syed Nuruddin Ahmed, B.Se. Engg. (Civil), M.Sc. Engg.

, .Md. Hossain Ali, B.Se. Engg. (Civil)~ M.S,~.' Engg.Md. Abdur Rouf, B.Sc. Engg. (Civil), M.Sc. Engg., Ph.D.

Assistant ProfessorsA.K.M. Golam Sarwar; B.Sc. Engg. (Civil), M.Sc. Engg.Md. Humayun Kabir, B.Sc. Eggg. (Civil). M.Sc. Engg., Ph. D.Ahmad Habibur Rahmal1, B.Se. Engg. (Civil), M.Sc. Engg.Aminul Islam, B.Sc. EngtJ. (Civil), M.Sc. Engg.Md. Mazharul Huq, B.Sc. Engg. (~ivil), M. Engg.Md. Zakaria, B.Se. Engg. (Civil), M.Sc. Engg.Faruque Ahmad, ,B.Sc. Engg. (Civil), M.Sc. Engg.Ahsanul Kabir, B.Sc. Engg. (Civil), M.Sc: Engg.Md. Mujibur Rahman, B.Se. Engg., (Civil), M.Sc. Engg.Md. Zoyna.' Abedin, B.Sc. Engg. (Civil), Dip!. Soil. Engg., M.Sc. Engg.Sk. Sekan~er Ali, B.Se. Engg. (Civil), M.Sc. Engg.Irtishadurldin Ahmed, B.Sc. Engg. (Civil), M .Se. Engg.M. Ayubul' Rahman." .B.Sc. Engg. (Civil)S.. Fal{hrul Ameen, B.Se. Engg. (Civil)

.Hesd of the department

Calendar 43

'~l1,','I'I'

,I'",

,

!<".! )

Mukshed Ahmr!1ed! B.Se. Engg. (Civil), M.Sc. Engg.M. l~kram Hossain! B.Se. Engg.(Civil), M.Sc. Engg.Makbul Hossain!' B .Sc. Engg. (Ci vii), M .Sc. Engg.M. Nuw! Huda! B ,SeA Engg. (CivilL M .Sc. Engg,A. fV1.M. Taufiqul Anwar, M .Sc . Engg ., Ph.D.Mostafizur Rah;n:m Chowdhury! B ,Sc, Engg. (Civil),. M ,Sc. Engg,Md, Nasirn Akhtar;B.Se. Engg. (Civil)Sunil Kumar Saha! B.Se. Engg, (Civii); M.Sc, Eogg.Nesaruddin Ahmed; B,Sc. Engg. (Civil)Md; Golam Ali! B.Sc. E!Jgg. (Civ il)Md. Habibur Rahman, B.Sc. Engg. (Civil)M. Shafiuf Bari, B.Sc. Engg. (Civ il)

lecturersJalaluddin Khandakar, B.Se. Engg. (Civil),Mustaq Ahmed Nasim, B.Se; Eng~. (Civil)Shah Md. Yunus, B.Se. Engg. (Civil), M.Sc. Engg.H03sain Monjur Murshed, B.Se. Engg. (Civil)Nur Yazdani! B.Se. Engg. (Civil), M. S.Shafiul Hasan! B.Se. Engg.' (Civil),Q.Sarwar Ehsan Hashmi; B.Se. Engg., (Civil), IVLSc. Engg.Md. Ashraf Ali, B.Se. Engg. (Civil)Z. H. Moshfiqur Rahman, B .Sc. Eogg. (Civ i I)Salahuddin Ahme.d, B ..Sc.Engg. (Civil)M. Nazrul Islam Chowdhury, ,B.Se. Engg. (Civil)

_ IHakhar Hossain! B .Sc. Engg. (Civi I)Md. Delwar Hossain! B .Sc. Engg.( Civil)Abu Syed Md. Israil, B.Sc. Engg. (Civil)Md. Abdul Awal, B.Se. Engg. (Civil)Abu Siddiqi B.Se. 'Engg. (Civil)A.K.M. Zubair, B. Se. Engg. (Civil)Haris Md. Roufan Awal, B.Se. Engg. (Civit)A.K.M. Reazul Zamilt B.Se. Engg. (C ivil)Syed ManziJr Elahi, B .Se. Engg. (Civil)A.S.M.Mustaque Hossain, B.Se. Engg. (Civ~l)Md. Rezau 1 Karim, B.Se. Engg. (Civil)

. Aminur Rahman, B.Se. Engg. (Civil)Md. Taher Abu SaiL. B.Se. Engg. (Civil)Sharifur Ra hman, B. Sc. Sngg. (Civil)Md.Zakaria Ahmed! B .Se. Engg. (Civil)

'Salek Md. Seraj, B.Se. Eogg. (Civil)

44 SUET 1

Sagufta Jabeen B.Se. Engg. (Civil)lutflll Islam Khan, B.Se. Engg. (Civil)A.B.M. Badruzzaman, B.Sc. Engg. (Civil)Md. Kabirul Is!a:n, B.Se. Engg. (Civil)Md. Golam Kabir, B.Sc. Engg. (Civi I)Md. Shamsul Haque, B.Sc. Engg. (Civil)

Besides, work is in progress on research projects which are of more funda-mental in nature, viz, dyn3mic analysis of multi-storey bu ildings, structure-so-il interaction, behaviour of brick masonry, non-linear finite element.analysis of structures, design of transmission towers, creep of concrete, claymineralogy, settlement analysis of foundatioas and chemical and mechanicalproperties of concrete.

8ntroduction

The department of Civil Engi neering comprises four major divisions, viz,Structural Engineering and Concrete Technology, Environmental Eng ineering,Geotechnical Engineering and Transportation Engineering. Researches onthe above fields are highly important in the national context. These includeareas, such as, behaviour of avi lable building and road materials with empha-sison ind igenous materials, enginee'ring soil properties of various regionsof the country, low-cost cyclone resistant housing,seismic zoning of Bangla-desh, water pollution and its control, traffic sahty studies in urban areasetc. The results of some of these researches have been incorporated in theCode of Practice for Buildin,g, prepared by the department,

45

Marks1002002005020050150

Hours/week0-33-.03-00-3/23-00-3/22-0

•

Subject Title, Civil Engg. DrawingEngineering MechanicsChemistryChemistry SessionalBasic Electrical EngineeringElectrical Engg. SessionalEnglish and Economics

SUMMARY OF COURSES

Undergraduate

First Year

Course No.CE 1.00CE 101Chern 101Chern 102EE 103EE 104Hum 101

Calendar

'Hours/week Marks.

2-0'1502-0 1500-3/2 '503-0 2000~3/2 59

502525

503005030050

39050:~ ~- ~3Q950

300

5015025025'050

1505015025050

100250100250

SUET

0-3/22-03-03-0-1*0-3/2

3-0

0---:3/20-3/40-3/4

-0-3/23-00-3/2'3-' 00-3/23-00..,-3/23-0,0.....;.:3/2

2-00-3/22-03-0-1*0-3/2

,0-33-0

Three weeks field work3-0

Details of Construction and EstimatingSurveyingPractical SurveyingEngineering MaterialsComputer Programming and Numerical

Methods in Civil EngineeringComputer Programming Sessional

) Geo logy and GeomorphologyMech aoics of MaterialsStructural Mechanics and MeterialsS~ssiona'Concrete SessionalAccounts and SociologyMathemat icsFluid MechanicsFluid Mechanics Sessional

Machine shopWelding shopCarpentry shop

Subject TitleMathematicsPaper IPaper II

'Mechanical Engg. DrawingPhysicsPhysics Sessional

Slructura I Analysis alid Design IStructural Analysis and Design ISessionalReinforced ConcreteReinfo~ced Concrete Sessiona IEnvironmenta I Engineering ~ IEnvironmenta r Engg. SessionalGeotechnica I Engineering IGeotechnical Engg. SessionalTransportation Engineering ITransportation Engg. I, Sessional

*Tutori 8/1 hour per week

46

ME 104Phy 101Phy 102

WorkshopShop 108Shop 110Shop 112

Second yearCE 200CE 201CE - -2\)2CE 203CE 205

CE 206CE 207CE 211CE 212

CE 214'Hum 203

Math 203WRE 211WRE 212Third yearCE" 311CE 312

.CE 313CE 314CE 331CE 332CE 341CE 342CE 351CE 352

Course No., Math 103

",t,-:,.

Course No. Subject Title Hours/week Marks

Math 305 Ma thematics 3.--,.0 300WRE 311 Open Channel Flow and Hydraulic

Machinery 3-0 300WRE 321 Open ch annel flow Sessiontll

..0-3/2 50

WRE 313 Hydro logy 2-0 200

30020050

3-02-00-3/2'

0-6 200

2-0' 2003-0 3000-3/2 503'-:0 3000~3/2 50

Water Resour~esEngg. IIWater Resources Engg. IIIWater Resources' Engg. Sessional

Fourth YearCompulsory Subjects

CE 400 }or Project an d ThesisWRE 400CE 401 Project Planing and Manag3mentCE 411 Structural Analysis and Design "CE 412 Stu ructu ral An alysis and Design SessionaI.WRE 411 Water Resources Engineering IWR'E- -'4t2 Hydraulic Machi.nery Sessional

Optional Subject _Any two groups out of Group A, Group B, Group(C or E), and Group 0,(Subject to the approval of Dean of the Faculty)

Group AWRE .413WRE 415WRE 416

3333333333333333

3

533-3

333

,'),j

333333333333

.SUET

Credit hours186

Subject TitleThesis

/ProjectThecry of ElasticifyTheory of PlatesPlastic Design of Struc'turesElastic Stability of St ructu rasAnalysis and Design of ShellsFinit~ Element Me thods IComputer Methods in Civil EngineeringAdvanced Design of Concrete StructuresAnalysis and Des!gn of Ta II BuildingBridge EngineeringFinite Element Methods IIStructural Dynamics Seismic -'[}esig'nd~.~' SUucturas

~~ -Advanced Concrete TechnologyTheory of Wate r TreatmentTheory of Sewage TreatmentBiology of Sewage and polluted WatersEnvironmental SanitationIndustrial Water and Waste TreatrhentMunicipal and Rural SanitationWater Pollution and its ControlWater Supply Engineernrg DesignS8werage and Drainage Engineeri og Design.Soil Mecha nics ISoil Mechanics IIFoundation Analysis MethodsEarth Pressure and Retaining StructuresEarth Dams and Stability of SlopesReck MechanicsSoil DynamicsAdvanced Engineering GeologyTtansportation EngineeringGeometric Design of HighwaysHighway MaterialsAdvanced SurveyingStructural Design of PavementsTraffic EngineeringRailway EngineeringWaterwaysPlanning and Design of. AirportsTransportat; on Planning'

PostgraduateCourse No.CE 6000CE 6001CE 6101CE 6103CE 6105CE 6106CE ~~CE 6109CE 6110

, CE 6111CE 6114CE 6115CE 6116CE 6117CE ,6201CE 6301CE 6304C,~ 6305CE 6309CE 6310CE 6311CE 6312CE ,6315CE 6316CE 6401CE 6402CE 6403CE 6404CE 6405'CE 6406CE 6407CE 6408CE 6501CE6502CE . 6503CE 6504CE 6505CE 6507.CE 6508CE 6509CE 6510CE 651148

/

i '

"'."

.• rr

49

Calendar

Water Resources Engineering Department

Assistant ProfessorsMd. Fazlul Bari, B. Sc. Engg. (Civil), M. Sc. Engg. (WRE)Jobaid Kabir, B. Sc. Engg. (Civil), M. Sc. Engg. (WRE)Md. Monwar Hossain, B. Sc, Engg. (Civil),M. Sc. Eng]. (WAE), Ph. D.Mir Jahan Miah, B. Sc. Engg. (WRE), M. Sc.Engg., Ph. O.Abul Fazal Md. Saleh, B. Sc. Engg. (WRE), M. Sc. Engg.Abu Obaida Ansari Khan, B. Sc. Engg. (WRE), M. Sc. Engg.Saleh Ahmed Wasimi. B, Sc. Engl:). (WRE), Ph. D.Liaquat Ali Khan, B. Sc. Engg."(WRE)Md. Abdul Matin, B. Sc. Engg. (Civil), M .Sc. Engg. (WRE)

LecturersMohammad Ali Bhuiyan, B. Sc. Engg. (Civil)Niaz Mohammad, B. Sc. Engg. (Civil)Salina Begum, B. Sc. Engg. (WRE)Tariq Ahmed, B. Sc. Engg. (Civil)With the repid growth of world economy and ci vilization, the need for thedevelopment of water resources has become more urgent than ever before.The importance and the need for planned development of the water resources

" " .

of riverine Bangladesh can hardly be overemphasized. The heavy dependenceon the economy and living conditions of people on the river behaviour andthe rainfall pattern demand specially trained people in the field of water

. resources engineering.To meet this nationa I demand, the department of Water Resources Enginee-ring is continuously engaged in producing engineers specially trained inhydrology, hydraulics, river morphology, saIi nity il1trusion" i rriga ti on,

*Head of thg departm3nt

Md. Khorshed Alam, B. Sc. Engg. (Civil), M, Sc. Engg., Ph. D.Syed Mohibuddin Ahmed, B. Sc. Engg. (Civil), M. Sc. Engg. (Civil),

M. Engg., 0: Sc.Md. Abdul Haleem, B. Sc. Engg. (Civil), M. S:. Engg. (WRE), PIt. D.Shahjahan Kabir Chowdhury, B. Sc. Engg. (Civil), M.S::. Ellgg., Ph. D.

ProfessorsAbdul Hannan*, B. Sc.Engg. (Civii), M.S., Ph. D.M. Shahjahan, B. Sc. Engg. (Civil); M. S., Ph. O.Ainun Nishat, B. Sc. Engg. (Civil), M. Sc. Engg., Ph. D.

Associate Profe ssors

drainage, flood cqntrol, land reclamation', bank protection, river stabiliza-tion, ground water ,sedimentation problems and coast ai engineering.

Areas of current research in the postgraduate progra!11meinclude the follow-ing :so iI/water conservation, fluid mechan ic~, hydrodynamics, hydraulir.

.. engineering, fluvi al hydraulics, deterministic and stocha sti: hydrology, sa It-water intrusion, coastal engineering, flood control, river morphology, sedimenttransportation and drainage engineering, and physica I and mathematicalmodelling.

SUMMARY OF COURSES

PostgraduateCourse No. Credit Hours

,."j

WREWREWRf'WREWREWREWREWREWREWREWREWREWREWREWREWREWREWREWREWREWREWRE

6000600161016102610362016202620362046205630163026303630463056401640264036404650165026600

Subje,ct. Title

ThesisProjectFluid MechanicsFluid Mechanics IIOpen Channel FlewHydrologyStat istical Methods in HydrologyGround Water HydraulicsFlow through Porous MediaIrrigation and Drainage EngineeringRiver EngineeringSediment TransportWaterpower EngineeringHydraulic StructuresPhotogrammetry in water ResourcesDeyelopment of Water Resources ProjectsPlanning of Water Resources SystemPhysical Modelli.ng and Hydraulic SimilitudesMathematical ModellingCoastal EngineeringEstuarine HydraulicSSpecial Studies in Water ResourcesEngineering

1863333333333333333

33

1-3

-

50 aUET

SUMMARY OF C9URSES

Undergraduate

Third Year

Course N.o.

200 .30050

3002eo50..

300'50200

25050

BUET

3-00-2/3'

3-00-2/32-0

0-63-00-2/33-02-.:00-2/3

Hours/week Mark3Subject Title

Fluid MechanicsFluid Mechanics Sessional

Open Chaunel flow and HydraulicMachinaryOpen channel f!ow SessionalHydrology

Project and thesis .Water Resources Engineering !Hydraulic Machinary SessionalWater Resources Engineering IIWater Resources Engineering IIIWater Resources Engineering Sessional

211212

312313

311

400411412413415416

\'\IREWRE

Fourth Year

WRE

WREWRE

Secorsd Vesr

WREWREWREWREWREWRE

'.

...•

Faculty of Electrical & Electronic Engineering

Associate Professors

Supernumerary Professor\

A.M. Zahaorul Huq, B.Se. (Hans), M.Sc., M.S., Ph.D.

Professors

Shamsuddin Ahmed, B.Sc. Engg. (Elect), M.Sc., Ph.D.Syed Fazl-i-Rahman*, B.S.c. Engg. (Elect), M.S., Ph.D.A.K.M. Mahfuzur Rahman Khan, B.Sc. Engg. (Elect), M.S., Ph.D.Md. Mujibur Rahman, B.Sc. Engg. (Elect), M. Engg., Ph.D.A;B.M. Siddique Hossain, B.Sc. Engg. (Elect), M.Sc. Engg., Ph.D.Md. Khurshid Alam, B.Sc. Engg. (Elect), M .Sc. Engg., Ph.D.

Md. Mahdiuzzaman, B.Sc. Engg. (Elect), D.l.C., M.Sc. Engg., Ph.D.Jamal Uddin-Ahmed, B.Sc. Engg. (Elect), M. Sc. Engg., .Ph. D.Md. Abdul Matin, B.Sc. Engg. (Elect), M. Engg., D. Engg.

Assistant Professors

Syed Anisur Rahman, B.Sc. Engg. (Elect), M.S.Bangshi Badan Saha, B.Sc. Engg. (Elect), M.Sc. Engg.Mohd. Hamidur Rahman,B. Sc. Engg. (Elect)Md. Shamsul Alam, B.Sc. Engg. (Elect), M.Sc. Engg.M. Abdul Malek Mia, B.Sc. Engg. (Elect), M.Sc. Engg.Md. Emdadul Huq Khan, B.Sc. Engg. (Elect), M.Sc. Engg.Saiful Islam, B.Sc. Engg. (Elect), M.Sc.- Engg.Saroj Kanti Biswas, B.Sc. Engg. (Elect), M.Sc. Engg.Mohd Qamrul Ahsan. B.Sc. Engg. (Elect). M.Sc.-Engg., Ph.D.Faruq Ahmed Sharif, B. Sc; Engg. (Elect), M.Sc. Engg., Ph_.D.Mahbubul Huq, B .Sc. Engg. (Elect), M.Sc. Engg., Ph.D.Md. Aminul Haq, B.Sc. Engg. (Elect), M. Sc. Engg.M. M. Shahidul Hasan, B.Se. Engg. (Elect)Md. Nurul Amin Chowdhury, B.Sc. Engg. (Elect)Shahidul Islam Khan, B.Sc. Engg. (E/act), M .S.c, Engg.

*Head of the department

~- i Department of Electrical & Electronic Engineering

Teaching Staff:

Calendar 51

~~.

•!1j.

. ---Il

-I!.I

Mohammad Ali Chowdhury, B.Sc. Engg. (Elect) .,M.Sc. Engg.Enamul Basher, M. Sc. Engg. (Elect), Ph.D.Md. Hamidu I Haque, B.Sc. Engg. (Elect), M.Sc. Engg.Abdullah Fa ruque, B.Sc. Engg. (Elect), M .Sc. Engg.Mahbub Iftekhar Ahmed, B. Sc. Engg. (Elect), M. A. Sc.Satya Prasad Majumder, B.Sc. Engg. (Elect), M.Sc. Engg.S.M. LutfuJ -Kabir, 'B.Sc. Engg. (Elect), M.Sc. Engg.Md. Easin Khan, B.Sc. Engg. (Elect), M.Sc. Engg.Kazi Mohiuddin Ahmed, M.Sc. Engg. (Elect), Ph.D.

lecturer$

Md. Habibur Rahman, B.Sc. E!1gg. (Elect), M.Sc .A. I. M. Nazme Rahmani Khandakeri B.Sc. Engg. (Elect), M.Sc. Engg ..Md. Rezwan Khan, B. Sc. Engg. (Elect)Md. Anisur Rahman, B.Sc. Engg. (EJect)Syeda- Rasheda B~gum, B. Sc.- Engg., (Elect)Mustafizur Rahman Chowdhury, B .Sc. Engg. (Elect)Fahmida Nilufar, M.Sc. Engg. (Elect)Rafiqul Murshed, B.Se. Engg'. (Elect)Md. Atiquz Zaman, B .Sc. Engg .. (Elect)A. S. Mahmudul Hassan, B.Sc. Engg. (Elect)Bhumip Khasnabish, B.Sc. Engg. (Elect)Md. Mashuqur Rahman, B.Sc. Engg. (Elect)A. H. Ehsanul Kabir, B. Sc. Engg. (E~3ct)Md. Syed Kamru I Islam, B.Sc. Engg. (Elect)S. Shahnawaz Ahmed, B.Sc. Engg. (Elect)M. Showkat-ul-Alam, B.Sc. Engg. (Elect)Md. Rezaul Karim Begg, B.Sc. Engg. (Elect)Syed M. M. Reza, B.Sc. Engg. (Elect) 1

A. K. Dutta,. B.Sc. Engg. (Elect)Narayan Ch. Debnath, B.Sc. Engg.(Elect)_Tapan Kr. Saha, B.Sc. Engg. (Elect)Md. Sajjad Hossain, ' B.Sc. Engg. (Elect)A. H. M. Zahirul Alam, B.Se. Engg. (Elect)

Introduction:

Electrical & Electronic Engineering play an important and indispensable rolein estab fishing- and maintaining instant commun ication across the countryand beyond with high ranged' fJdelity and functional frugality, among manyother functions.

52 BUTE

The department is, thus, committed to a large and varied programme of res~-arch in its' effort to solve the national level problems in the field of electriecal and electronfc engineering,

Moreover, the department is now also working in the fields of energyresea-rch, Pro jects on vari o,us aspects of Electric, Electronic,Communicationincluding Material Science. The' postgraduate programme of the depart-ment leading to M.Sc. (Engg), .M. Engg. and Ph.D. is designed to includesuch areas of research as: circuits, communications, control, electro-nics, materia I science, microwave, fields, machines, high voltageengineering and power systems.

150150150

5050200100 '15050

20050

150

2-02-02-0

0--3/22 we,eks3-00-32-00-3/23-00-3/2,2-0

,Hours/weak MarksSubject Title

Civil Engineering DrawingServey PracticalChemistryChemistry SessionalComputer TechniquesCom puter Techniques Sessiona IBasic Electrical EngineeringBasic Electrical Engineering SessionalEnglish and EconomicsMathematics,Paper IIPaper IIBasic Mechanical Engineer ing103ME

Course No.

First year

CE 104CE 108Chem 101Chem 102CompE 101CompE 102EEE 101EEE 1"02Hum 101Math 105

SUMMARY OF COURSES

Undergraduate

The department is currently engaged. in research in such fields as: powersystem stabi lity, comparative study of new and conventiona'i methods ofmeasuring synchronous machine quantities, optimum load scheduling, ACtransmissi on system stabi lization by DC I ink, determi nation of radio data forBang ladesh terrain at microwave frequencies, properties of dielectrics madeof indigen<;>us materials, microwave filters, ana lysis, design and synthesis ofelectronic circuits, fabrication of soild state diodes and transistors, energyconversion, B io-Engineering etc,

.•. :,,,

Calendar 63

f'

Course No.

ME 104ME 112Phy t01Phy 102Shop 104Shop 106Shop 108

Subject Title Hours/week

Basic Mechanical Engineering Sessional 0-3/2'Mechanical E!1gineering Drawing' 0-3/2

Physics 3-0Physics Sessional 0-3Foundry Shop 0-3/2Metal and welding shop 0-3/2Machine Shop 0:-3/2

~arks5050....,200100505050

Math ,205

econd year

CE 225CE 226EE 200EE 203EE 204EE 205EE 206EE 207EE 208Hum 203

Ii,jj,}'j

MEME

207208

Mechanics of Materia IsMechanics of Materials SessionalElectrical Design and Ora ftingElectrical Circuits IElectricarCfrcuifs I -'Se-ssionalElectrical Machines IElectrical Machines I SessionalElectronics IElectronics I SessionalAcocuntancy and Industrial Management:Accountancy

Industrial ManagementMath ematics

Paper IPaper II

Thermodynamics and Fluid MechanicsFuel Test ing and Flu idMachanics Sessional

2-00-3/20-3/23.,-00-3/23..:-00-3/23-0,0-3/2

1-02~0

2.:..-02.:..-0

3~0

15050.50

2505025050

Z5050

100

150

150150

250

50

Third year

CompE 301CompE 302EEE 300EEE 30tEEE 302EEE 303EEE 305EEE 306EEE 307

54

Digital TechniquesDigital Techniques'SessionalElectronics Shop SessionalElectronics IIElectronics II SessionalElectrical Circuits IIElectrical Machines IIElectrical Machines II SessionalMeasurements andlnst rumentation

2-' 00-3/20-3/23-00-33-;-03~00-;-32-:"0

200 .5050300100300' '3,00100.,.. ' ")!';>!

200<, ''::-'':::';r,~.

Course No. Hours/week Marks

EEE

EEEEEE

EEEMath

308

309

311

314309

Subject Title

Measurements and Instrumentat; onSessionalElectromagnetic Fields and waves

Transmission and Distribution of Electrica IpowerElectrical Design SessionalMathematics

0-3/22-0

3-00-3/22-0

50200

30050

200

Fourth Year

GompECompEEEEEEEEEEEEEEEtEEEEIEEE

EEE

EEE'EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE

401402400401402403404405407

408

409410411412414415416417, 418419420423424

M'~croprocessors & Digital Computers*Microprocessors Digital ElectronicsProject a':ld ThesisControl SystemsControl-Systems Ses'Si:onalPower Systems Ana lysisPower Systems Analysis SessionalPower StationsIntegrated Circuits and InduHricilElectronicsIntegrated Circuits. and IndustrialElectronics SessionalTe Jecommunication .Engineering,Telecommunication Engineer ing SessionalScience of MaterialsSwitchgear and P(otectionSwitchgear and Pr otection Sessiona IMiCrowave Engineer ing*Microwave Engineering SessionalElectronics 111*Electronics' 'III SessionalHigh Voltage Engineering*High Voltage Engineering SessionalElectrical Circuits 111*Electrical crrcuits III Sessional

2-00-3/20-62-00-3/22-00-3/22-0

3-0

0-3/22-00-3/22-02-00-3/22-00-3/22-00-3/22-00-3/22-00-3/2

20050

20020050201)50

200

300

50'20050

20020050

20050

20050

2005020050

I

I1I

II

""/ndicates optional courses. A student has to take two of these courses.in the combination' suggested by the department' and from amongst those,offered, including appropriate laboratories ..

Calendar 55

) ~(

Compul$ory SubjectsEEE 6011 Engineering AnalysisEEE 6012 Energy Conversion Processes

Optional Subjects

Postgraduate'Course No.

EEE 6000EEE 6000EEE 6001

Su.bjcct Titre

ThesisProjectSemi'nar

Credit hours

186o

33

..

,iI.

.I.•.....•

EEEEEEEEEEEEEEEEEE._EEEfEEEEEfEEfEEEEEEEEEEEEEEEEYEEEEEEEEl:EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE.fEEEEE

56

6101610261036104

, 61056201620262036401640264036404650165026503660166026603660467016702-670367046705680168026803680469016902690369046903

linea r System AnalysisNetvv.ork Synthesis INetwo rk Synthesis IINon-Linear CircuitsAdvanced Topics' in Network Theory

- Statist ical Communications TheoryInformati on TheoryTelephone Traff ic TheoryAdvanced Elect ronicsQuantum ElectronicsSolid State DevicesActive Circuit DesignElect'ric ald Magnetic Proparties of Material,Electron icsof Solids-laser TheoryApplied EM TheoryMicrowave Theory and TechniquesMicrowave Tubes and CircuitsAntennas and Propagat ionNon-linear ControlSampled -data Cont rolModern Control TheoryOptional Control SystymsStatistical Models for Engineering SystemsGeneralized Machine TheorySpecial \Ma ch jnesPower Semiconductors and ModulatorsAdvanced Machine DesignOptimization of power System OperationComputer-aided Power System D~signProtective RelaysPower Syste ni St al?iIityTransients in Power Systems

33333333333333.33333

3333333333333.

SUET

,.1

1"'.'k',

".,

.. 1,' •...

. .

,I1:

t!

Department of Computer Engineering

Teaching Staff:

Professor*A.K.M. Mahfuzur Rahman Khan**, B.Se; Engg. (Ele~t), M,Sc,. Ph,D,

Assistant Professors

Syed Mahabubur Rahman, M.Sc. Engg. (Elect), Ph .D.Ali Iftekhar, B.Sc. Engg. (Elect), M.Sc. (Comp.)

Lecturers

Dulal Chandra Kar, B.Sc. Engg. (Eject).?h~h M. RezauJ Islam, B.Sc. Engg. (Elect) .__. "_.0-

J

-\f

. ;

Introduction

A rapid proliferation of computers and computer usage during the' lastfew years, has called for a large number of computer personnels in thecountry. Graduate programme is, thus, primarilv designed to meet thisneed.

The department offers postgraduate degrees leading to M ..Sc. Engg. andM. Engg. in hardware and software aspects of computers. The aim is togive 'an appreciation of mainframe, mini and microcomputer hardwaresand softwares. These include organization, architecture, networking,operating systems and various usage:of all types of computers with speci aIemphasis on the the Microcomputers and Microprocessor applications.,-Graduates of the department should be able to take up work in, (i) planningand management of computer install ations, (ii) develop systems for allcomputer envi ronments, (iii) design and development of microprocessor-based control systems, (iv) computer-based management and da ta pro~e-ssing systems, and (v) . res€arch in specialized branch of computers andmicroprocessors. Two research groups are engaged in researches, one onmicroprocessor applications and the other on software engineering ..

*Professor of Electrical & Electrical Engg. Deptt.**Head of the department

Calendar 57

I SUMMARY OF COURSES

I PostgraduateI,

Subject Title

~

Course No • Credit Hours.'..Compulsory Subjects

f,tCompE 6000 Project 6

Thesis 18CompE 6101, Microprocessors and Microcomputers 3EEE 6011 Engineering Ana lysis 3

Optional Subjects

CompE 6201 Dig! tal Computer Theory and Oesign 3CcmpE 6202 Computer Organization 3CompE 6203 Advanced Topics in Microcomputer 3CompE 6204 Data Commun ication and Compute,r Network 3 ••CompE 6301 Computer Science 3CompE 6302 Machine and Assembly Language programming 3CompE 6303 Operating Systems I 3CompE 6304 Operating systems II 3CompE 6305 Data Base Management 3CompE 6306 Compiler Construction 3

UNDERGRADUATEFirst Year

Course No. Subject Title Honrs/week MarksCompE 101 Computer Techniques 2-.,;.,0 150CompE 102 Computer Techniques Sessional 0-2/3 50Third Year

/

CompE 301 Digital Techniques 2-0 200.CompE 302 Digital Techniques. Sessional 0-2/3 50Fourth Year

CompE 401 Mi croprocessorsand Digital Computer 2-0 .200CompE 402 Microprocessors and Digital Computer

Sessional 0-2/3 50

58 8U~T

Faculty Of Engineering

Department of, Chemical Engineering

ProfessorsIqbal Mahmud, B. Sc. Engg. (Chern), M.Sc. Tech., Ph.D.Nooruddin Ahmed*, B. Sc. Engg. (Chern), M. Sc., Ph.D.Md. Jasimuzzaman, B. Sc. Engg. (Chern), Ph. D.,Khaliqur .Rahman, B. Sc. Engg. (Chern), Ph. D.M. Nurul Islam, B. Sc. Engg. (Chern), Ph. D.

Associate Professors.K.lkhtyar Omar, B. Sc. Engg. (Chern), M~ Sc. Engg., Ph. D.A.K.M. Quader, B. Sc. Engg. (Chern), Ph.D.

Assistant ProfessorsMd. Nazmul Huq, B. Sc, Engg. (Chern), M. Sc. Engg., Ph. D.Md. Monwar Hossain, B. Sc, Engg. (Chern), M. Sc. Engg.Sirajul Haque Khan, B. Sc. Engg. (Chern) 4Oil Afroza Begum, M. Sc, Engg..(Chern), Ph. D.Enamul Haque, B.Sc. Engg. (Chern), M. Sc. Engg.Tareq Mahmud, B. Sc. Engg. (Chern)Ijaz Hossain, B. Sc. Engg. (Chern), M.Sc. Engg.Md. -Sabder Ali, B. Sc. Engg. (Chern), M.Sc. Engg., Ph.D.

LecturersKh. Ashraful Islam, B. Sc. Engg. (Chern)Khaliq Ahmed, B. Sc. Engg. (Chern)Shamsuzzaman Faruq, B. Sc. Engg. (Chern), M.Sc. Engg.Masrur Ahmed Chowdhury, B. Sc. En.gg. (Chern), M.Sc. Engg.Iqbal Mohammad Mujtaba, B. Sc. Engg. (Chem),. M. Sc. Engg.Abdul Hamid Mollah, B. Sc. Engg. (Chern)

Introductio.n. -The Chemical Engineering Department -is striven toward deliberate studing ofdetailed principles and practices of chemica I dynamics, transport and biomassphenomena and their applicat ion to the synthesis and analysis of complexchernica I systems. . . .

The Chemical Engineering programme has been designed for instruction and/

research leading to the degrees of M. Sc, l:ngg./M. Engg. and Ph. D. in thediscipline apirt from undergaduate ,course. The postgraduate programmeis, however, designed in such a way that it could accommodate the greatestpossible range of acadamic freedom andflexibiHty.

*Head of the department.59

Calendar

I

Ij

i

IJ ,

Areas of current research interest at the postQraduate ieve i of the depart~ment inc lude the following: heat and mass transfer, modelling and optimi .•zation; ion exchange kinetics, combustion, fluidization, corrosion studies,producer and bio~gas generation, heterogeri~ous kinetics and catalysis.

SUMMARY OF COURSES

Undergraduate

Hours/weekMarks.0-3/2 5.02-0 15.03---'0 200t!0-,,3 1002-0 1500-3/2 502-l) 1504-1 3003-0 2000-3/2 503-0 2000-3 1000-3/4250-3/4 250-3/2 50

Subject TitleCivil Engg. DrawingElements of Chemical EngineeringPhysical, Inorganic and Organic ChemistryChemistry SessionalBasic Electrical Eng ineeringElectrical Engg. SessionalEnglishMathematicsEngineering MechanicsMechani.cal Engg. DrawingPhysicsPhysics SessionalFoundry shopWelding ShopMachine and Fitting Sh;p

First yearCourse No ..CE 104ChE 101Chem 103. Chern 104EE 10S-EE 102Hum 103Math 107ME 105ME 112Phy 103Phy 102Shop 104Shop 106Shop 108

Second yearChE 201ChE. 2.03ChE 205ChE 202.ChE 204ChE 208Chem 2.01Chern 202Chem '.203Chem 204Hum 201Math 209

ME 209

Material and Energy BalanceFluid'MechanicsChemical Engineering ThermodynamicsMaterial and Energy Balance SessionalFluid Mechanics SessionalComputer Programming and Appl icationsOrganic and Inorganic ChemistryOrganic and Inorganic Chemistry SessionalPhysical ChemistryPhysical Chemistry SessionalGovernment and Sociology.Vactors, Matrices and DifferentialEquationsMechanics of Materials

3-03-02-00-3/2.0-3.0-33-0.0-33-00-3/22-0

4-03-0

250250150501001002501002505015.0

3()O25Q

60 SUET

'.

~r" '.

20020020020061

300200300

200200

200505050100

10010030050200200200

200

200

300300200200

2-'-02-02-02-0

3-02-03-0

2-02-0

2-00-4/20-4/20-3/20-30----20-33-00-3/22-02-02-0

2-02--0

3-03-02-02-0

Hour.s/week Marks'

Energy and EnvironmentIndustrial Pollution ControlFuels and Combust ionNatural Gas and Petroleum Engin3aring

Subject Title

Chemical Reaction EngineeringProcess ControlMaterial Science and CorrosionEngineering ,~ .Process DeSign

Economics and Management for Chemica IProcess Industries

Technology of Glass , Ceramics and CementHeat Transfer Sessiona IMass Transfer SessionalParticle Technology SessionalChemical Process AnalysisComputational Tachniques in ChemicalEngine eringInstrumental Methods of AnlysisElectrical Technology,Electric-al Technology SessionalDevelopment EconomicsMathematics .Numerical Analysis and Statistics

Polymers, an d Petrochemicals

Heat TransferMass Tr~~sferChemical Engineering Thermodyamics iIParticle TecllnologyPrinciples of Food Preservation andProcessing

302231232309301303

311

313302304

__308314316

Elective I.Elective IIElective III(Elective I should be ,chosen from Group I and Electives II and III may bechosen from any of the 3 Groups, a maximum of 2 electives is allowablefrom any group.)Group IChE 411ChE 413ChE 415ChE 417

Calendar

ChernEEEEHumMathMath

ChE 407ChE 409

Fourth yearChE 401ChE 403ChE 405

OrChEOrChEChEChEChEChEChE

Course f\lo.Third yearChE 301ChE 303ChE 305ChE 307ChE 309

Subject TitleThesisProjectTransport PhenomenaAdvanced ThermodynamicsAdvanced Ch.emical Reactor DesignHeat TransferMass Transfer IPolymer S~ience for Chemical Engin,eersAdvanced Chemical Engineering INuclear Chemical Eng ineeringCorrosion'Science and Engineering

. Process Dynamics and ControlAdvanced Plant DesignFuel ScienceMass Transfer IIChemical Engineering AnalysisAdvanced Chemical Engineering IINumer icalMethods in Chemical EngineeringFluid MechanicsElectrochemical EngineeringKinetics and Catalysis

Transport Phenomena 2-0 200Mathematical Models in ChemicalEngineering 2-0 200Bio-Chemical Kinetics and Reactor Design 2-'-0 200Nuclear Chemical Engineering 2-0 200

Petrochemicals and Refinary Engineerin~ / 2-0 200Polymer Processing Principles 2-;-0 200Fertirizer, Pulp and Paper,Technology 2-0 200Food and Sugar Techno logy 2-0 200Project/Thesis' 0-6 ~OOReaction Engineering and Process Contro ISessional 0-:3/2 50Process Desig'n Sessional 0-:-5 200Energy and Enironment Sessional 0-3/2 50Pollution Cont rol Sessional 0-3/2 50Fuel Testing Sessional 0-3/2 50Food Engineering Sessional 0-3/2 50

II ".

"

Course No.Group IIChE 419ChE 421ChE 423ChE 425Group IIIChE 427ChE 429ChE 431ChE 433ChE 400ChE 404ChE 408ChE 4120.,ChE 414OrChE 416OrChE 434PostgraduateCourse No.ChE 6000ChE 6001ChE 6002ChE 6003ChE 6004ChE 6005ChE 6006ChE 6007ChE 6008ChE 6009ChE 6010ChE' ,6011ChE 6012ChE 6013ChE 6014

11 ChE 6015ChE 6016ChE 6017ChE 6018ChE 601962

Subject Title Hours/week Mark$

Cred it Hours18633333333333333'3333

'3

" SUET

. I

II!i'II

~ I'1

f

I.!

, ;~

t

\\\\

Department of Chemistry

IntroductionThis department came into existence as a separate defjartment detachedfrom Chemical Engineering Department of the erstwhile .AhsanulIah . Engi-neering College, when the college was upgraded t~ the status of the presentUniversi.w -in 1962. The department offers courses in Chemist ry to the first-yeCN.Et1gineering students, second year Chemical, Mechanical and Metal.-lurgical students and 3rd year Chemical Engineering students.

The topics of the first year Chemistry course have been so selected that thegraduate engineers can appreciate. the significance of the. properties of thematerials in his professional life .and hence, can employ the variousmaterials efficiently and economically. Such courses will also enable him toget his curiosity, regarding anomalies in the properties' of matter, satisfied.

The second year course of Chemistry for Mechanical and . MetallurgicalEngineering stu dents comprises corrosion and properties of engi £leeringmaterials.The department has recently introduced the M.Phil. programme. Theon-going research projects of the department of Chemistry include both basicand applied research. Basic research. is mainly in the sphere of PhysicalChemistry, while applied research is primarily concerned with OrganicChemistry. The current research topics include Isolation andCharacteriza-tion of the act ive ingredients of natural products, such as, Aegle Marmelos,

*Head of the department

Calendar 63

A. integrifolia (Heterophyles lam), Sida Cordifolia Linn and Isolation andCharacterization of essential oils from different seeds., The Physical Chemistryresearches include Metal-Gas reactio.n, studies ,9' camplexes af metal ians,.studies an mixed ligand camplexes af CO+2(1J), Ni + I (II) and Zn++ (II)ion. Physica-Chemical studies on aqueous solutians af Electralytes andNan-electrofytes.

. I

Credit hours2

2

2 <.

2 \,

2

2

122302221

,I 121

SUET

Hours/week Marks3-0 2000-3 1000-3/2 503-0 2000-3 1003-0 2500-3 1003-0 2500-3/2 50

2-0 1502-0 1500-3/2 50

Subject TitleChemistryChemistry SessionaiChemistry Sessional ('For C.E Department)Physical, Inorganic and Organic ChemistryChemistry SessianalInarganic and Organic ChemistryInorgan!c and Organ k Chemistry SessionalPhysica I Chemist ry -Physical Chemistry SessionalCarrosian and Chemistry af Non-metallicEngineering materia IsPhysicaI ChemistryInstrumental Methods af Analysis

Subject TitleNatural PraductsStructural Elucidatian and studies ofComplex molecules of NatureSynthesis of Complex OrganicMolecules of NatureMona and DisaccharidesPolysaccharidesKinetics and Energetics of OrganicReactionsChemistry of small, medium andlarge ring CampoundsPhysical methods and SpectroscopyStereo-chemistryThesis

. Organic Pofymersrndustrial Organic ChemistryMethads in Organic SynthesisChemistry af Heterocylic CompoundsOrgana-metallic: ChemistryOrganic ReactiansStructure and Bonds in Organic MoJ'ecutes

5003

5004500550065007

5008500950105011501250135014501550165017

SUMMARY OF COURSESUndergraduateCourse No..Chern 101Chern 102Chern 102Chern 103Chern - 104Chern 201Chern 202Chern 203Chern 204Chern 205

Chern

Chern 207Chern 302

PostgraduateCourse No..Chern 5001Chern 5002

ChernChernChem

Chern

ChernChernChernChernChernChernChernChernChernChern

64

. ~'.

Departmentof Mathe~atics

Teaching Staf :

The academic cou neil of the University has entrusted this department tointroduce M. Phil course in Mathematics. This dapartment WOJld take nece-ssary steps to introduce M.Phi I course within a short period.

Hours/week Marks

4-13004-1 3004-1 3004-1 300

Subject Title

Differential and integral ea leuIusCo-ordinate geometryandOrdinary differential equations

101}103

,05107

ProfessorSyed Ali Afzal, B.Se. (Han:;), M.Sc. (D~uble), D.I.C., Ph.D.

Associate ProfessorsMd. Ali Ashraf*, B.Se. (Hans), M.Sc., M. Phi I.Md. Iman Ali, B.A. (Hans), M. A.Md. Zakerullah, B.Sc. (Hans), M.Sc" Ph. D.

Assistant ProfessorsMd. A. Khaleq Hazra, M.Sc.Md. Isa, M.Sc.Md. Jamshed Ali Sheikh, M.Sc.Md.• Abdul Quddus Mia, B.Sc. (Hons), M.S~.Md. Mustafa Kamal Chowdhury, B.A. (Hans), M.A.Md. Obayed Ullah, B.Sc. (Hans), M.Sc.

LecturersMd. Elias, B.Sc. (H a ns), M .Sc,Md. Abdul Maleque, B .Sc. (Hans), M.Sc.

Introduction

The deparment offers basic and advanced courS9S in Mathematics to theundergraduate and postgraduate students in diffe rent faculties of the Uni.versity. The standard of the' courses offered to the undergraduate studentsare comparable to that of other universities. The postgraduate studentsof the faculties of Civil and Mechanical Engineering are offered advancedcourses jn mathematics related. to thei r own fields of interest.

Math

Course No.

SUMMARY OF COURSES:

*Head of the department

Calendar 65

Course No. Hours/week Marks

50

250

250

300

200

300

250

300

200

300

200300

200

3-0

2-0

3-0

4-0

4-0

3-0

4-0

3--0

2-0

2-0

0-3/2

2-03-0

Subject Title

Differential and integral calculus andsolid GeometryVector calculus, Matrices, Lapl ace'stransforms, Differential equations- Matrices, Differential equations, Vectorcalculus, Bessel's and Legendre's equations,

'~ Laplac e's transforms and Spher icalTrigonometryMatrices, Differen tial equations, Fourierseries, Bessel's and- Legendre's diffe-rential eq!Jations and Partial differentialequationsSets, Groue-s, Ring~, Field~, InfiniteSeries, Laplace's transfroms, Vectors,Matrices and Ditfferentia I _equat ionsMatrices, Sol id geometry, Vectorcalculus, Differentia I equations, Lapl ace'stransforms and Fourier seriesVector calculus, Statistics, Matrices,Laplace's transfroms and Differentialequations!=ourier serie3, Harmon ic l3nalysis,Partial differential equations andcomplex variablesComp_uter programming and NumericalanalysisNumerical analysis and statisticsSolid geometry, Statistics, Fourierseries and Harmonic analysisFourer series, Partial differentialequations, Harmonic analysis, Numericalanalysis and Complex va riab resLaplace's transfroms, Partial differentialequations, Fourier series, Harmonicana lysis and Statistics

201

203

122

205

209

211

213

302

309

307

303305

-301

Math

Math

Math

Math

Math

Math

Math

Math

Math

MathMath

Math

Math

66 -SUET

67

--.'f1""".'~.J

';'

Department of I\lIetaUurgical EngineeringTeaching Staff :Superllumeral"Y ProfessorM. Ibrahim, B.E. (r,Aet), Ph,D,

ProfessorsMd. Serajul Islam, B. Sc. Engg. (Met), M. S" Ph. D.Ehsanul Huq* t B.Sc. Engg. (Met), M. (Met), Ph. D.

Associate ProfessorsShahjahan Mridha, B.Sc. Engg. (Met), M. Sc. Engg., Ph. D•.Md. Mohar Ali Bepari, B.Sc. Engg. (Met), M.Sc. Engg., M. Met., Ph.D.Abu Syed Wais Kurny, B. Sc. Engg. (Met), M. Sc. Engg., Ph. D.

Assistant ProfessorsMd. Mohafizul Haque, B.Sc. Engg. (Met), M.Sc. Engg., Ph. O.A'. A. Md. Rezaul Huq, ,B.Sc. Engg. (Met), M.Sc. Engg., M. (Met)Md. Nasrul Huq, B.Sc. Engg. (Met), M.Sc. Engg.Zariff Ahmed Chowdhury, B.Sc. Engg. (Met), M. Sc. Engg., Ph. D.

LecturerA. S. M. Abdul Haseeb, B.Sc. Engg. (Met)

IntraductionThe department is the only place in the country where ~J1etallurgical Engineer-ing education is offe'red and as such for some time to come, t he entire demandfor Metallurgical Engineers will have to be met by the. dapartmsnt. Thedepartment offers M.Sc. Engg./M. Engg. courses specialization in major areasof metallurgical sciences and engineering. The research objective of thedepartment is to develop the optimum properties of metals and alloys for bdn'"ging about economy in their use and to satis fy the specific needs for indus-trial applicati ons. The development and adaption of techniques for reduci ngthe use of impo~ted raw materials, metals and alloys and, thereby, increasingthe use of indigenous raw materia Is like natural gas, scraps and wastes hasbeen one of the objectives while carrying out research activities in thedepartment. Thus the research topics are selected consider:ng the country's

technological base and national need and priority.The areas of current research interest includes: use of natural gas formelting metals in furnaces like crucible, cupola, etc. manufacture of refrac-tory materials (especially acid type) from local deposits, case-carburisationby natural gas instead of conventional pack carburising by solid carbonaceousmixtures, recovery of metals and alloys from scarps and wastes (especiallylead and lead allOYS), crucibleless melting furnaces, heat treatment of

metals and alloys, nitriding of steel s etc.""Head of the department

Calendar

j.

SUMMARY OF COURSES1j~t

Undergraduate~'~

Frrst Year

Course No. Subject Title Hourslwee!< Marks

CE 108 Survey P-racticai 2 weeks 50-Chem 101 Chemistry 3-0' 200Chem 102 Chemistry Sessional 0-3 100

- EE 105 Basic Electrical Engineering 2-0 150EE 106 Basic Electrical Engineer in.g Sessional 0-3/2 50Hum 101 English and Economics 2-0 15QMath 107 Paper I 2-0 150

Paper II 2-:'0 150'ME 107 Basic The rmal Engineering and

Engineering Mechanics 3-0 200 -ME 108 Basic Therma I Engineer ing and

Engineering Mechanics SessionaI 0--3/2 50ME 112 Mechanical Engineering Drawing 0-3/2 50MetE 101 Fundamental Metallurgy 2-0 150Phy' 102 Physics Sessional 0--.-3 100Phy 103 Physics :3-0 200Shop 102 Carpentry Shop 0-3/4 25Shop 106 Welding Shop 0-3/4 25Shop 108 Machine and Fitting 0- 3/2 50

Second yearChem 207 Physical Chemistry -2---'0 150Math 211 Mathematics 3--:0 200ME 205 Mechanics of Solids 3-0 200ME 212 Mechanical Engineering Drawing 0-3/2' '50ME 217 Elements of Fluid Mechanics and

Machinery 2-0 150MetE 201 'Materials Science

.... 2-0 150MetE 203 Geology and Minerology 2-0 150MetE 204 Metallurgical Analysis, and Assaying 0-3 100MetE, 207 Fuels and Refractor ies 3-0 200MetE 208 Fuels and- Refractories Sessional 0~3/2 50MetE 212 Furnace Drawing 0-3/2 50MetE 123 Engineering Materi als 3-0 200MetE 216 Materials. Testing Sessional 0-3/2 50MetE 218 Fundamental Metallurgy Sessional 0-3 100

68 SUET

./

..

Third year

Course No. Subject Title Hours/week Marks

,.. ,

EEEEHumIPEIPEMath

MetEMetEMetEMetEMetEMetEMetE

231232313307308302

301303305307309310312

Electrical TechnologyElectrical Technology SessionalIndustrial law, Sociology and AccountsMetal Cutting ProcessesMetal Cutting Processses SessionalComputer Programming and NumericalAnalysisElements of Mining EngineeringMetallurgical Operations andContro IMetallurgical ThermodynamicsOre-dressing and Extractive Metallurgy. Foundry TechnologyFoundry Technology Sessiona IChemical Analysis of Metals andMinerals

3~00-'-3/23-02-00-3/2

0-22-03----02-03-03-00-3

0-3

3005030020050

100200300200300300100

100

50

200200300300

150

200200200.200200200200200

300200200

2-02-02-02-02-02-02-02-0.

3-00-62-0

2-02-03--03-00-4~-~

0-3/2.

405407408

MetEMetE

MetE

Fourth YearCompulsory SubjectsI PE 403 Industrial ManagementMetE 400 Project and ThesisMetE 401 Ferrous Production MetallurgyMetE 403 Metallic Alloys

Paper IPaper IIMetal TechnologyPhysical Metallurgy

Metallography and Heat TreatmentSessional

MetE 4H) Metallurgical Problems Sessional

Optional Subjects: (Any two from the following)IPE 411 Production Planning and ControlMetE 431 Foundry EngineeringMetE 433 Corrosion for Metallurgical EngineersMetE 435 We Idi ng TechnologyMetE 437 Powder MetallurgyMetE 439 Metal FinishingMetE 441 Non-ferrous Production MetallurgyMetE 443 Refractory Materials and Ceramics

I

L -. -

Calendar69

BUEr70

Postgradua te",'0

Course !"Jo. Subject Title Credit HoursMetE 6000 Thesis 18

Project~

6

'"MetE 610'1 Advanced Metal Physics ')v

MetE 6103 Machine TODls Materials and :3 ,):;

Heat Treatment #:

MetE 6105 Advanced Metal Technology 3'., ..',

MetE 6107 Extractive Meta,Jlurgy 3MetE 6109 Industrial Alloys ';!

'-'MetE 6201 Advanced Physical Metallurgy 3MetE 6203 Refractory Materials 3MetE 6207 Fuel Technology 3MetE 6209 Metallurgical Thermodynamics 3

"\.'"'

:-f ',

~!'f -r~, -

It'

Assistant Professors

Department of Physics

Teaching Staff:

Oil Afroze Ahmed, B.Sc. (Hans), M.Sc.Nazma Zaman, B.Se. (Hans), M.Sc., Ph.D.Md. Abu Hashan Bhuiyan, 8:Sc.~ M.Sc., M.Phil.

71

ProfessorsGiasuddin Ahmed"', B.Sc. (Hans), M.Sc., Ph.D.Md. Ali Asgar, B.Sc. (Hans), M.Sc., Ph.D.Associate ProfessorTofazzal Hossain, B.Sc. (Hans), M.Sc" Ph.D.

lecturers

Ummey Khaleda Begum, B.Sc. (Hens), M.Sc.Miftahur Rahman, B.Sc. (Hons), M.Sc.Fahima Khanam, B.Sc. (Hans), M.Sc.Kazi Ahmed Reza, B.Sc. (Hans), M.Sc.Md. Abdus Satter, B.Sc. (Hans). M.Sc.

Introduction

A considerable e~pesure to the basic knowledge in physics is deemednecessary for studBnts undertaking undergraduate COurses ;n the differentfaculties. With this objective in view,; extensive theoretical courses.inphysics, covering the needs of various departments, are offered to theundergraduate students. Adequate laboratory faci lities are available tosupplement the theoretical knowledge and provide experimental basis, '

The department aIso offers M. Phil., and Ph.D.. degree courses. The majorareas in which a postgraduate' students c'an carry out research and course(-,

work are the following: Solid State Physics. Material Science, X-ray andOptical Crystallography, Magnetism, Nuclear Physics, Bio and MedicalPhysics, Meteorology. Current research projects are given as follows:

(i) The development of magnetic materials, (ii) The study' of the pre-cursor states for carbonising and graphitizing materia's, (iii) Predictionof track of Cyclones in Bangladesh, (iv) Analysis' of low Z elements

Calendar

.."Head of the department

- ,",-.~-.. ~ ..•...-~...... - ..-.,..~.

by Alpha induced Gamma ray spectroscopy and (v) Development of low leve!whole body radioactive monitor.

The above-research projects have been undertake~ mostly by the M. P.hil.and Ph.D. students for their theses requiremant. There is a speci~1 collab'o-ration in the fields of Solid State Physics, Materia I Science, Medical Physics.and Meteorology between the department, the Atomic Energy Commissionand Space Research and Remote' Sensing Organisation,The department has, two well-equipped laboratories for the undergradutestudents. At present three postgraduate research laboratories in the processof being ,setup, one in the field of Nuclear Physics, one in the field ofSolid'State Physics and one in Material Science,'

SUMMARY OF COURSES

Undergraduate

Credit Hours22

Techniques 24"4444

442243333334

,'. jlUET

f!"lf

r.;1 '\

~

~f"I.\1'.

~

t,~l1:

,.,~,

.,-'..1:.

Marks20050

200150

Hour's/week3-00-3/23-02-0

Subject TitlePhysicsPhysics Session alPhysicsPhysics

Subject Title- .Met 7-Metal TechnologyQuantum Mechan icsLow Temperature, Physics and VacuumRadiation Bio-physicsMedical' PhysicsSolid State Physies (General),X-rayOptical Crystallographv

"Magnetism I (Genera!)Magnetism II (SpeciaJ)Physics of deformad solidsThermodynamics of sol idsNuclear physicsNucl,ear reaction tNuclear reaction II

'Nuclear Model I, Nuclear 'Model" IIBasic Atmospheric physi'csDynamical and Tropi cal Metereo logyMonsoon Metereology and Modelli n9

,Course No.Phy 101Phy /102 'Phy 103Phy 123

PostgraduateCourse No.

~MetE 6301Phy 6001 'Phy 6002Phy , 6003Phy 6004Phy 6005Phy , 6006Phy 6007Phy 6008Phy 6009Phy ,6010Phy6011

.Phy 6012Phy6013Phy 6014'Phy6015;Phy :""6016:cPhy 6017P~y 6018Phy 601,9'

7'2

,.

Faculty of Mechanical Engineering

Department of Industrial and .Production Engineering

Teaching Staff:

lecturers

Ashraf Ali Sikder, M.Sc. Engg, (Mech)Aminur Rahman, B.Sc. Engg. (Mech), M. Engg.

73

/

II (

Calendar

Assistant ProfessorsA. K. M. 'Nurul Amin, M.Sc. fngg. (Mech), Ph. D.Ahsan Ali Khan, M: Sc. fngg. (Mech), Ph.D.RuhuJ Amin Sarker, B'.Sc. Engg. (Mech), M. Engg.

Introduction

Industrial and Production Engineering is an iinportant area for develop-ment of almost every sectors of the country's industry. Manufacture ofproducts of everyday use in the one hand, and manufacture of sophistic~te<:!'pToducts, design, quality control. operation and maintenance of the industr iesand their management, on the other hand, are' the areas of concern of indus-trial and production engineers. The industrial and production engineers are,therefore, the important manpower resources for any technological develop-ment endeavour and their operation.

Tme department has been carrying out research projects through the post-graduate programm3 and has op9n'9d up Research Out-stations at differentindustries. ,The research projec.tsare basically applied to different problemsof the indu~tries in the field of industrial and production engineering.

Courses are offered at the postgraduate level leading to M. Engg./M.Sc. Engg. and Ph. D. Some courses are also being offered at the under-graduate levels in the departments of Mechanical Engg., Naval Architectureand Marine Engg. and Metallurgical Engg.

*Head 01 the department

. ProfessorsM. Anwarul Azim, B~ Sc. Engg. (Mech), Dip!. Ing., Dr. Ing.A.F.M. AnwaruJ Haque*, B.Sc. Engg. (Mech)., M.Sc. Engg.! M. Engg., Ph.D.Md. Mizanur Rahman, B.Sc. Engg. (Mech), M.Sc. Engg.. M.Sc., Ph.D.

Associate ProfessorA.B.M. Zohrul Kabir, B.Sc. Engg. (Mech), M. Tech., M.Sc. Engg., Ph.D.

, .

Hours/week Marks..2-0 1500-3/2 50

2005020050.

300,_.50

300300300300

.Credit Hours

1863333333

33313 .I33333'3't3.333

£f(j;ET

-,

3-0'3-03-03~0

',-00~3/22-0o-3/i3-00-3/2

Subject TitleProduction ProcessesProduction Processes Sessional

Production ProcessesProduction Processes. Sess iona IMetal Cutting ProcessesMetal Cutting Processes SessionalMeasurement and. Quality Contro'Measurement and Quality Control Sessional

74

SUMMARY OF COURSES

Undergraduat~Second YearCourse No.IPE 205IPE 206Third YearIPE 305IPE 306IPE 307IPE 308IPE 313iPE 314Fourth YearIPE . 403 Industrial Managemen tIPE 409 Machine ToolsIPE 411 ~roduction Planning and ControlIPE 413 Production Planning and ControlPostgraduateCourse No. Subject TitleCompulsorv Subjects

'<t:." IPE 6000 ThesisIPE. 6000 ProjectIPE 6001 Metal FabricationI PE 6002 Principles of Metal CuttingIPE 6003 Advanced Machin9 ToolsIPE 6004 Production Materi alsIPE '6005 Statistical Quality ControlI PE 6006 Designing for ProductionIPE 6007 Production System An?lysisOptional Subjects (any three)I PE 6101 Tool EngineeringIPE 6102 Managerial EconomicsfPE 6103 Introduction to Control EngineeringIPE 6104 Principles of Industrial ManagamentfPE 6105 Modem Marketing. managementIPE 6106 Plastics ,Process Engineerin"g'PE 6107 Special Studies (not more than two)I PE 6201 Quantitat ive Analysts tIPE 6202 . Control Engineeringf PE 6203 Applied PlasticityJPE 6204 Unear Pro grarhming .IPE 6205 Quantitative Analysis II (Preq, IPE 6201.)IPE' 6206 Computer Methods in Industrial EngineeringEEE Electrical Machines and Electronics'Non;.departmen.tal. Cour,'s.e(one only),

i .~ I

I. '

i[ 'l-LI

l

Ass;stant ProfessorsHyder Shahabuddin Hussain, B.Sc. Engg. (Mech), M.Sc. Engg.,M . Engg .Zakiuddin Hossain, B.Sc. Engg. (Mech), M.Sc~ Engg.Md. Abdur Razzaq Akhanda, B.Sc. Engg. (Mech), M.Sc. Engg.Md. Qumrul Islam, B.Sc. Engg. (Mech), M.Sc. Engg.Amalesh Ch. MandaI, B.Sc. Engg. (Mech), M.Sc. Engg.Md. Imtiaz Hossain, B.Sc. Engg. (Mech), M .Sc. Engg.A.K.M. Sadrul Islam, B.Sc. fngg. (Mech), M.Sc. Engg,Md. Forhad Hcssain, B.Sc. Engg. (Mech), M. Engg.

j ,t

i -'!"f.i '

" 1

""

"

Department uf M~M..~hanical Engineering'

Teaching Staff :

ProfessorsM.H. Khan, B.Se. Engg. (Mech),M.S., Ph.D.M. Anwar Hossain, B.Sc. Engg. (Mech), M.S., Ph.D.A.M. Azizul Huq*, B.Sc. Engg. (Mech), M.Sc. Engg., Ph.D.Abu Taher Ali, B.Sc. Engg. (Mech), M.Sc . Engg., Ph.D,Dipak Kanti Das, B.Sc, Engg. (Mech), M.Sc. Engg., Ph.D.S.M. Nazrul Islam, B.Sc. Engg. (Mech), M.Sc. Engg. Ph.D.

.\,'Associate ProfessorsMd. Fazli lIahi, B.Sc. Engg. (Mech), Ph.D.Md. Wahhajuddin, B.Sc. (Hans), B.Sc. Engg. (Mech), M. Engg., Ph.D.Belal Ahmed, B.Sc. Engg. (Mech), M. Engg,

LecturersMujibul Hasan, B.Sc. Engg. (Mech)Golam Kibrya, B.Sc. Engg. (Mech), M.Sc. Engg.Md. Ehteshamul Hyder, B.Sc. Engg. (Mech), M.Sc. Engg.Mustafizur Rahman, B.Sc. Engg. (Mech)Md. Mizanur Rahman, B.Sc. Engg. (Me'ch)A.K.M. Shariful Islam, B.Sc. Engg. (r,,1ech)Salah~ddin Ahmed, B.Sc. Engg. (Mech)Showkat Jahan Chowdhury,' B.Sc. Engg. (Mech), M.S.Altaf Hasan, B.Sc. Engg. (Mech), M .sc. Engg,Abdul Azim, B.Sc. Engg. (Mech)Ziaul Haque, B.Sc. Engg. (Mech), M. S.Anisur Rahman, B.Sc. Engg. (Mech)Maglub al Noor, B.Sc. Engg. (Mech), M. Engg.

*Head of the depar'tment

Calendar 75

\

Reazul Gafur Mahmud Hassan, B.Se. Engg: (Mech)Jamal Abdun Naser, 'B.Se. Eng). (fViech)Moududur Rahman, B.Sc. Engg. (Mech)Md. Mahbubul AI;3m, B.Se. Engg.(Mech)Md. Ekramu! Hasan Khan. B .Sc. Engg. (Mech)Md. Raquibuddin Khan, B.Sc. Engg. (MeehL M .Sc. Eng g.A.K. Mesbahuddin, B.Se. Engg. (Mech),'

Maksud Helali, B.Sc. Engg. (Mech)Sariful Sari, B.Sc. Engg. (Mech)Md. Monzurul Haque, B .Sc. Engg. (Mech)

IntraductionThe department is continuously engaged in updating and enhancing theknowledge in the field of mechanical engineering education in the contex tof the present day world. It is committed to a varied programme ofresearch with a view to sol ving problems- in ,the national leve-L Theresea rch projects carried out through the undergraduate and postgra~uateprogrammes are both applied and fun damental in nature, covering the f3reaslike, thermodynamics, fluid mechanics, turbulence, heat transf er ,l-ll\>pli ed

mechanics, wind and solar energy etc.

Construction of low cost manually operated pumps, design and fabrication ofwind turbines for lift ing wat'er for irrigation, improved design of countrycycle rickshaws, solar energy utilizati~Jn, use of n3tural. gas in Ie engine,study of jets, wakes and separation-reattachment-recovery of flow are someof the important research projects now being carried out in hte deparment.

SUMMARY OF COURSES

Undergraduate

First year

Course No.

CE 102CE 104Chem ,.01Chern 102EE 101EE . 102Hum 101

76

Subject Title_.

Su'rveyingCivil Engineering Drawing

ChemistryChemistry SessionalBask Electrica I EngineeringBasic Electrical Engineering Sessional

English and Economics

Hoursjweek Marks

Two weeks 500-3/2 50,3-0 2000-3/2 503-0 2000-3/2 502-0 ,150

8VET

Subject ,Titk,

Second Year

,

\:1. I. I:1j,t

. ,

j.'!,

'. :ji

'\

lI.• 1,

Math

MEMEMEPhyPhyShop~

ShopShop

Chern .4'

EEIPEMath,

MEMEMEMEMEMEMetEMetE

101

101102112.101102104106108

205

211205201

201202203205206212205206

Mathematics

II:t

Thermal EngineeringThermal Engineering SessionalBasic rvlecnanical Engineering Drawing

.PhysicsPhysics SessionalFoundry shopWelding, shopMachine shop

Chern istry of Non-metallic Engi' '7e.ring

MaterialsElectrical TechnologyProduction Processes'Vector Calculus, Matrices, Laplace's Tans-forms, Differentia I equationsBasic ThermodynamicsBasic Thermodynamics SessionalEngi neering MechanicsMeehan ics of So lidsMechanics of Solids Sessional, ,

Mechanical Engineering DrawingMetallic Materia IsMeta II ic Mate ria Is Sessiona I

3-00-3/20-3/23-00-3/20-3/20-3/20-3/2

2-0

3-02-03~0

3-00-3/23-03-00-3/20-3/22-00-3/2

300

200 "5050

20050505050

150

250'150250

25050

250250. 5050

15050

Third Year

!,!!\J,I\1.j,

HumIPEIPEIPEIPEMatti

Caledar

305305306313314307

Industrial law, Sociology and Accoun,ts

Production ProcessesProduction Processes SessionalMeasurement ar.d Quali ty ControlM9asurements and Quality Control SessionalFourier series, Partia I Differentia 1 Equationsand Harmonic Analysis. Numerical Analy sisand Complex Variables

3-0 3002-0 2000-3/2, 503-0 3000-3/2 503-0 300

77

Course No. Subject Tide Hours/week Marks

ME 300 , Computer pro'gramming '0--3/2 50ME 301 Heat and Mass Transfer 3-0 300ME 302 Heat Transfer Sessional 0-3/2 50ME 303 Mechanics of Machinery 3-0 300ME 304 Mechanics of Machinery S~ssiona I 0-3/2 50-ME 307 Fluid Mechanics 3-0 300ME 308 FI!Jid Mechanics Sessiona I 0-3/2 50ME ' 309 Machine Design 3~0 300ME 310 Machine Design Sessional 0-3/2 50

I Fourth YearIPE 403 Industrial Management 3-0 300.IPE 409 Machine Tools 3-0 300'IPE 410 Machine Tools SessionaI 0-3/2 50IPE 413 Production Planning an-dControl 3-0 300

400 .~','~-f~<S&~'>I~ . • 0-9' 300ME ProJ~.:'(:t.[and ThesIs,

ME- 401 Applied' Thermodynamics 3-0 300;",,~.

ME 402 Applied Thermodynamics Sessional 0-3/2 50ME, 407 Fluid Mechani cs and Machinery 3-0 300ME 408 Fluid Mechanics and Mechinery Sessional 0-3/2 50

Optional Subjects (Any Two)

ME 421 Aerodynamics 2-0 200ME 425 Automobile Engineering 2-0 200ME 429 Control Engineering 2-0 200

.l Plastics Process TechnologyME 431 2-0 200ME 445 Operations Research .~;~-;- 2-0 200ME 451 Refrigeration and Airconditioning 2-0 200

"

'C. ~.

\i!I

," J

II:t

[. " 78:1BUET

ifit

~ij

t"t

" ,1:<~t:. J:ij- ;it

. 19Calendar

FostgraduateCourse f\fo.' SUbject Title-

Credit Ho~rs

18633333333333"33333.. 3

3333333333333333

ThesisProjectProblemClassical ThermodynamicsStatistical The.rmodynamic S

Solar EnergySu.rvey of F!u id Mechani csMechanics of Inviscid Incompressible .FluidMachanics of Viscous FluidMechanics of Inviscid Complessible flowAdvanced Heat TransferAdvanced Conduction and Radiation He~t TransferAdvanced Convection Heat TransferDesign of Heat Transfer EquipmentsHeat Transfer SeminarThermal Environmental Enginee ringAdvanced DynamicsMechanical VibrationsApplied ElasticityTheory of Plates and .ShellsElastic Stability of StructuresExperimental Stress AnalysisFinite Elem3nt MethodsAdvanced Numerical Ana lysisComputer and ProgrammingMechanical B.ehaviour of Engineering Materi a IsStructure. and Prop.erties of Engineering Materi als

Theory of PlasticityDislocation TheoryPrinciples "of Engineering Production IPdncipres of Engineeri ng Product ion IIIndustria I Engineering AnalysisIndustrial Management PlanningLinear ProgrammingEconometric Methods

6000

600361016103611161216123612561276141614361456147614961616171617361756177617961816183618561876201620362056207622162236225622762296235

MEMEMEME

ME

rvi EMEMEMEMEMEMEMEMEMEME_

,MEMEMEMEMEMEMEME

•. -1,.

ME.. MEMEMEMEMEMEMEMEME

Department of Naval Architecture and Marine Engineering

Teaching Staff:

Associate ProfessorsMahiuddin Chowdhury, B.Sc. Engg, (Mech)., Ph.D.Gazi Md. Khalil*. B. Tech. (Hons), M.Sc, Engg. (Mech), Ph,D.

Assistant Professorskhabirul Huq Chowdhury, B.Sc. Engg. (NAME), M. Sc. Engg,Md. Sadiqul Bari, B.Sc. Engg. (NAME), Ph.D.Swapan Kumar Dey, B.Sc. Engg. (NAME)M. Refayetullah, B.Sc. Engg. (NAME), Ph.D,

LecturersAbdur Rahim, B.Sc. Engg. (NAME)Iqbal Hasan, B.Sc. Engg. (NAME)

IntroductionThe department of Naval Architecture and Marine Engineering was estab-lished in 1971. The department was set up with the aim of producing localexpertise in the broader field of maritime acti vities which include navalarchitecture, shipbuilding, marine transport, offshore structures, marine engl.neering etc. These include design of mining. and drilliing rig structures,piping layout, machineries and equipment installations, ensuring stability ofstructures in rough weather, fabrication of structures at shipyards, inspectionc,. and testing, transportation and installation at site etc.

This department is mainly concentrating on education in design, construc-tion, repair, maintenance, inspection and testing of inland and coastal vessels.

The Marine Hydrodynamic"s laboratory and Ship Design Laboratory are abo.utto be completed. Efforts are also being made to procure experimental set-ups for a Marine Engineering Laboratory. The depratment is' still offeringonly undergraduate courses. There are pla'ns of offering postgradute' cour.ses in near future. Enrolment in the first year is now 13 of which 3 seatsare reserved for the Bangladesh Navy.

" 81

Hours/week Marks,For.2 weeks 500-3/2 .50

Subject TitleSu"rveyingCivil Engineering Drawing .

SUMMARY OF COURSES

Undergraduate••

*Head of the department

Calendar

Frist year

Course No..."CE 102CE 104

I'iCOurse No.

Subject Title

Hours/week Marks

II

Chern 101 C/:lemistry

3-0 200

-.Chern 102

Chemist ry Sessional

0-3/2 50EE 101

fjasic Electrical Engineering3-0 20,0

EE 102Basic Elecrica I Engineering Sessional

0-3/2 50Hum 10j

English and Econom ics2-0 150

Math 101 Mathematics3+1 300'Paper I

Paper IIME 101Thermal Engineering

3~O 200ME 102

Thermal Engineering Sessional0-3/2 50

ME 112Basic Mechanical Engg,

Drawing 0-3/2 50

I 'Phy 101 PhYsics

3-0 200

1Phy, 102 Physics Sessiona I

0-3/2 5-0Shop '04 Foundry shop

0-3/2 50Shop 106 VVelding shop

0-3/2 50 .Shop 108 M Jehine shop

0-3/2 50Second YearCE 212

Strength of Materia,ls I Sessiona I 3/2 50

"

fE 211Electrical Technology

3-0 250EE 212

Electrical Technofo,gy Sessional3/2 50

Math 213 Mathematics

..,-'"

Paper I2-0 150t/

Paper " 2-0 150ME 201 Basic Thermodynamics

3-0 250ME 202

Basic Thermodynamics Sesiional3/2 50,

I

MetE 209Shipbuilding Mater ials

3-0 250

I.,

,MetE 210Shipbuilding Materials Sessional 0-3 100

NAME 201Strength of Materia Is I

2-0 150NAME 203 Fluid M'echan ics

2-0 150NAME 205

,Welding Engineering for ShilJ2-0 150

ConstructionNAME 207Elements of Merchant Ship and Ship 2-0 150Calcula tion, 'NAME -:208Elements 0 f ShiP Drawing' Sessional

0--3 100Third yearCE, 320

Strength of Materials " Sessional 0-3/2 50~

Hum 305 Industria' Law,Accountancy and 3-0. '300

I

!

Sociology

1!f,~~

\i;'~SUET • '1

82

~~,II.1.•.

; .j

jl(.':,~

• ~'~"" -- ••••••• w ••••• " ' •••• ..:.. f •••••,'- .• "_ •. Of

Calendar

Math

MEME

NAMENAMENAMENAMENAt',,1 ENAMENAMENAMEFourthIPENAMENAMENAMENAME

NAMENAME. NAMENAMENAMENAME

NAMENAME

307308309301303304305307308311316year403401402403404

407408409411412415

416400

Applied MathematicsFluid Mechanics SessionalMachine Design

Strength of Materials IIHydrodynamicsHydrodynamics Sessiona tDetails of Ship Construction

Ship Design IShip Drawing Sessiona IMarine Engineering IShipyard Practices I Practica1

Industrial ManagementStrength of ShipsStrength of Ships SessionalResistancG and Propulsion of ShipsResistance and Propulsion of Ship

SessionalShip Design ItShip Design 'I SessionslShip Vibration and Ship Motions

Maring Engineering IIMarine Engineering 11 SessionalShipyard Facilities, ShipRepairing and Maring StructuresShipyard Practices II Practical

Project and Thesis

3-00-3/23-02-02-00-3/22-03-00-32-00-3/2

3-02-00-3/22-00-3/2

2-00-3/23-03-00-3/22-0

0-3/20-6

30050

3002002006020030010020050

3002005020050

20050

.300

30050200

50200

83

~"..- I I 1 I • I I I{it t

,T

r~ I I -I, I I II"

i., , ,j~~ - ,

,,'-', I - I,",•...

" I..t

, I I,.,. ,; I" ,.

jI

1I

.

"

~IIi- .i

- !,""

1

.~ ; I,

,I

,!

c<;,

,"

,

, i.. , !

. ~. !;,

"j

;.' I

~J! i

~I!" •,

"

.•\\ f

"

I

; j

, j

r. ,.••• .,.

I' )E ". III •••• ".~ •• I

\ .I II 1.1 ,.'-C .1-' '-'" .., .14:.1 .. j

i ..

i1II

\,

"

}: ~)j, •••.I~ ~.~ •.flR'.~..•~.-- - -~, -- I •III 1.,4 .1" II II~ :1 IIe

.'

. ,,

F,,,

I~!

:l},.

p»1; ,

I',..

; .! i

"

.t

'+,

,"

]:11._ . .

Faculty of Architecture and PlanningDepartment of Architecture

CONSTRUCTION AND STRUCTU RE IArch 141 Construction Details I1 hour per vyeek 100 marksSimple constructions; Foundations, floors, walls, roofs, doors and Windows.

STUDIO WORK IArch 191 Design I9 hours per week 450 marks:Freehand drawing)n various media, basic design problems, room arrange-

ments, si'ngle-cell building design.

of the various Arts,

THEORY AND HISTORY OF ARCHITECTUREArch 131 Design I1 hour per week 100 marksArchitecture, design, elements of design, princip les of design, phi losophies

of architecture, design methods.

Arch 192 Ar'chitectural Graphics6' hours psr week 300. marksRelationship of mechanical and free hand drawing, study 01's<:ale, composi-tion, drafting" lettering, execution of mechanical and free hand perspective.shadows and reflections in perspectives both mechanical and freehand ....

Arch 132 Art .and Architecture2 hours per week 200 marksA general survey of world art' and architectl:lre; Studyand their relationships to architecture through the ages.

UNDI;RGRADUATE COURSES

ARCHITECTURAL SCIENCE IArch 121 Climate and Design2 hour~ per week 200 marks

.1ntroduction, global climatic factors, elements of climate, measuring theelements and recording the data; Classification of climate~, tropical climate,

site climate.

,, I

.L';' ..

1"

:'I....j

1

~;

85Calendar

..

Arch 293 Graphic Art and Scu Ipttlr~6 hours per week 200 m~arks

Drawing and painting', relationsh ipto architectural presentation; Studiesin clay, wood, metal, etc.

ENVIRONMENTAL STUDIES nArch 211 Basic Planning1 hour per week 100 marks

History of settlements; Basic plann ing theories, inti'oduct ion to community)city and regional planning, Proble TI3 of planning in Bangladesh.

ARCHITECTURAL SGIENCE IIArch 221 eli mate and Design II1 hgur per waek 100 ma rks

Sun-built f,Jrm relationships, wind-built form relationships; precipitatio'n-built form relationships; design applications.

THEORY AND HISTORY OF ARCHITECTURE IIArch ,232 Art and Architecture II2 hours per week 200 marks

Art and Architecture in the Indo- Pak-Bang ladesh subcontinent-ancient tomo'dern.

.,. •...'-

I,1--,

i--~iJ:

~

BUET/'

\

86

CONSTRUCTION AND STRUCTURE If--,Arch 241 Construction Details i.1 hour per week 10q marks

Stair cases, bath rooms and toilets; Introduction to large span roofs andframed buildings, economic and, technical feasibility of different commonstructural systems, problems of water proofing.

Arch 243 Building and Finish Material2 hours per week 200 marks

Concrete, steel, brick and wood-nature and use; Terrazzo, plaster, roo fingglass, paint, insulation and plastic-nature and use; Detail sketches.

STUDIO WORK IIArch 291 Desig n II12 hours par week 600 marks

Simple -buildings with simf]le functions, layouts of housing, markets etc., with emphasis on circulation-.

Arch 292 \photographyand Graphic Reproduction3 hours per week 100 marks

Fundamentals of photography-. art of taking, good photograph, deve ropingand printing of films. prine iples of composing good photographs of buildingsand interiors. '--

, .f

f {J 1

I

:I

1,Ii;~

SOCIAL AND ENVIRONMENTAL STUDIES IiiArch 311 Advanced Theories'of' Planning1 hour per week 106 marksPhysical Planning as a space dimension of national economic planning,economic development and regiona I growth; Economics, space, nature andprinciples of region; Theories and principles of, resource use and their

I imitations.

Arch 312 Urban Desi~n1 hour per week 100 marksDevelopment of urban spaces through history; Principles and techniquesfor design of the city environment with special attention to its perceptual

form, circulation and urban ren,ewal .

Arch 322 Architectural Acousti~s'1 hour per week 100 marksThe physiology of sound perception, generation and propagation of sound,behaviour of sound in'closed spaces, auditorium acoustics; Noise measure-

ment and control.

THEORY AND HISTORY OF ARCHITECTUREArch 332 Art and Architecture "II2 hours per week 200 marksModern art and architecture in the 19th and 20th centuries.

Arch 342 Specifications and Cost Estimating,

1 hour per week 100 rnarksWritten details answering what, where, when, howl in, relation to drawndetails 'for building construction and determining the Cost of construction.

STUDIO WORK IIIArch' 391 Design ill18 hours per week 900 marksComplex building problems including' larga publi c building with tech-

nkat analysis.

Arch' 392 Working Drawings

.3 hours per wee~ 100 rnarksDetails of drawings for construction of buildings, plans, elevations, sections,

'large scale details, schedules etc.

Ca!endear 87 '

societies and theaspect s of housing

Arch 412 Housing2 hours per week 200 marks

Housing and Community, their influence on individuals,environment ; Physical, social, economic and technicalpro-o lem in Bangladesh.

The role of private and public sectors in housing; Housing finance, spaces,standards,. housing infrastructure and other housing design requirements;Current housing technologies.

Introductian to survey; ng; Principles and techniques of physica land sacio-ecanomic survey.

Introductian to. analytic methods and th~ir application; Fundamental quan-titative techniques in demography, landuse, transporation, hausing, physicalinfrastructure, services and community facilities.

STUDIO WORK IV

Arch 491 Design IV18 hours per week 900 marks

Urban plan~ing and design,; Planning and design of towns and satell ite towns,urban renewal af ci ty blocks, slum clearance and housing, river front' deve.lapment,etc.Study and design of complex multifunctional buildings in the light of moderntechnalagy, centres far different, organizations such a'sAEC,BJOS, etc.

Arch 413 Rural Planning1 hour per week 100 marks

Historical background of rural settlements; Nature and comp:>n3nts of the-rural environment; Social and economic characteristics of the rural cammuni-ties ; Rural resourceS and resource utilizatian.

The criteria far rural planning; the cancept af integrated rural develapment;Policies and strategies for rural develapment; Organizatian of developmentactivitities; Devel'Jpment C?finstit,utions, quantitative, qualitative and spatialaspects.

Arch 414 landscape Design1 hour per week 100 marks

Intraduction, elements and principles of landscape design; site analysis anddesign. Intraduction, to plant materials and their use's, application to.design prable ms.

ARCHITECTURAL SCIENCE IVArch 421 Surveying Techniques and Analytic Methods1-2 weeks 100 Marks

.~

BUET88

Calendar

of national' problems such as ruralhousing faciliHes development in

psychotogicalsoci o-economics,

BUILDING ADMINISTRATiON

Arch 541 Professional Practice1 hour per week 100 marksProfessional services, Professional ethics; Architect-Client relationship.Contracts and law. Procedure in office and the field.

Arch 543 Construction Management1 hour per week 100 marksBasic concepts and principles of management; Development of manage-ment skills; Management of organisation ;i Decision making; Planning andcontrol. Basic statistics; Basic operations; Research; Plans; Bidding and .'Sub~contracting, Use of Operati,ons Research Techniq,u~s.'

SOCI-AL- AND ENVIRONMENTAL STUDIES V

Arch 511 Health Facilities Planning2 hours per week 200 rnarksIdentification of the environmental and health need in Bangladesh. Analy-sis of the environmental and health problem in urban and rura I areas ofBagladesh. Fundamental of health facilities planning, programming and

design in realisti c setting of Bangladesn:

Arch 513 - Seminar (Thesis, design._. architecture)1 hour per week 100 marksDiscussion on design methodology, approach, design evaluation scope, pros-pects and methodology. Advanced technical and scientific knowledge in-thebuilding industry, current developmant in the field of arch itectural research.--

STUpID WORK VArch 515 Design V21 -hours per week 1050 marks

Advanced architectural problems involvingand cultural aspects.Study, analysis and design for solutionsdevelopment. Health, recreation andindustrial complexes etc.

Arch 492 Landscape Design3 hours per weak 100 marksCase studies throug h sketches, drawings and reports of buildings and builtenvironment. Appl ication of the prine iples and techn iques of landscape

design in d8si gnex ercises.

,~

'\\,,I

'II'11n

1,POSTGRADUA TE COURSES

Ij"", ,

Arch 6101 Housing Problems and Policies in the Developing Coun-

tries 3+1 = 4 credits

General introduction to the Developing Countries with particular referenceto the housing contexts-backg round, historic growth, common' characteris-. tics and contemporary developments; Demographic Analysis; growth,poverty and income distribution; Agricultural transformation and Rural-urbanmigration; Unemployment issues; Meaning of development; Housing indevelopment.

Introduction; Effects of thermal environment on men; the determinants ofthe thermal environment; Measuring techniques of the elements; ThermaIcomfort and the thermal comfort criteria; Thermal environmental evaluat ion.

The thermal quantities; Thermal parformance of bui Idings-the process ofheat gain and heat loss; Quantitative assessment; Periodic heat flow; Thermalenvironmental control by s tructura I means-structural centre in relation tothe sun, structural control in relation to venti lation and structural control inrelation to precipitation.

Specific problems of housing in the developing countries; the extent, dimen-sions and diversities of the housing problem; Major housing issues-land,labour, materials, techniqtles; an <?v9f1iiawof the theories and concepts ofhousing.

Analysis of contemporary housing policies; Institutional frameworks; HOllsi~gfinanc9j Process of devising a hous ing strategy; Formulation of standards.

.'

2+1 = 3 credits

Workshop

Arch 6102 Thermal Environment in Built-form

Workshop

Arch 6103 Theories of Urban Design 1+1 = 2 credits

..;

Introduction; Activity systems as a generator of physical forms and viceversa; Historical comparative analysis of the activity syste.ms and the resul-tant built-form as a product of political, eGonomic and social forces; Analysisof the grammar of urban physical pattern-paths, nodes, edges, spaces, andlandmarks; Discussion of some major theories on urban form and design ;Preservation, conservation and urban renewal.

.'

90 BUET

""!\

, t

j,

Arch 6104 ,Health Problems in the Contemporary Societies 1 credit

Introduction; Identification of the' environmental and health issues in thedeveloped and the developing countries in general and Bangladesh inparticul~r; Analysis of the magnitude and diversities of the probiem and needsin the developed and the developing countries in general and BanglaJesh

in particular.

Ar ch 6105 Analytic Methods 1 ered i tIntroduction to analytic planning tools and thei r application; Fundamentalquantitative techniques in demography, landuse, transportation, housing,physical jnfrastructure, services and comm~nity faci I ities; Use of quan tita-

tive methods in planning.Statistical data collecion, reduct ion and rep resentation; Tvpes of observation;Frequency distribution; Measures of central tendency; Measures of disper-sion; Concept of correlation and,-regressi on; Multiple and partial correla-tion; Casual inferenc'e and path analysis; Analysis of co-variance anddummy variables; Factor and cluster analysis and analysis of variance.

Arch 6202 Urban Housing 2 +1 = 3 credits

Reviewing urban housing policies and their impact on lif3 inc-the city; Inter-relationship between housing and other issues-Business, Commerce andIndustry; Form and control of public and community participation in shaping

the housing envi ronment.Developing a housing programme; Housing need-effective demand, potentialdemand and changing need; Analysis of different tYP3Sof pr:)jects-upg radingprojects. site and service projects; New-built low income projects, new urbansettlements (Planned and spontaneous), self-help projects; Housing layoutdesign; Prov ision of utility services ; Bui Iding materials and techniques;Nature of design and construction; The role of professionals.

WorkshopArch 6203 Sonic Environment in Built-form 2+1 = 3 credits

Introduction; Effects of sonic envi ronment on men; the determinants of thesonic environment; the sonic quantities; Measuring techniques Sonicenvirnmental design criteria; Sonic envi ronmental evaluatjon.

Behaviour of sound in enclosed spaces; Geometrical and statistical methods ofstudy; Designing rooms of speech; Designing rooms for music; Designing Bud-toriums, cinema halls, re cording studios; Sound reinforcing systems; Noise

and noise control in spaces.

91Calendar

, ,i

I, '

-ti!

Work~hop

Arch 6204 Urban Systems 1-1-1 =2 credits

History and analysis of the city as a so,cial system ; the development ofcommunities and neighbourhoods and effects of ethnic, racial and religiousgroups; the distribution of income and occupation, class structure, life.styles 'and thei r effects on communities and neighbourhoods.Analysis of the city as an economic system; Interrelationship betweenbusiness, commerce and industry and their effects on urban pattern Urbanlocational decisions and transportation; land' value and urban form.AnaJysis of the city as a political and admin:strative system; inte rrelation-ship between urban planning and design and the political setup; the urbanplanning and design' institutions and co-ordination of their activities; pro-ject programming, implementation, management and control workshop.

,Arch 6205 Health Facilities Planning and Design 1 credit

Fundamentals of health facilities planning, programmi ng and design;Case studies of approaches in health' facilities planning and design in thedeveloped as well as the developing countries; Review of the approach inBangladesh, its problems and prospects.

Arch 6206 Research Methodology in Arch,itecture 1 credit

Aspects and scope of research in architecture; problem i dentificati on andselection; Research design, data collection, processing an d analysis, oom-puter application; Research. report writing.

,,,'

Arch 6303 DomesticArchitecture 2+1 = 3 credits,i

1Development of house through the ages; the pre-urban house ; the orientalurban house; the' ossidental' urban house; Rural house in BangladeshInfluence of socio-technical changes in domestic design; Meaning andpurpose of diffe'rent domestic spaces; Relationships between domestic_, ~r-ganization and the house design; Family and house-changing ne31, adapta-tion, space appropriation in different stages of family lite.

Workshop

Arch 6304 Luminous Environment in Bui!t-forms 2+1 = 3 credits

"Introduction; Effects of luminous. environmen t on men; Daylighting and thedeterminants of the daylighti ng environment; Dayl ighting measurementand calculations; Daylighting design criteria and designing for daylighting.Artifi~ial lighting and the determinants of the artificial-lighting environment;

Artificial lighting measurements and' calculations; Arti ficial lighting designcriteria and designing for art ificial ligh ting.

fJ

II

92 SUET

"ri 'I.,~l

Depaftrn~nt of Hurtlanitge~

UNDERGRADUATE COURSES

HUM 101 English And Economics2 hours per week 150 marksFor First year CEo EEE, ME, MetE, NAME

English

PART ADefinition of scientific terms, comprehension, precis .writing. phrases andidioms, commercial correspondence and tender notice.

PART BEssay writi ng, applkation and description, constructio n of sentences andparagraphs.

EconomicsPART ANature of an .economic theory, applicability of economic theories to theproblems of developing countries. Some b"sic concepts-supply, demandand their elasticities. Theralationsh ip among average, margin and total.and their derivation. Equilibrium.stab Ie. straight and dynamic equilibrium.Consumer's equitibrium-indifferance curve, pro::lucer's equilibrium-isoquant.

PART BProduction-factors of produC"tion, production possibil ity curve-equilibriumof a firm, fixed cost and variable cost, the short run and the long run. Thecost curves and supply curves, law of returnS, internal and external economiesand diseconomies. Economics of development and planning, basic concept-saving, investment, GNP, NNP, percapita income, growth rate, policy ins-truments of development. Fiscal policy, monetary policy and trade policy~their relative applicability in Bangladesh. Some planning tools,-capital out-PVtratio, input-output analysis, planning in Bangladesh-first five year plan,

development problems related to agricul~ure, industry and popu latl on of

Bangladesh. .

Hum 103 English2 hours per week 200 marksFor First year ChE.

PART APrecis writing comprehension; Commercial correspondance; Tenders;Idioms; Proverbs; Synonyms; Prefixes and Suffixes, and Punctuation.

PART BParagraphwriting; Essaywriting; Common mistakes in grammar. Vocabulary:Amplification i Report writing; Anal ysis and figures speech.

Calendar 93

HUM 111 Sociology and Psychology

• 2 hours per week 200 rnarksFor First year Architecture

Sociology: Introduction to sociology, principles of human relations. contri-bution of biology. geography, group life and culture to development per-sonality, living habits in Bangladesh, working habits in Bangladesh. so-cial evolution.Psychology: Principles of human behaviour, motivations of behaviour andmechanisms of adjustment to conflicts.

HUM 201 Government And Sociology2 hours per week 150 marksFor Second year ChE. .

GovernmentPART ASome basic concepts of Government . and Policies. Functions. organs andforms of modern state and Government: Socialism; Fascism: Marxism; U.N.O.

PART B

Government and polit ics of Bangladesh. Some major administrative systemsof developed countries. Local self-government.

SociologyPART A , . .Scope, social evolution and techniques of production, culture and cul-tivation. Social structure of Bangladesh. Population and world resou'rces.Oriental and Occidental societies. Industrial revo lution ..

PART BFamily-urbanization arid Industrialization. Urban Ecology, Co-operative andSocialist movements. Rural sociology.

HUM 203 Accountancy And Industrial Management

3 hours per week 250 marks.For Second year EEE

~ccountancyI hour per week 100 marksBasic Accounting princip les. Different kinds of cheque. Cash book-Pettycash book. Elements of cost: Direct costs. Overhead allocation.

PART BPrepararion of cost sheet. Marginal analysis. Computation of. brealqHienpoint. Standard costing, Cost variance.

I,

94 SUET

!'I

1IJ

!J

I:

. 1ftJ

iI•41

.\.

~ndustria\ Management2 hours. per week 150 marks

PART AAuthor ity and ,espons ibiii ty, administr at ion, management and organization.Scientific management and organisation; Time and motion studY; Learningcurve; Organization structure; Principies of organization; Organization

chart; Span of control; policies; Decision making.Analytical methods in management-Linear programming; Waiting line andcost data for decision. network analysis, arrow diagram, critical path;Planning-Types of planning ; investment policy and criteria; . Depreciation,various methods; Equipment po licy . Pe rsonnel management -Se lection andrecruitment of employeeS, Interview and indoctrination; training and itstypes; Promotion; Basis of promotion-industrial reaction ; Wage systemsand incentive and 'supplementary wage and salary administration ; Accidentprevention and safety instruction. Job-evaluation and merit rating. Statistical

qualitY control.PART BPlant layout. layout of physical fac i1ities. Transportation and storag!" mate-rial handling. Maintenance; Classification of object s to be maintained;Maintenance policy; PI anning maintenance function. turn-around or stand-by machine. control of maintenance function. Productio n control in inter-mittent and continuous manufacturing Industry; objectives and functions ofproduction control; Supplementary planning; Schedulling; Despatching;Assembly line control. Forecasting;. utility and various methods; CoordI-nation between sales and manufacturing ; Manufacturing economics.purchasing procedure: Inventory control-need and methods of control ;FactorS affecting inventory build-uP. economic lot size and re-order point.Sales; organisation and promotion; Measures of performanca, measurementand analytical problem of productivity. cost of management and industrialreorganisation. Product ion standa rd and work measurement ; wo rk sampl ingand' its methods; Allowance in production standards.

Hum 207 Ac.counts and Sociology2 hours per week 150 marksFor Second' year CEAccountsPART ABasic Accounting principles. Different kinds of cheque. Cash book; pettycash book. Elements of cost. Direct and Indirect elements; Accounting fordirect and indirect costs. Overhead allocation.

PART BPreparation of cost sheet. Marginal. analysis. Computati on '. of break.evenpoint. Standard costing-cost variances.

Calendar 95

SociologyPART A

Scope, Socia I evolution and techniques of production. Culture and Civi-lizations. Social structure of Bangladesh, Population and World resources.Orienta! and occidental societies. Industrial Revolution.PART BFamily-Urbanization and industrialization. Urban ecology. Co~operative andsocialist movements. Rural socio.logy.

Hum 305 Industrial law, Sociology and Accounts'.3 hou rs per ..week 300 marksFor Third year ME, NAMEPART AIndustrial law in BangladeSh-various legislation affecting labour; FactoriesActs: Industrial relations; ordinance; Payment of wages; Legislation regar-ding employment in industry, agriculture, mines.

PART )3Role of government in economic development, the welfare state, economicplanning. planned and unplanned economy,. features of a,plan; Forms ofplann ing- Total and partial, structural and functional, centralised and decen-tralised ; Planning by direction and .planning . by inducement. Financing ofeconomic plan, taxation, borrowi ng, deficit financing, objectives of pla-nning in Bangladesh. First five year plan of Bangladesh.Price-c ost-volume relationship. Computation of break-even. point. Budge-ting and budgetary control; How: to forecast, preparation of sales and pro-duction budgets. Standarad costing; Computation of cost variances, com-putation of sales variances. Opportunity cost. Joi nts and by-productscosts.

SUET

Hum 303 Development EconomBCS and Accounts2 hours per week 200 marksPART Ai

Economics of underdevelopment, interdependence of developed and under-developed e.conomics, necessity of economic deve lopment ; Underdevelopedeconomics, characteristics, vicious circle of poverty; The meaning of eccnomicdev,elop:nent, the stages of economic growth, determinants of economic grow-th' economic factor, non-economic factor: Strategy of economic develop-ment, big push balanced, unbalanced big push; balanced vs un-balancedgrowth, Investment criteria, marginal social producti vity, capital output ratio.Basic Accounting principles, different kinds of cheques, costing; elements of'cost, accounting for direct and indirect costs, inventory contro I, sto resrecords, Overhead allocation. Preparation of cost sheets and statement.

96

j, 'iI

if.' ,, .

fi

1-,•

PAFn BWorkman's compensation Act: Labour policy. of tha State; ILO and otherinrernational body affecting labour welfare; Employment of labour (Standingorder); Trade union; Employment in shops and establishment.

SociologyPART AScope. Social evolution and techniques of production. Culture and civi-I ization. Social structure of Bangladesh, population and worid rasources,Oriental and occidental societies; Industri~1 revolution.

PART BFamihy---:Urbanizationand industrialisat!on. Urban ecology. cQ-operative and

socialist movements. Rura I sociology.AccountsPART ABasic Accounting' principles, Different kinds of cheque, costing; Elements ofcost, Accounting for direct and indirect costs. Inventory control and stOl'esrecords. Overhead allocation, Prepartion of cost and statements, .

PARi BPrice-cast-volume relationships, computation of break-even point. Budge-ting and budgetary control; How' to forecast. Preparation ()f sales and pro-duction budgets. Standard costing; computation- of cost variances, compu-.tation of sales variances. Opportunity costs, Joint and by-products costs.

_Hum 307 Industrial Management and Government2 hours per week 200 marksI r.'dustrial ManagementRoART AAuthority and responsibi lity : .Scientific manag~ment and organisation; -Timeand mot ion study, Organisation structure; Principles and types of organisa-tion, span of control; Policies and planning; Management and decision making;Learning curve. Analytica I methods in management; Linear program.ming;Waiting line, network an~lysis; Arrow diagram and cri tical path; Personnelmanagement; Selection and recruit ment of employees; interview and indoct-rination; Training and its types; Industrial re'.ations. Wage and salary admi-nistration; Job evaluation and merit rating. Statistical quality control.

PART BPlail 'layout: Lavout of physical facilities; Transportation and storages;Mate.rial handling, Maintenance; Maintenance polocy, planning -and controlofm.:sinten.anceaction,. Tu.rn-i'ound or stand-by machine..Forecasting; Uti~ityand technlques; Coordmatlonbetween sales and manufacturmg; Manufacturmgeconomics. Purchasing procedure; inventory control; Usefulness and methodsof control; Economic lot size and re-order po into Sales-~rganisation and

97Calendar

\i:

IIIII\

II1\ii

'""-; I

!

II: I

iI.I 't )'

promotion; Measures of performance-Me_asurement and analytical problemof 'productivity. Cost of management and industri al reorganisation.' Marke'ting and procurement function in an organ isation.GovernmentPART A

Some basic concepts of Government and policies. Functions, organs, andforms of modern State an,d Government; Socialism; Fascism, Marxism, U.N.O.PART B

Government and politics of Bangladesh. Some major administrative systemsof developed countries. Local self-government.

HUM 309 Economics and Development Economics2 hours per week 200 marksFor Third year ChEPART A

Micro-economics and N!acro-economics. Nature of an economic, theory~applicability of economic theories to the problems of developing countries. I

Some basic concepts-demand, supply and their elasticities. Equilibrium-'Con-:sumer's equilibrium-indifference curve analysis, producer's equilibrium-iso-quant. Production-Factors of production, Production function, Forms ofproductivity, Rational region of production, profit maximisation. Equilibriumoffirm, the short run and the Long run. Fixed cost 'a'nd variab Ie cost. Theconcept of optimization, least cost input combination. Internal and externaleconomies and disec)nomies. Economics of deve lopment planning, basicconcepts-saving, investment, GNP, NNP, GDP, per capita income. Inflation,Policy instuments of development-Monetary policy, fiscal policy and trade-policy-their relative applicability in BangJ9desh. Some planning tools-capitaloutput ratio, input-output analysis.

PARr BEC:::>,nomicsof underdevelopment. Interdependence of developed and under,:,developed economics. Necessity of economic. development; underdevelopedeconomics"'characteristics, vicious circle of poverty. The me aning of econo-mic development. The'stages of econ:>mic growth. Determinants of econo-mic growth; Economic factor, Non-economic factor, strategy of economicdeveloom ent. Big push, balanced and unb31ancedgrowth. Investment crite-ria. Role of Government in economic d3ve!opm9nt. Economic '\planning, plan-ned and unplanned economic plan, features of a plan; Forms of planning-Total arid partial, structural and function ai, centralised and decentral ised;Planning by direction and planning of inducement. Financing of economicplan, taxation, borrowing; defficit financing, objectives of planning inBangladesh. First Five year plan of Bangladesh. Two year plan ' and

98 BUET

\

!1.1•

second five year pian of Banladesh. Nature and features of Bangladesheconomic development. Develooment problems related to agr iculture,

industry and population of Bangladesh.

Hum 313 I ndustrial Law, Sociology and Accounts

3 hours per week 300 marksFor Third year MetE.

Industrial law

PART AIndustrial law in Bangladesh-various legislation affecting labour; FactoriesActs: Industrial relations; ordinance; Payment of wages; legislation regar-

ding employment in industry, agriculture, mines.

PART BWorkman's compensation Act: Labour policy of tha State; ILO and otherinrernational body affecting labour welfar~; 'Employment of labour (Standingorder); Trade union; Employment in shops and establishment.

., .J- ,r.',...:.....I.r~,i, "

, '

Ii.,,. "

Sociology

PART AScope. Social evolution and techniques of production.I ization. Social structure of Bangladesh, population andOriental and occidental societies; Industrial revolution.

Cultureworld

and civi-resources,

PART BFamily-U rbaniza Iion and indusl ria Iisal ion. Urba"ec a Ia gy, co -oper al ive and

socialist movements. RuraI sociology.

Accounts

• '1

:t t; "

P'ART ABasic Accounting principles, Different kinds of cheque, costil)g;cost, Accounting for direct and indirect costs. Inventory controlrecords. Overhead allocation, Prepartion of cost and statements,

Elements ofand stores

PART BPrice-cast-volume relationships, computation of break-even point. Budge-ting .and budgetary control; How to forecasl. Prepa,ation of sales and p,o-duction budgets. Standard costing; computation, of cost variances, compu-tation of sales variances. Opporlunity costs, Joint and by-products costs.

99Calendar

! •

Philosophy

Nature of philosophic I nquiry, relationship of phi losophy to religion, science,history, politics and education.

- I- i

I

••

SUET

Thought; propositions, Syllo-\

Hum 411 Logic and Philosophy2 hours per week 200 marksFor Fourth year Arch;

logic_Introduction to inductive and deductive logic,- grams. Fallacies, cause, hypothesis, analogy.

Hum 516 Accounting1 hou~per week 100 marksFor Fifth year Arch.PART A

Different kinds of cheques, Costing; Elements of costs, Direct and indirectcosts. Accounting for direct -and indiract costs. Stores procedure, inventorycontrol. Overheads allocation. Cost sheet.

PART B

Break-even analysis. Construction accounting, Budgeting and budgetary con-trol. Standard costs-Computati.on of cost variances.Planning in construction industry-Production Planning. Pre--tender planning.Contract planning, Detailed planning, control, Schedul ing. Use of sta tisticaland other tools in construction industryProject management, Network analysis, origin and recent development, Arrow-diagram, Critical path method, PERT, Allocation of resources.Const ruction Management, its nature and scope, climate and the Architectorganisation of construction firm, Control of construction cost, operations,Control Techniques, Gantt chart, operations planning, its fundamentals.Appraisal of results, various methods of appraisal.Operations Research, nature and significance, the techniques of or Allocationsampling Replacement.

100

Inventory control, nature and significance, Types of inventory, economicorder quantity, re-order point, safety stock.Waiting - fine or queueing theory-nature- and utility line models. problems onwaiting line.

linear programming, basic concept and use in business, Algebraic and Sim-plex method of Linear programming, some elementary problems on line~rprogramming.

Bidding and subcontracting, Use of various quantitative tools in the field ofmanagement. .

... ;',

.,"'1

I

1!,

Department of Urban and RegionaI Planning

POSTGRADUATE COURSESNote: The three numbers immediately after the ti tie ofshow (a) Lecture. hours per week; (b) Studio or sessionalweek and (c) Number of credit, respectively.

the coursehours pel'

PIail 6001 Human Settlement & land Economics 2-0-2

Concern of economics, e.g., resources and wants, economics for planners,'the need;- Nature and. type of eonomic analysis viz., market mechanism,micro vs. macro economics. Theory of consumer's demand. Theory of pro-duction, scale of production, internal/external economies/diseconomies, pro-duction function, returns to scale, efficiency of resource allocation, and pro-duct pricing under different market situations. Nature of cost and costcurves. Theory of distribut ion, e. g. rent for land, wages for labour, interes tfor capital and profit. Macro-econom ics, national income, theory of income

and employment.Welfare 'economics, economics of environment-externality; Internationaltrade, public finance, budget, and municipal finance.

Factors determining the nature, form and characters of human settlements indifferent historical periods. Human ecological process. Basic concepts andtheories of urban ecology; Ecology and changing spatial pattern, Theoriesof urban growth, structure and landuse pattern. The rural urban fringe.The size, distribution, spacing and historical o.rders of urban settlements.

Economics of urban izat ion.Space and the context of land and land economics compon ents or urban andrural land use: Physical. economi c and insti tutional characteristics of urbanIand. Urban land-income, value and price. Determinants of urban Iand valueand use. Imperfections in urban land market and planning policies. Rural

land use market, pricing and use.

I

III

Plan 6002: Economics for Planners 2-0-2

"I'i

,Ij

1

III!11'I

Plan 6003 : Planning Process and Theories 2-0-2

Fundamer.tal aspects of planni ng as a general human endeavour-planningas a subject of study and as a professional activity; Considerations of theneed for planning and possible scope of planning activity; The role ofurban and regional planning and its relationsh ip with the general theory and

\ 'process of planning; Urban and regional plann ing the local and strategic- ,;:.....

Calendar101

levels; Practical limitatiansand typical practice dilemmas, their causes andpassible resalutian; Gradual develapment 'of ideas and cancepts towards astandard bady af planning knawledge and dactrine,

Cantemporary canceptians, methods and techniques used in plan preparatian,palicy farmulatian and implementation in view af the requirments af plan-ingas a cantinuous pracess; Th9 plan making pracess; Planning pracessand Decision theory.

,j

'1Plan 6004 : Urban Planning 2-0-2

The shape, size and spatial structure af cities and towns. Campanent af ur-ban la nd uSfls-residential, cammercia!, industrial, recreatianal, institutiana I,urban periphery and circulat ion system. Spatial arganisatian af residential,cammercial, industrial and recreatianal areas. Planning and design conside-ratians far develapment and redevelapment af tawn centre; Neighbaurhaad,apen space and industrial estates.

\I,,

,1 1rI!1

It

.!

{,

BUET

2-0-2Plan 6006 Regional Planning

102

The meaning o.f rural develapment. Rural develapment and structural trans-farmatian-theary. The rural develapment in the fifties-in Indian' sub-canti-nent: Bangladesh, India, Nepal, Sri Lanka. The rural develapment pragrammesand pro.jects in sixties and seventies-including internatiana I experiences.Rural devalapment in Banladesh aantext; Ca-aperatives, Camilla Model,Gram Sarker. Shawnirvar mavement etc. The rale af Planning Cammissian,Ministry af LGRD. IRDP, BADe, Jatiya Samabaya Bank, Internatianal Agen-cies. Develapment af rural infrastructure, institutians and services. Develap.ment af rural cammunities. Pracess af rural planning-issues and strategies.

Plan 6005- : Rural Develapment Planning

Definitian af regian and regionalism. The nature af regians. The factarsdetermining a regian. The influence af natura I and cultural elements anregi onal develapment ; climate, tapagraph ical and 'geagraphica I canditians,papulat ian, land use, agriculture, industry, pawer and transpartatian,resaurce and sail canditions. City and regian; Urban and rural settlements-trends and character istics of develapment.

Regianal ecanamy and regianal arder. Ecanamic devalopment vs. tegiana Igrowth. Regianal distributian af public investment-dispersial vs. cancen-tratian; balance vs. imbalance; Grawth vs. welfare. Examinatian afresaurce endawment and regianal grawth. Export activities and residentiaryactivities. The ecanamic base af cities; the' basic and nan-basic cancept.

.'

;

f

,I

I

.\!

, \

. I

Plan 6010 PlarinirigAdministration, Implementation and ManagementProcess I 2-0-2

The organisation and function of planning. agencies at differen~ levels ofgovernment. The comp lex questions of inter-sectoral co-ordination bottl..in .planning and implementation. Aspects of implementatidn ' and.~ 'institutionalcapability-legal, financial, manpower and ct!J;l~r. Legal aspects of planning.,

Functional requi rement and inter relationship of aII means for the movementof people and goods as they affect the physical pattern of the community;Characteristics of the different modes of transportation~road, rail; water andai,'r; Choice of mode of transportation; Modes of transportation in Bangladeshand scope of their future. development; The problems of public transporta-tion at national, regional and local levels ( in Bangladesh) and considera-tions for their development; The transport planning process at urban andnatio nal level; Roadway capacity ; Traffic management techniques.

statistical data collection; Presentation of data; Measures of centra~tendency and dispersion; Graphic.al representation of statistica I , fa~ls ;.Elementary Probability; Probab ility density function and distributions~The Binomial Distribution; The Normal distribution; The Chi-Square distri-bution; Student's t distribution; Elements of sampling theory; Statisticaldecision theory for large and small samples; Simple linear regression andcorrelation ; population projecti on; Forecasting techniques.

Introduction to multivariate analysis; Introduction to digital computation;FORTRAN programming; Introduction to packages for planning analysis.

1~3-2;

2-0-2

2-0-2

Plan 6009 Housing and Community Development

Definition of housing-its influence on man, society and environment. Factorsint luencing housing situation. Evaluation of housing. problems genera Iproblems of housing in Bangladesh-specific problems of private enterprise,government and consumer; Evaluation of social, economic, design, adminis-trative and political problems. Housing policies in developed and developingcountries-policy goa Is, policy methods, strategies and policy instruments.Housing standards, house ownersh ip, limd values, ta.xation on house pro-perty, Finance for housing-Financing problems, sources of finance,:,mobilisa-tion of resource for housing. The role of housing in promoting social inte-

I

gratian; socia I programming of housing in urban areas.

Plan 6008 Transportation Planning

Plan 6007 Quantitative Techniques in Plannin 9 Analysis

1-;• J:1

'II -I

1"'i

'If1

1f

I1

Calendar

Plan 6011 Project Evaluation and Management Techniques 1-3.2

\

Plan 6103 Housing and Site planning 2-0-2

Cost components of housing; potential areas for housing cos t reduction.Housing density-building height and land sav ing relationship. Basics ofhousing management. Estimating housing needs, Prine iples of housing desig.n

Hierarchy of urban circulation system; concept of environmental areas andplanning of envi ronmental areas_free from traffic nuisance. The urban rene-wal process; Methods of urban renewal and central area redevelopment,Planning of industrial e~tates; townships, satellite town, new town arid townexpansion. Theories dealing with current planning problems-characteristic ofthe large city including traffic, transportation, redevelopment, recreation andproblem arising in sub-urban areas adjacent to cities and arterial highways.

\.

BUET

2-0-2Plan 6101. Urban planning II

104

Preparation of projects; Purpose of Project evaluation; Economic vs.Financial eval uation. Private VS. social costs and benefits-concept of Cost-benefit Analysis; Problems of identifica tion categorisat ion, quantificationand evaluation of cos ts and beneti ts; The welfare basis of cost-benefitanalysis-Consumers surplus, producers surplus, Pareto criterion, traster pay-ments. shadow prici ng, equityproblem; Basis of project selection-Financialcriteria, discounted cash flow techniques, choice of. discount rate and 50-

ciaitillle preference; Selection criteria, ranking rules, deferment criteria,Dealing with risk and uncertainty; Treatment of income distribution and,inequalities; workshop on praject evaluatian. Introductisn to critical PathAnalysis Techniques.

Plan 6102 Urban Design 2-0-2The role of plan organisation; spatial relations; symbol scale; view, move-ment, panorama, light, colour, shade and details; Composition, scale, pro-

, .

portion, harmony and cont rast in the creation of urban spaces, building9 YOUPS and building facades.

Principles and techniqeus fOJ the design of the city environment,. with spe-cial attention to its perceptual form. Development of the form of urbanenvironment-. influence of utopian and ideal concepts. The relation betweencity form and commuuity objectives; the visual plan as part of the totalplanning process. Basic design principl~s of space, scale and circulationapplied to the physical pattern of cities.~

I

and layout. Building codes; building regulations. Problems emphasing physi-cal development of specific sites involving population densities, public uti

e

lities, traffic, buildi ng groupirg, land use c ircu lation planning and site

engineering.

Plann 6106 Low-income Housing and Settlement 1-0-2

Structural and functional analysis of low-incomes seUlement. The basicproblem factors of low-income housing. Limitation of current. developmentpo~ies .. MythS of high-rise .. Low-incomes housing policy. The sites andservices scheme-its planning, design and implications.

2-0-2Plan 6104 Physical Infrastructure Planning (Urban &. Rural)

The systematic approach to planning of basic utilitjes water systems, sewe-raga and land drainage, and roads. The urban and 'regional road pattern; Thevarious types of roads and structures th eir alignment, width. gradient,construction and layout; Road capacities; The planning and ,design of roadand road junctions; Derivation of design standards from traffic considera-tions; Parking standards, systems, pGlicies~ and control.Rural and urban water supply s~werage, sewage disposal and land dra:nage.Other utilities such as electricity, gas etc. and their relationship with gene-

ral development.

Plan 6105 Planning Administration Implementation and Manage-ment Process II 2-0 ..2

Enabling legislation ; Eminent Domain ; Police Power. Planning adm inistra-. tion and Laws in UK. and other advanced countries. Development plans.The meaning of development. 'The control of development inc luding plann-ing permission, development orde rs, special forms of control. The enforce-ment of planning controls. Purchase notices. New Towns development.Compensation and betterment problems including compensations for restric-tion on urban development and urban renewal practice.f.~;

!!('

L

I

J

IIII 1IJ\"

'J"I,I l'I .I

I ~I:t" ~I

I",i,II

105

Plan. 6107 Transport Economics 2-0-2General consideration of economic theories in the field of transportation;Costing and pricing principles and policies for the different modes of trans-portation; Economics of public transportation; Forecasting techniques.Transport project appraisal with special reference to evaluation of ,the

intangible effects.Plan 6108 Systems Analysis in Urban & Regional Planning 2-0-2

Introduction to system approach; Society as a system; Urban, Rural andRegional system; Need for systems analysis in planning; Planning goal

, i

, ,'J

Calendear

Li

and systems structure; The systemic planning process. Planning in 'theGbntrol of complex systems; System simulation-modelling system guidane,e:;control, and review.

Plan 6109 Quantitative Techniques in Planning Analysis 0-6-2

fI

: [ ,

/.....••. "

I,'\

iI',,,,'i', . ,:H:I.,

, iI

"::i"l 'I

Demographic rate and ratio; Population theories and projection and censusstudy. Sampling techniques; Random and stratified sampling. Estimationof mean, proportion, their standard errors. Urban and rural demographicpattern in Bangladesh. General ideas about different stages of survey ope-tation. Extraction of data from different official records and publications;Breparation of forms for recording data. Acquantance with contents ofimportant statisca I publication of Bangladesh ,and the United Nations.Introduction to different types of mathematical curves and areas under curvesin cartisan and polar co-ordinates.

Plan 6110 Special Studies 2-0-2Individual studies on special topics related to the area of specialisation.

Plan 6111 Environmental Planning 2-0-2Bio-ecological perspective of man and modern society; Man's role andimpact on the natural environment; Development of a generalite'dDfrctmeworkfor the appl ication of basic ecological theory and principles of environmentmanagement and planning; Policy issues related to planning the envi ro n-ment including economics of environmental management.

Plan 6112 Operations Research in Urban and Regional' Systems2-0-2

Treatment of uncertainties in plann ing and forecasts; Techniqu~s for ana-lysing interconnected policy decision areas; Optimization techniques in thedecision making' process; ~ystem behaviour; Mathema~ical Programme;[Basic principles and techniques of simulation.

Survey, analysis and design methods and practices in comprehensive plann-ing ; Land use, circulation and other components of the city or me tropoli-tan general plan; Relationship of planning to implementation techniques,u;»ning, urban renewal etc.

'-"plan 6114 Studio: Housing and Area Planning Technique 0-6-2

Practical application of theoretical principles for the dev~lopi11ent ofhousing projects. Problems emphasizing physical development of specifict;ites involving population densities, public util ities, street. patterns,,~uild'i'~,g;'grouping, land use, site engineering, architectural forrrl~':' gardening

Plan 6113 Stud io : Urban Planning Technique

.106'.

Bt)TE

Plan 6124 Studio: Rural Planning Technique 0-6-2practical application 01 theoretical principles lor tha development 01 ruralcommunities. Planning and development 01 ';Irban villages,

Calendar 107

Plan 8123 Studio: Regional Planning TechnIque 0-8-2GroUP projects regarding the physical planni ng 01 the region. Work willinclude lie Id research, design analysis. and presentation 01 workable recom-mendation as to appropriate obiectives and actions for solutions,

Plan 6122 Economics of population Growth 2-0-2Economic approach to population policy. Emphasis on effects 01 pOpUlationgrowth on problems 01 underdeveloped countries. The welfare economies ofpopulation growth and economic variables (e.g. population growth andconsumption. savings. investment. employment and economic growth andits distributive effect). population growth and urbanization. The conceptof urbanization and its process 01 development. Rural.urban problem of

migration and settlement management.

Plan 6121 Rural Development Plann ing 1\ 2-0-2

Part I: political Economy of Rural DevelopmentThe political System as they relate to the development planning of ruralare~s. special attention will be paid to political constraints. Will explore thepurposes and methods of introducing change.

Part I I: Decision making for Rural Economic DevelopmentEmphasis on the application of decision making technique to the evaluationof alternative investment projects and the design of broad sectoral policies.DiSCussion on the theory of cost-benefit analysis. project appraisal andrelated decision making tools; primary focuS on a series of case studieswhich will require students to derive necessary parameters from a body 01data representative of Bangladesh context which allow lor the evaluation

of investment opportunities.

Plan 6120 Regional Development Planning and Resource Use. 2-0-2

Theo,ies and p,inciples of ,esou,ce use and thei, limitation in ,egional

developmant, Human and non-human ,esou,ces. Movable and immovable,esou,ces. Changes in the concept of ,esources and thei, uses. p,oblemsof ,esou,ce allocation and efficient distribution of activities. Review ofresource use po Iicy in the U.S.A.. U.K. and some develop ing countries with

special emphasis on Bangladesh.

and la ndscapi ng. p, obi ems de aIin9 wlih ne ighbou' hoo d st ,uct u 'e. co mmunitv

facilities'and urban renewaL

.(

lf

Ij1

l'

,Plan 6125 Rural Development Planning III 2-0-2

A comperative analysis of Rural Development of Bangladesh, China, ,andother countries.The course will explore the following;

108BUET

2-0-2

-The political system as they relate to the development planning of ruralareas, special attention will be paid to political constraints.Will analyze the factors that contributed to rural development also will, cri.-tically examine the forces, particularly, institutionally, that have shaped ruraldevelopmant.

The process and methods of introduc'ing change and development in relationto,the fol 'ow ing elements;

Rural Development and Structural transformation: Th'3ory.

A critical review of the role of agriculture in the development process.

Methods of Rural'Planning (economic, spatial, politica I and social).Agricultural modernization and the Rural Poor.Rural institutional growth.Growth linkages.

The Political Economy of Rural Development

Plan 6126 Energy Resource and Planning fOr Rural Development 2-0-2

Issu$s in energy development particular'y in the context of rural and agricul-tural development; sources of energy indigenous and non-indigenous; Tech-nological problems and prospect; Policy and distributional issues. Energyplanning in the context of financial, management and institutional aspects.

Plan 6131 Public Finance in Underdeveloped Countries

Plan 8130 Urban and Regional Economics, 2-0-2

Use of the tool of urban and regional economics to ana'yze a number ofurban problems, including housing, transportafion, ,poverty and publicfinance.

'Determinants of regional and metropolitan growth, theories of urban spatialstructure, and the location of firms and household within urban areas.'

The role of public sector in deve'oping countries, with emphasis on resourceallocation, income redistribution, capHal formation and the contro I of infla-tion. Analysis of means of financing economic developmant, includingcapital imports, domestic saving, inflation, deficit financ ing and taxation.

,Plan 6132 Rural/Agricultural Development 2-0-2

Rural development and structural transformation Theory-a critical reviewof theoretical approaches to the role of agricultu re in the development

j

~•l' proec.s. Process 01 rural planning; Issues and strategies; Agriculturalmodernization and the rural poor., industrial growth, Rural growth linkages.

I( Planning and the strategy for growth.

Plan 6133 Agriculture in Economi c Development 2-0-2

The course will present a framework for evaluation rura I and agriculturaldevelopment strategies within the context of national development goals.

Will examine .ources ofagricu Itural productivity. with particular attentionto resource allocation of farms and within technolo~y development institu~tions and other agricultural services. Will explore the roles of farms size,land reform, and price policy, as well as the process of technology adoptionby peasant and non-peasant farms. Concludes with an evaluation 01 variousagricultural strategies and policies with respect to development policy goals.

Calendar

jiI

II

i\..,

I

\

Jij

\1

109

2-0-2

Plan 6135 Water Resource Development Planning 2-0-2

Water Resource Planning in the context of agricultural development parti-cularly HYV. Water conservation for irrigation; Draught management;Appropriate technology for water resource development, linancial. institutio-nal, social as~ects of water planni ng, management and distribution.

Plan 6136 Appropriate Technology and Planning 2-0-2

Appropriate Technology; Basic issues; technology in the national context;in the rural context; appropriate technology and employment generation.

pplicies, financing and technology.

Plan 6137 local Government Finance 2-0-2Basic understanding 01 public linance, monetary and Iiscal policy and ins-titutional set up of Bangladesh. A praGtical introduction to the principlesand practices of local government financial planning will cover Upazilas,

and municipalUies.Sources 01 local government revenue along with relationship between localgovernment taxation, collection, government grants and role ollinancialinstitution s. The politics of the budgetary process reviewed.

continuation of Economic Development, wit h special emphasis on som~.of the major policy issues facing today's less development nations savings,aid, and loreign investment, the role 01 entrepreneurship, role of multi-natio-nals and technical change; the efficiency and location of investment; therole of government planning .and private enterprise; economic growth andthe distribution of income, wealth and political power ..

Plan 6134 Economic Development

Faculty of Civil Engineering

Calendar 111

Department of Civil Engineering

UNDERGRADUATE COURSES

; Coplanar c.oncurrentNon--concurrent. non-Centroids;. Moment ofGraphical Methods.

CE 101 Engineering Mechanics3 hours per week 200 Marks

PART AIntroduction to SI -Units; Resultants and. componentsforces; Moments and parallel cop lanar 'forces;parallel coplanar forces; Non"cophmar forces;inertia of areas; Moment of inertia of masses,

CE 102 Surveying2 weeks field survey 50 marksFor First year ME and NAMETwo weeks field work on different type of surveying.

PART BMaximum and minimum forces; Friction; Flexible chords; Planemotion; Force systems that produce recti linear motion, work, kinetic

energy; Power, impulse and momentum.

CE 100 Civil Engineering Drawing3 hours per week 100 Marks'Introduction-lettering and numbering, heading instrument and their use;Plane Geometry-tri'angle, square, pentagon, hexagon, octagon, circle,

ellipse, parabola, hyperbolaProjection (Solid Geometry)-Iine, square plate, cube, triangular prism,square prism, pentagonal prism, hexagonal prism, pyramid prism, cone,

cylinder.Development-cube, pyramid, cone, prism.Section and True Shape-cube, pyramid, cone, prism.Isometric Drawing-cube, pyramid, cone.Oblique Drawing-cube, pyramid, cone.Interpenetrat ion of Solids.

J -

!

Itf

I,I"

I'j

,,I

.CE 104 Civil Engineering Drawing3 hours every alternate week 50 marksFor First year EE, ChE, ME, and NAME.

Plan. Elevations and section of one story buildings; Plan, Elevations andsections of Multi storied Residential Buildings; Plan and 'section of septictank; Detailed drawing of Roof truss; Plan, elevation and sections ofculvert.

CE 108 Survey PracticaiFor 2 weeks. 50 marksFor First year MetE and EEE

Handling of Instruments

The students \Nill learn . handling of a II types 0 f instruments i$sued to them.They also will check the permanent adjustments and will detect defects (ifany ofTheir'instuments) and will show it to the respective teacher in-charge".

Chain SurveyThe students will select the stations, measure the lines and take the offsetsof different objects in the field.

Theodolite SurveyThe students will measure the included angles and the sides of a'pentagon with the help of a' theodo lite. The bearing, the reducedbearing, the latitude and the departure of all the sides are to be calculated.The-total error should be determined and be adjusted' in tabular form.The students will then calculate the ar.ea within the traverse in acres a~ddecimaIs and also in bighas and kattas.

Plane Table SurveyThe students will plot all the important features of the plot by -intersectionand/or by the radiation method of plane tabl'ing.

LevellingIn levelling, the profila of a6 ch]in Ion:;) stretch of land will be made bytaking readings at 50' interval along the chain line. The cross-sectionwill be taken at 100' interval, 50' or less (depending on site) on eitherside. Staff readings on the cross-section will be taken at an iQterval of25'. The longitudinal profi Ie and the cross-sections will be plotted on a'tracing paper.

Stad ia Survey'Determination of stadia constants and plotting of objects of a smallplot as instructed by the teacher.

112 SUET

J

r11,l,

Height and Distance ProblemThe students -wi \I measure t he height of an object and the spatia~ distancebetween two points by measuring angles with the help of the theodolite.

CE 200 Details of Construction and Estimating3 hour,sper week 100 marks

PART ABrick masonr~ ; Framed structures and bearing walls; Arch3s and lintels;Details of floors and roofs; Pointing; Plastering and interior finishing';Scaffolding; Staging; Shoring and underpiping; Thermal insul ation and

acoustics.

PART BAnalysis of rates ; Detailed estimate of all items of work of a building,

bridge trusS, highway."- ----~-....Specifications. of materials for the above constructions.

CE 201 Surveying3 hours per week 250 marks

113

. P,ART A \Properti'es and uses of bricks, efflorescence, cement, cement chemistry,aggregates, cement and lime mortars, concrete, standard tost of bricks.

PART BTacheometry: Introduction, Principles and problems on tacheometry;Astronomical surveying; Definition; Instruments; Astronomical correc-tions; Systems of time. Photogrammetry: Introduction; Terrestrial photo-grapiw; Aerial photog raphy; Reading-of photo mossaic, scale; Project

surveyi~g ; Errors in surveying Remote sensing.

PART ACalculation of areas and volumes; Reconnaissance survey; Chain survey;Traverse survey; Plane table survey; Levelling and contouring; Problemson heights and distances ; Curves and curve ranging, transition curve, verti-

cal curves.

CE 203 Engineering Materials3:hours per week 250 marks

CE 202 Practical Surveying3 weeks of field work 100 marksField work based on CE 201

, 1

.1ji

C.alendar

"

"

"\ ~,.-.'

cement and concrete, salinity problem in concrete, corrosion and. 1ts pre--~vention, paints, varnishes, metalHc 'coating. ~ .

PART B

Design of concrete mix, atomic structure and bonding; crysta I structures,, mechanical properties, yielding, fracture, elasti city, plasticity, properties anduses of rubber, timber and plastics. Concrete for special purposes. Ferro-

, cement.

"

CE 206 Computer Programming Sessional3 hours every alternate week 50 marksDevelopment of FORTRAN programs and solution of problems using adigital computer.

"j1

'f

:mate-

o \

BUET

lJ"II

1\fIj

Curve-fitting by least; Finite differenc,es;

CE 205 Computer Programming and Numerical Methods in CivilEngineering

2 hours per week 150 marks

PART ABasic components of computer systems; FORTRAN language; Numericalsolution of algebraic and transcendental equations ; Solution of systems oflinear equations;_ Matrices; Interpolation.

PART B

~omputer applications to Civil Engineering problemssquares; Numerical differentiation and, in tegrationNumerical solution of differential equations.

CE 207': Geology and Geomorphology2 hours per week 150 marksPART AMinerals; Identification of minerals. Common rock forming minerals; Phy-sical properties of minerals; Mineraloids Rocks; Types of rocks, cycle, ofrock change; Earthquake and seismic map of Bangladesh.Structural Geology: Faults; Types of faults; Fold and Fo'ld type, ; Domes;Basins-; Erosional process ; Quantitative analysis of erosional land forms.PART BChannel development; Channel widening; Valley shape; Stream terraces;Alluvial flood plains; Deltas and alluvial fans; Channel morphology; Chan-

inel parterns and the river basin; Ge'omorphology of Bangladesh.

CE 211 Mechanics of Materials3 hOUrsper week (1 hour tutorial) 250 marksPART A

Fundamental concepts of stress and strain Mechanical properties of

114

,.

irjj"II

!,111d/Iti

,

II

, '~. ,._.J" .•••.__ ..;~_ ••••.•••••-..:=.._._=---=....::..::.:... ~=~~""""'!!!''-g'!!!l ..~.~----------------------

Analysis of forces. stress and strain; Mechanical propertiesAllowable stresses; Stresses in the pressure vesseIs; Tor-in circular shafts and circular beams.

PART BTorsional stresses in shafts ; "elical springs; thin pressure. containers;principal stresses; deflection of beams; columns; unsymmetrical bending.

determinate

115

Compression test oftest; Statrc bending

. /

Calendar

CE 226 Mechanics of Materials Sessional3 hours every alternate week 50 marksFor Second year EEETension test and impact test of mild stael specim3n;timber specimen; - Direct shear test; Slender columntest; Hardness test of metals; He! iCl'1 spring test.'

CE 225 Mechanics of Materials2 hours per week 150 marksFor Second year EEEPART AIntroduction :of Materials;sional stressesPART BShear force and bending moment diagrams for statically

structures.

CE 214 Concrete Sessional3 hours every alternate week 50 marksGeneral discussion on preparation and properties of, concrete. Test for spe-cific gravity, Unit weight, Moisture content and absorption of coarse and fineaggregates; Normal' consistency and initial satting tima of cement; Directtensile and compressive strengths of cement mortar; Gradation of coarseand fine aggregates; Design and testing of a concrete mix.

CE 212 Structural Mechanics and Materials Sessional( Strength of Materials Sessional)

3 hours every alternate week 50 marksFor Second year CE and NAMETension. direct shear and impact tests of mi Id steel specimen ;'" Compressiontest of timber specimen. slender column test; Static--bending test; Hardness

test of metals; ,HeIical spring tests.

dais.; Stresses and strains in members subjected to tension, compression.shear and temperature changes; Rivetted and welded joints; Bendingmoment and shear force diagrams; Ffexural and shearing st resses in beams;

Shear centre.

CE 229 Structure II

SUET116 .

CE 313 Reinforced Concrete3 hours per week 300 marks

PART AFundamental behaviour of reinforced concrete; introduction to WSD an'dUSD methods; Analysis and design of sinl!Y reinforcej DO'Jbly reinforced

CE 3.12 Structural Analysis and Design' Sas.sional

3 hours every alternate week 5.0 marksAnalysis and design problems on CE 311 ; Design of membQrs and connectionof steel structures; 'e.g. trusses and plate girders ..

CE 311 Structural Analysis and Design3 hours per week 300 marks

PART AStability and daterminancy. of structures; Analysis of sta~icany determinateframes, trusses and arches; Influence lines; Moving loads on beams, framesand trusses.

CE 231 Plumbing1 hour p~r:._week 100 marksFo,r Second year Arch .

Water supply in buildings, drainage and sewage disposal.-..

,

2 hours per week 200 marksFor second year' Arch.Force, Equilibrium, Coplanar concurrent force system, coplanar parallelforce system, coplanar non-concurrent non-parallel force system; Free bodydiagrams; Introduction to simply supported ,beamsand, frames, calcu lationof bar force for simple trusses,' shear force and bending moment. Intra-,'duction to shear force and bending moment diag rams; Maximum and mini-mum forces; Centroids of lines, simple areas, composite areas and vo-lumes; Theorem of Pappus and Guldinus, Radius of gyration; Cent re of.pressure; Moments of inertia of simple and composite areas, Product ofiner.-tia. ,Moments of inertia of masses; Noncoplanar forces:

,PART B, Wind and earthquake loads; Approximate analysis of statically indeterminatestructures, e.g. bracad trusses, portal frames and multi storied building fra-me$; Deflection of trusses and beams by vario,us. methods: Space trusses;Cables and simple cable supported structures.

•[ .

iI,

I1

I

I

II'I

tII

Ir.'

.,";..~I

1j'1j,

..•. r

jiI!,'j 'JI 'I1-:1F';, ..:;! "

LrlI, ';

, .t .1.:;',.•....:a-:'

and T.beams according to WSD and USD methods; Diagonal tension; Bendand anchorage according to WSD and USD methods.

PART BColumns; Footings; Two-way slabs; Retaining walls,'

CE 314 Reinf arced Concrete Sessional'3 hours every alternate week 50 marksAn~lysis and design problems based on CE 313 ; De3ign of a slab bridge,simple girder bridge and a low-rise building.

CE 320 Strength of Materials Sessional3 hour~ every al temate week 50 marksFor third y-ea-rNAMEModel tests on bending of unsymmetrical sections; Location of shearcentres; Strain measurement techniques; Strength of riveted and welded

._'-connections; Mode I analysis of a truss.

CE 329 Structure III2 hours per week 200 marksFor Third year Arch.Fundamental concepts of strength of materials; stresses and strains in mem-bers subjected to tension, co mpression, shear and temperature changes. Shearforce and bending moment diagrams for statically determinate structures,Space frame works; Flexural and shearing stresses in beams.Double Integration and Are a- Moment methods of finding slopes and deflec-tions in statically determinate beams; Indeter minate beams analysis; Buck-

ling of slender columns; Principal stresses.

. CE 331 Environmental Eng ineering3 hours per week, 300 marks

PART AWater Supply Engineering : Introduction, .population prediction and waterrequirements; Ground and surface water sources, collection, and t ransporta-tion; Pumps and pumping machinery; Water quality," plain sedimentation,sedimentation with coagulation, filtration, disinfection and im iscellaneouswater treatment. methods; Water distribution.

PART BSewerage Engineering: Introduction, Character'istics of sewage, Sewersystem, Design of sewer, Sewer appurtanances, ! Sewer construction andmaintenance, Plumbing, physical, chemical and biological treatment ofsewage; Sewage disposal siudge treatment and disposal, Sewage treatmentand disposal at unsewerad areas; Rurat sanitation programme in Bangladesh.

Calendar 117

1'j

"

J1Ilf ,I

I1.'

. ..• ~".

CE 332' Environmental Engineering Sessional3 hours e'lery alternate week 50 marks

Physical, chemica I and bacteriological tests of water and sewage based onCE 331. Design of water treatment plants.

CE 341 Geotechnical Engineering3 hours per waek 300 marks

PART A

Identification and classification of soils; Soi I grain and aggregate proper-ties; Wefght-volume and moisture-density relationship; Soil structure and con-sistency ; Stress-strain ; ,Characteristics of soi Is; Permeability; Seepage;Capillarity, and flownets; Hydraulic and consolidation properties; Principlesof total and effective stress; Method of soil exploration and sampling; Dire~ct measurement of consistency and relative density; Correlation of strengthparameters with N-values ; Field exploration and exploratory" programmes,

PART B

Earth pressure; Stress distribution and settlement computation; Slope stabi-.Iity; Searing capacity and settlement.Various types of founda tion ; Factors determining type of foundation; Faun-dation3 on clay, sand, silt and non-uniform deposits.

CE 342 Geotechnical Engine'ering Sessional~ hours every alternate, week 50 marksStandard. tests based on CE 341 .

CE 351 Transportation Engineering3 hours per week 300 marks

PART AElements of transportation system; Considerations in the planning, financingand development of transportation system with special reference to Bangla-desh. Highway materials and bituminous mix design.Railways: General requirement, alignment, permanent way, station andyards, signalling points and crossings,' maintenance.

PART BHighways: Highway types. geom9t ric design of highways; Design, cons-truction and maintenance of pavements; Brick and block pavemen~s. Waterways and te'rminals ; Airways and airports.

CE 352 Transportation Engineering Sessional3 hours every alternate week, 50 marks

Tests on bituminous materials, Tests on subgrade; subbase and base mate-rials; Mix design.

f,I

!

118 eUET

119

-f'

"

\

1I 'j(1III

l ~'i

v'Ii ;

j.

~.-.

CE 400 Project and Thesis

6 hours per week 200 marksExperimental and theoretical investigation of various topics in structuralengineering, concrete technology, env ironmenta I engineering, transportat ionengineering and geotechnical engineering. Individual or group study of oneor more topics from any of the above fields. The students will be requiredtc submit thesislproject report at the end of the work.

CE 401 Project Planning and Management

2 hours per week 200 marks

PART APrinciples of management; Principles _of c'onstruction management; Con-tract and specification; construction planning and scheduling: PERT, CPM,Case studies, Resource scheduling; PERT: A cost accounting system. Linear

programming.

PART BPsychology in administration; Materials Management; Demand forecasting;

Inventory cont!ol ; Stores management; Procurement.Project Planning evaluation; FeasibiIity reports, Cash flow, Pay back period,Internal Rate of Return. Benefit-cost r~tio, Construction equipments and

plants.,

CE 411 Structural AnalysiS and Desig-n II

3 hours per week 300 marks

PART AAnalysis of statically indererminate structures by displacement method:slope deflection, moment distribution. Stiffness matrix; member stiffness;Stiffness transformations, assembly of stiffness matrices and solution for

beams. frames and plane trusses.

_PART BAnalysis ot statically indeterminate structures (Plane frames, trusses, grids)by method of consistent deformation; Flexibi lity matrix.Column Analogy method. Infbence I ines for statically' ind~terminate beams.

frames, arches andgJids.Structural forms and their applications.

CE 412 Structural Analysis 'and Design Sessional

, 3 hours every alternate week 50 marksDesign of various reinforced concrete structures, e.g. cantilev$r bridge and

multistoried building.

Calendar

CE 413 Structural Analysis and Design i I ~3 hours per week 300 marks'PART AEnergy theorems and their appl ications to structural analysis ; f ntraductionto plastic design of steel structures; Fundamentals of structural dynamics;Introduction to theory of elasticity.PART BIntroduction to elastic instability of structures; Analyses of thin plates,membrane shells and 'folded pi ates.

CE 415 Structural Analysis and Design IV3 hours per week 300 marksPART A. Prestressed concretes: Mat erials, prestressing systems; Loss of prestress;Analysis of sections for flexure; Shear, bond and bearing; Beam deflec-tions and cable layou-t ; Partial prestress. Reinforced concrete floor androof systems.PART BDesign of prestressed sections for flexure, shear, bond and bearing: Struc-tural systems for all buildings; Yield line method; Review of codes.

CE 416 Structural Analysis and Desi.gn Sessional3 hours every alternate week 50 marksDesign of various reinforced concrete structures, e.g. water tower, rigidframe bridge, folded p late roof.

CE 429 Structure IV. 2 hours per week 200 marksFor Fourth year Arch.Different types of trusses. Wind load analysis and static load analysisfor truss. Design of truss sections'. Influence lines for beams andframes. Fundamentals of Reinforced Concrete members~ Beams-SinglyReinforced, Doubly Reinforced and T-beam, Analysis and design of one-wayslabs. Design of columns and footings.

CE 431 Environmental Engineering II3 hours per waek 300 marksPART AImpurities in ground and surface waters; Water quality' standa rds; Basicprinciples and unit operations of water treatment; Planning and design ofcomplete water supply system; Industrial water supply' Plumbing- of mul~tistoried building. 'PART BMicrobiology of sewage and waste water; Chemical and bio logical unitprocessess in, waste water treatment; Sewage treatment in tropical120 BUET

\

\\

CE 434 Environmental Engineering Sessional3 hours every alternate week 50 marksAnalysis of air. wa!er. waste water and solid waste based- on C£ 431 and

CE 433. - -

CE 433 Environmental Engineer ing III

2 hours per week 200 marks

PART ACollection. treatment. and disposal of solid waste Recycling of wasfe;

Air pollution ; Soil pollution.

,PART '~Water pollution and its control; pollution problems in Bangladesh pollu-

tion control programme and legislation.

:J,J ', climate; Treatment of industrial waste. Design of collection, tre.tment, and disposal hcilities for sewage and industrial effluent; Environmental

, ; . .'1 sanlt~tlon.~

, ".., '

Calendar

121

CE 444 Geotechnical Engineering sessional

3 hours every alternate week 50 marksStandard tests and design of foundations based on CE 441 and CE 443.

CE 443 Geotechnical Engineering I I'

2 hours per week 200 marks

PART AStress deformation and failure of soil masses. Principle of effective andtotal stress measurement of soil suction. One. twO and three dimensionalconsol.idation problem; pore pressure coefficients. stress path method in

soil mechanics.PART', BSoil structure. inter.action. Foundation failure case' studies. soil liquefaction.soil improvement; Numerical solution of problems using a .digit,1 computer.

CE 441 Geotechnical Enineering I I3 hours per week 300 marks

PART ADesign and Coristruction of footings. rafts and piles; Foundation for Struc'ture. 'subjected to lateral loads; Retaining walls and abutments. Opera'tion and methods of construction. dewatering and slurry-wall construction.

PART B.Flexible earth retaining structures. sheet piles. cofferdams. Caissons:Machine foundations-elementary vibrations. shear modulus' and elastic cons'

tants, foundation design for vibration.

I~ .1" :!

~ '.. ~:;. 1

\ .,;- ;

.,'

;r'.-;

CE 451 Transportation Engineerng II3 hours per week 300 marks

PART ADesign, construction and maintenance of flexible pavements, highway sub-grade, subbase and base courses; Soil stabilization and so il aggregates inroad constructions.

PART BDesign, construction and maintenance of rigid pavement; Planning anddesign of airp::>rts.

CE 453 Transportation Engineering III2 hours per week 200 marksPART A

Highway planning and surveys, economic evaluation of highway with refe-- --~.- _ .. _.rence to Bang ladesh. Highway drainage and drainage structures.

PART BGeometric design of highways: Design controls and criteria, elements ofde,sign, Cross-sec.tion elements, road intersections. Traffic engi neering :Vehicle and traffic characteristics, traffic cont rol devic€s, traffic studies,-parking and roadway light ing.

CE 454 Transportation Engineering Sessional3 hours every alternate week 50 marks .'

Design of rigid and flexible highway and ai rfield pavem ents, design ofroadway intersection, geometric design of bridge approach; traffic studies.

CE' 529 St ructure V2 hours per week 200 marks.For Fifth year Arch.

Review of Reinforces. Concrete desi'gn. Int roduction to ultimate strength,design. Concepts of st ructura I system. ,Design of one-way and two-wayslabs.Preliminary design of flat plates, flat slabs, waffle slabs. one way and twoway ribbed slabs. Columns-stocky and long.Grids-approximate analysis. Approximate analysis of multistoried .buildingsfor gravity and lateral loads. Vierendeel truss. Folded plates.Introduction of shearwalls preliminary design.

Prestressed Concrete-Introduction, Properties of materials, LO$$8$' of pres-tress, Analysis and preliminary design of beams sections.Cables, Arches domes and shells-Introduction and preliminary design.Classification of shells. '

i" ,,'I, ~j

'..j122 SUET

.-:..

POSTGRADUATE COURSES

3 credits

Stress-strain relationship; Plane-stress and plane-strain; Stress functions;Two dimensional problems in rectangular and polar coordinates; Torsion;Energy principles; Stres's and strain in three dimensions; General theorems;Thr~~ dim~nsional probl~ms ; Th~ories of failure; Computer solutions of

elasticity problems.

CE 6101 Theory of Elasticity

3 credits

Rectangular plates with various edge condition.s; CircL!lar plates'; Energymethods; Approximate methods; arthotropic plates; Numerical methods inth~ solution of plate problems ; Non-linear analyses of plates.

CE 6103 Theory of Plates

3 credits

Review of fundamental concepts-plastic hinges. collapse of beams andframes; Effects of axial load and shear force; Investigation of plastic collapsemechanisms and calculation of collapse loads;. Upper and lower bounds;Plastic analyses and design of beams, frames and grillages';' Plastic collapseof reinforced concrete and masonry structures; Elastic-plastic analysis;Repeatedloading; Shekedown theorems; Minimum weight design. numerical

analysis; Design of multistorey frames.

CE 6105 Plastic Design of Structures

123

Calendar

3 credits

3 credits

Review of membrane theory of shells ; Bending theory of cylindrical shellsand shells of revolut ion; Synclastic and anticlastic shells; Design of shellroofs of various shapes; Finite difference and fi nite element methods;

Model analysis.

CE '6108 Analysis and Design of Shells

Stability of struts and beam-columns; Initial imperfections; Inelastic buck-ling; Stability functions; Stiffness matrix; fixed end moments; Energymethod. Elastic instability of plane frames; Critical load; Buckling modesFailure load analysis. Torsional buckling under variouS conditions of endload.s; Buckling by combined torsion and flexure .. Lateral buckling of beams;Local buckling phenomenon. Buckling of thin plates and membrane shells.

Buckling of built-up sections.

CE 6106 Elastic Stability of structures

'-:"-.-"

f, :I I

CE Enos Finite Element Methods I 3 creditS

Structural forms of tall buildings-floor system, .vert'icsl load resistingsystems, lateral load resisting systems. Choice 0 f systems-optimumdesign; Coupled shear walls-continuous medium, wide-column analogy,and finite element solutions. Interaction of walls and frames"'-approximate

CE 6111 J:\dvanced Design of Concrete Structures 3 credits

Review of principles: beams. slabs and columns. Design of columns; longcolumns, two way slab systems, grids, waffle' s'labs, ribbedsfab, deepbeams, curved beams shear walls, building frames. Design for torsion.Bulk storage structures, creep and temperature effects. Deta ils ot'reinforcedconcrete members. Advanced problems in foundations of structures. Codesand specifications and their. influence in design. An individual or groupproject to design a complete stfuctural system.Prestressed concrete structures.

CE6110 Computer Methods in Civil Engineering 3 credits

Advanced programming, techniques related- to Civil engineering problems;Program optimization ; Computat ional pitfalls; Management of files anddata bases; Fite structures; Direct access backing storage; Computationalaspects of matrix algebra-relaxation methods, various reduction and elimi-nation schemes; Eigenvalue problems, storage of and computation with largeand sparce matrices; Numerical differentiation and integration; Interpola-tion and curve fitting; Linear and non-linear programming algorithms;Software packages; Computer graphics; Interactive analysis and design:Programming for civil engineering problems on microcomputers. I

\

\

3 credits

Introduction to finite elemant concepts, basic techn iques, shape functions.Finite element formulation of various elastic problems-plane stress,' planestrain, axisymmetric and three dimensional cases.Isoparametric elements, the elastic memorane, thick shell and plate elements.body of revolution w.th pressure and s~nusoidal loadtngs.Nodal loads from shape function routines.Bending of plates, axi~ymmetric shells, shells-the, semiloof beam and sheiLDeveloping and implementing elements. Covergence-the patch test.

Solution techniques-front and band solutions. element assembly and equa'-tionsolving, roundoff errors. Variationat pdnciples in finite elementanalysis.

CE 6114 Analysis and Design of Tall Buildings

124 BUET

~....:J.,~~--:J

-"I

methods, analysis. Tubular structures-approximateanalysis. ~asonry high- rise buildings. The future 0.1

methods, computerhigh- rise buildings.

CE 6115 Bridge Engineering 3 credits

Calendar125

, "

I'I

I

I1\

1II

I

I"

" ,,

I"

I\ "

I"

I11

;, :, I,";

:I!

" ", "\ [

i'I,

3 creditsCE 6116 Finite EI ement Methods II

CE 6117 Structural Dynamics and Seismic Design of Structures

3 creditsFundamentals of structural dynamics. SOOF, Free vibration response, res-ponse to harmonic, periodic, impulsive and general dynamic loading.MOOF, undamped free vibrations. Analysis of dynamic response. Beam.vibrations, random vibrations. Probability theory. Determin istic and non-deterministic analysis of earthquake response. Earthquake resistant design

of build ings, bridges and4iams.

CE 6201 Advanced Concrete Technology 3 credits

Properties of plain concrete, physico-chemical aspects of behaviour; Cons-tituent materials; Cements, aggregates and admixtures; Influence ofmaterial properties on stress distribution in structural members. I

Durability, permeability and porosity; physical and chemica I deterioration.'"

Mix desi~n, manufacture, transportation and p lacing. Form works.Field control and acceptance. Testing-destructive and nondestructive.

Concrete for special purposes.

General sources of nonlinearity in structures. Solution of nonlinear equa-tions-incremental, iterative-Newton-Raphson and Modified Newton-Raphson solution procedures.Geometric Nonlinearity-large displacement and structuJal instability, lagr-angian approach-both total and updated', Eulerian approach.Materi al Nonlinearity-Material modelling, yield criteria, plasticity, creep,elasto-plastici ty, viscoplastici ty, elastio-viscoplasticity, modelling of rein-

. forced concrete.Combined geometric and material nonlinearity.Modelling of dynamic problems and solution ,procedure.Finite element analysis of non-structural problems-fluid flow, heat c on-duction, electro-magnetic field analysis etc.

Planning concepts, various types of bridges and their suitability for differentspan ranges. Bridge loadings. Orthotropic plate decks. Grillage, spaceframe, finite element and finite strip methods of bridge deck analysis.long span bridges-cable stayed bridge, suspension bridge. Substructures:Design and construction.

iJI

I

1

jI

, '

,I

Water and its impurities. Criteria of water quality, Physica I chemical andbiological treatment processes. Oesalinizat ion and demineralization proce•

.sses. Conto Is of aquatic growth. Control of taste and odour.

Composition, properties and analysis?f sewage. Biology. an~ bio-chemistryof sewage treatment. Principles of physical, cher:ni,caland biological treat.ment processes. 'Tortiery treatment of effluents. Sludge digestion. Sludgedewatering and disposal.

"

i

"

3 credits

3 credits

3 credits

3 credits

CE 6301 Theory of Water Treatmtnt

CE 6304 Theory of Sewage Treatment

CE 6309. Enviro;lmental Sanitation

.CE 6310 I ndustrial Water and Waste Treatment

Application of engineering principles to the control of communicable' disea-ses. Vector control. Insecticides and bacteriocides. Collection and dispo-sal of municipal refuse. Housing. Milk and food sanitation. Industrialand.personal hygienes, air pol/ution. Plumbing. Venti lation, airconditioning.Hospital sanitat ion. Camp sanitation .

Requirements of water for various industries; 9ualityand treatment ofindustrial water; Characteristics and. volume of industrial waste; Prob.lems associated wit h industrial wastes; Physical, chemical and biologica Imethods of treatment; Industrial waste probl ems of major industries andtheir methods of tr~atment and disposal.

CE 6305 Biology of Sewage and Polluted Waters . 3 credits

Important mi.c-roorganisms releted to water and waste water engineering;_CeII. £..hysiolQgy; Introductory Biochemistry; Bacterial growth and disinfec-tion kinetics; Enumerisation of bacterial. population; Indicator organismsand water borne p~thog'ens; Sampling and bacteriological examination of

. water and waste water.

.i

, 1

CE 6311 Municipal and Rural Sanitation 3 credits

Transmission and control of communicable diseases; Importance of safewater supply and safe disposal of waste on sanitation; Principles of ex-creta disposal with. and without water carriage; Individual water supplyfacilities and their sanitary protection; Solid waste management; Muni-cipal and' rural sanitation facilities in Bangladesh; Public health organiza.tions ..

BueT

'\

. .,

. /

"126

,

!\I

.1... ,r.~.

, . , I

.. ; ~-.-' . - --~,- '

Sources of pollution; Effects on water; Basic the.ory of control devices;Pollution surveys and control programs. Water pollution problems in Bang~ladesh.

,'1.J

... I

,1~

CE 6312 Water Pollution and its Control 3 credits

Development of design criteria for municipal and rural water sources;Intakes, pipe lines, distribution systems,' storage facilities and water treat~ment systems; Ground water resources and.well design.

CE 6316 Sewerage and Drainage Engi neering Design

,.;!..:

CE 6315 Water Supply Engineering Design 3 credits

3 credits

Design of collection system, pump house, Functional hydraulic and struc-tu ral design of complete sewage treatment plant and.drainage systems.

CE 6401 Soil Mechanics I 3 credits(2 hours per week theory and 3 hours per week practical).

Identifying characteristics of soils, clay minerals, clay-water relation, fabric.Compression. One and three dimensional consolidation, swelli ng, collapse

and theological properties;Soil shear strength. concept of cohesion and internal friction. Failure theo-

ries. Bearing capacity equations and factors ..Subsoil exploration programme, interpretation of topographic, geQlogical andagricultural soil maps. '-aboratory testing of soils and their interpretation for

engineering purposes.

127

settle~laterally

3 credits

Calendar

CE 6402 Soil Meehan ics II

CE 6403 Foundation Analysis Methods 3 credits

'.Elastic foundations, loads on infinite slabs, subgrade coefficien't,ment on non-homogeneous half space, linearly elastic pile and soii,

Soil perposity and moisture effects relative to effecti ve stress principles,capillarit~permeability and frost action. Hydraulic fracturing. Principlesgoverning flow of water through soils. Soil seepage analysis for isotropic

. and anisotropic conditions. Numerica I techniques for vertical and radial

.'drainage,Description, design procedure and usage of current site improvement te.ch~niques, preloading, earth reinforcement, dynamic consolidation, vibrocom-paction, blasting d-ens.ification, lime' treatment, drains and geotechnical

fabrics.

II

, ,loaded pile, soil foundation interaction for footing and !l1&t designs, Ana-lysis of simple pile and pile group foundations. Exact and numckical solu-t ions to above problems.

CE 6404 Earth Pressure and Retaining Structures 3, credJts

Seepage in composite sections. Methods of stability analysis, stability 01'-slopes. Compaction. Measurement of performance, construction and control

,of embankment.

Fundamentals of lateral earth pressure and classical methods of analysis.Analysis of braced excavations, retaining walls and design of sheet pilingsystem. Principles of cofferdam design.Bearing capacity theories, related to shallow and deep Jp,undations.

I I, I,I

J

'\1

CE 6405 Earth Dams and Stability of Slopes 3 credits

. ,,

!!

.1

1!\

,

!'j

"

, J

.<1 .rocks; Stabilization,

r einforcem~nt ; Design

3 creditsCE -~406 Rock Mechanics

Classification and 'engineering properties of 'ntact rocks, brittle fracturetheory. Characterization and properties 'of rock discontinuities criteria ofrock failure.Engineering problems associated with construction inanchoring and rock bolting; Rock slope stability aildof underground opening and structures •.Geotechnical aspects of open pit and underground mining;, soft and hardrock; Material handling, waste disposal.

CE 6407 Soil Dynamics 3 credits

_.-

Sources and types of dynamic loading. Vibration of ,elementary systems.Wave' propagation in soi Is. Dynamic soil properties and methods of thei~determination, liquefaction, shear medulus and, damping effects. Vibrationsof 'foundations on elastic media, .machine foundations, eart hquake response,blast effects including' nuclear weapon effects.

CE 6408 Advanced Engineering Geology' 3 credits

Ad-vanced physical geol,ogy concerning transport3d and' residual soils. Ero-sion and deposition. Geomorphology. Study of the formation of delta.Engineering geology of soft clays.Engineering properties of rocks. Geologic structures. Historical geology.Geology of Bengal Basin. Earthquake zones of Bangladesh. .Geo,logicalconsiderations for engineering designs.

I '

( ,

I'J!

;:11

;;,',',1,,' r

:li',I

if

I'::1:1! i'j'ItI"'.,1

,Ij

I':I

128 BUET

,/

Origin, production, specifications, properties and uses of ,bituminous mate-rials, binder mixtures, design' and analysis of bituminous paving mixes. fieldoperations, sU'rfacetreatments, stabilization methods, agg.regates, base, sub-base and subgrade, cement concrete in pavement constructions.

CE 6507 Traffic Engineering 3 creditsCharacteristics of vehicles and driver, traffic stream characteristics, .trafficcontrol and operation, traff ic surveys, accidents and road safety, parking,roadway lighting. traffic management and administration.

CE 6501 Transportation Engineering 3 - credits

Historical development, systems of transportation, technical and operatingcharacteristics of highways, railways, waterways, airways and pipe lines.transportation planning and development.

!

I

Ij

II

I

129

and curves,construction

3- credits

3 credits

CE 6503 Highway Materials

CE 6504 Advanced Surveying

CE 6502 Geometric Design of Highways 3 credits

Highway classification; Design controls and criteria; Traffic, 'vehiclecharacteristics, speed capacity; Elements of design; Sight distance, hori-zonal and vertiGal alignment; Cross-section elements; Road intersections,grade separation and interchanges; Highway drainage.

Triangulation; Classification and schemes, instruments, linear and angularmeasurements, field works errors and corrections, computations; Geometriclevelling; Field astronomy; Motions of earth, and other stars, time. co-ordinate systems, errors and corre ctions; Hydrographic surveying; determi-nation of depth under water, measurement of discharge and stream current;Terrestrial and aerial photogrammetry; Instruments, field works, plottingof maps, analysis and interpretation of photographs, stereophotogramme-try, remote sensing and its application in civil engineering.

CE 6505 _Structural Design of Pavements 3 _credits

Pavement types, wheel loads, stresses in flexible pavements, stresses in rigidpavements, pavement performance, evaluation of subgrade and 'base support,

- I

d~gn theories and practices, c'onstruction method,Sand maintenance, pave-ment rehabil itation .

Calendar

CE 6508 Railway Engineering 3 creditsGeneral requirements, permanentway, aI ignments, gr adientpoints and crossings, signalling and inter.locking, tune lling,and maintenance.

Historical development of navigat ion, navig~t ionalchanne Is, survey of water.waysl ciassification' of waterways, traffie, vessels, ports ,and ha.rbours,navigational aids, maintenance of waterways.

, \tl,~'~,...~.

SUET

3 credits

3 credits

3 creditsCE 6509 Waterways

CE 6510 Planning and Design of Airports

Growth and demand of air transport, airport site selection and configura~tion,' geometric design of runways and taxiways, terminal areas, capacityanalysis, lighting and marking, ai r traffic control system$, st ructural design,construction and mainten,:!nce of airport pavements, airjOrt drainage.

CE 6511 Trdnsportation Planning

Techniques and processes used in solving transportation problems, rela-tionship' between trip generation and land use, collection and charac.teristicsof base-'year 'data;" f6'frritilation of mathematical models to' simulate exis.ting . travel patterns, forecasting procedures and evaluation of transporta-t ion systems.

. 130

,"

, I,

•I

1,t

Irj

f ,

131

.•. ~'.

Department of Water Resources Engineering

UNDERGRADUATE COURSES

WRE 211 Fluid Mechanics3 hours per week 250 marks

PART AFluid properties-; Fluid statics, kinematics. of fluid motion, continuity equa-'tion, energy equation, momentum equation, viscous effect and fluid resis-

tance.

PART BFluid flow measurements, closed conduit flow, pipes in sarias and parallel,

pipe networks, similitude and dimensional analysis.

WRE 212 Fluid Mechanics Sessional

3 hours every alternate week 50 marksReynold's experiment, centre of pressure, Bernoulli's experiment; Impact ofjet; Expe rimen t based 0n 0 ri Iice. mout hp ice. V-no Ich ; Ven lu rime Ie r; FIuid

friction; Orificemater.

WRE 311 Open Channel Flow and Hydraulic Machinery

3 hours per week 300 marks

PART AOpen channel flow and its c,lassification, velocity and pressure distribu-.tion, energy and momentum principles, critical flow-its computations andapplications; Uniform flow concept and computation, gradually varied flow

and hydraulic jump.

PART BPrinciples of hydraulic machines Hydraulic prima movars; Pumps; Testing

of hydraulic machin-e., . - -

WRE 312 Open Channel Flow Sessional

3 hours every alternate week 50 marksSharp-crested weir;. Broad-crested weir; Sluice gate; Ventu ri flume, Parshallflume; HydrauliC jump; Current meter; Determination of Manning's rough-

ness coefficient.

Calendar

PART BRainfall-runoff relations --;Factors af-fecting utilization and conservationafwater resource, unit hydrograoh concept and its applicat ion, flood routing;Statistical methods in hydro logy.

, ,

SUET

WRE 400 Project and Thesis" hours per week 200 marks

Experimental and theoretical investigation of vari'ous topics in Water Re-sources Engineering. Individual or group study of one or more topics fromthe above field. The students will be required to submit a thesis/projectreport at the end of the work.

WRE 313 Hydrology2 hours pH week 200 marksPART AHydrologic cycle; Air circulation;Precipitat ion; Stream flow; Infiltration andsoil moisture, evaporation and transpiration, runoff, hydrographs,

, - -

WRE 412. Hydraulid' Machinery Sessional3 hours. every alternate week 50 marks

Characteristic curves; Pumps in series, pumps in parallel; Pipe surge andwater hammer; ScAouraround bridge piers.. Irrigation gates; Rain gauges.

WRE 411 Water Resources Engineering(I-rrigation and dra-inage)

3 hours per week 300 marks

PART AIrrigation and its effect, so iI-plant-water relationship, consumptive use,irrigation methods, irrigation efficiency; Methods of water conservation,salinity problems in irrigated lands and land recl amati on.

PART BBasic principles of ground water hydrology, well hydraulics; Ground waterexploration in Bangladesh. Drainage and its basic principles; Depth and spa-cing of drains, drainage problems in coastal. areas.

WRE 413 Water Resources Engineering II(Flood Control and River Training Works)

3 hours per week 300 marks

PART A

Floods and its effect; Causes of flood; Method of flood control; Differentmethods of flood flow determination.

132

ii

f~J .I

J

i

-:1III

.\ -

WRE 416 Water Resources Engineering Sessional3 hours' every alternate week 50 marks

Design based on WRE413and WRE 415

PART BRiver channeJpatterh; River control for bridges. and protE~ptior: works:Training of river b'~guide banks; Groynes; Embankments and other me-

thods; Dredging ..

.WRE 415 Water" Resources Engineering III. (Hydraulic Structures)

2 hours per week 200 marks

PART ATypes and utility of Hydraulic structures; Dams ; Culverts, sluice gate.

PART BStilHng basin ; Regulators, c rosS drainage works, pumping' pi ant.

133

Boundary layer theory;Channel transitions;

Calendear

WRE 6103 Open Channel Flow 3 creditsEnergy and momentum principles; Fiow resistance;Nonuniform flow computation; ChanneI contro Is ;

.WRE 6102 Fluid Mechanics II 3 creditsDimensionless paramet~rs in viscous flow, non-dimensionalizing the basicequations and boundary conditions; Solutions o"f the: Newtonian viscousflow equations: Couette shear flows, steady fully developed duct flows,unsteady flow with moving boundaries; Laminar boundary layer equations;Similarity solutions for steady two-d imensional flow; Blasius. solution forflat-plate flow, Falker-Skan wedge flows;' One-parameter momentum inte-gral solution of laminar bounqary layer; Turbulent boundary layer equa-tions; Eddy viscosity theories, law of the wall, law of the wake.

POSTGRADUATE COURSES

WRE 6101 Fluid Mechanics 3 creditsEulerian and Lagrangian coordinates; Reynolds' transport theorem;Basic conservation laws; Continuity equation, Navier-Stokes equation.energy equation ; Two-dimensional potential flows; Complex potentialand complex velocity, circle theorem, Blasius integralf ormula ana Cauchyintegral formula.; Three dimensional potential flows; Velocity potentialand Stokes stream function and apparent mass.

;- :

HydrauI ic jump . and surges; Unsteady flow; Hydraulic me,thod of flQw. '-

routing; Overland flow; Mathematical models of open channel flow;Practical problems.

,ji,)

~

WRE 6201 Hydrology 3 creditsPrecipitation-its temporal and spatial' variabi lity ; Evapotranspi rationRunoff and its time-space distribution; Conceptual models; HydrauliCsof overland flow ; Flood flow in stream channel and flood esti-',mation; Flood forecasting; Hydrology of urb:ln, agricultural arid forestlands; Computer simulation of hydrologic techniques; Watershed models..,.WRE 6202 Statistical' Methods in Hydrology 3 credits.Characteristics of hydrologic phenomena; Random phenomena and their.distributions; Various probability' topics applied. to. hydrology; Empiricaldistributions of hydrologic varJab~~~; Parameters and statistics; Probabi-lity distribution functions; Estimation methods; Sampling theory; Tes-ting hypothesis and goodness of fit; Correlation and regression, auto-correlation and cross-correlation; Analysis. of variance; Time series, spec-tral and cro~s spectral analysis; Stochastic models.

1

J. :1I[

~

.1j\

";

,}'

WRE 6205 Irrigation & Drainage Engineering. 3 credits

Determination of consumptive use ; Soil-water-plant relations; Infiftration;Crop irrigation, farm delivery' and. diversion requirements ; Irrigation tech-niques., Irrigation efficiencies; Water .manageme.nt.in irrigated lands;

WRE 6204 Flow tttrough Porous Media' 3 creditsMechanics of fluid movement in porous media; Seepage force and criticalgradient; Anisotropy; Application of the Dupuit theory of unconfineflow; Conformal mapping by elementary functions Confined flow;Relaxation method, method of fragments: Flow through foundationstructures; Seepage from caria I and ditches.

SUET"

WRE 6203 Ground Water Hydraulics 3 creditsGround water movement: Storage, exploration and data. 'Basic principlesand fundamental equations Well hydraulics; Aquifer test and flow-netanalysis; Transient flow; Unsaturated flow; Well design criteria; Cons-truction. production tests and maintenance; Surface and sub-surface waterrelations; Ground water recharge and runoff; Groundwater quality;. Salinewater intrusion; Subsidence and lateral movement of the land surfacedue to groundwater pumping; Flow system analysis and models; Develop-ment and management of aquifers.

134

.if':1

Salini tV problems; Relation between irri gation and drainage "c'JSuofacllsand subsurface drains; Drainage system and their design; Small irrigation

st ructures.

WRE 6402 Planning.of Water Resources System 3 creditsNature 01 water resources Systems;Tools of systems analysis; Differentialcalculus methods; gradient search procedures. Linear programming; Dynamicprogramming; Systems analysis and mathematical modelling; Objective func'tions of water resources development; Short term operatIon of water resour-

ces system; River basin modelling.

Cilenda r 135

WRE 6401 Development of Water Resources Projects 3 creditsGeneral principles of water resources development planning; Economics ofwater resources projects; Regional and social considerations; Different aspectof feasibility studies; Study of alteraatives; Complete design of water resou-

rces project for a selected area.

WRE 6305 PhotograQlmetry in Water Resource 3 creditsPrinciples 01 photogr~.mm!'try; Us. 01aerial photographY; Land form analy-"is; Interpretation of drah18l1" petterns. geomorphological and hydrologicalfeatures. surface soils. vegetation and land use; Airphoto

sin the planning

and designing of water resources projects; Remote sensing.

WRE 6304 Hydraul ic Structures 3 credits.Design principles; Dams; Barrages; Channelsand flumes ; SpillwaYs; . Stillingbasins; Transitions and control .structures; Locks; Use 01 models in Hydraulic

destgn.

WRE 6302 Sediment Transport 3 creditsSediment properties; Sources of sedimentin river s and canaIs; Types ofloads: bed load. suspended load and total load; Critical review of the sedi-ment transport theories and formulas; Sampling techniques; Modelling of

sediment transport phenomena.

WRE 6303 Waterpower Engineering 3 creditsIntroduction; Sources 0.1 energy: Estimatinn of waterpower potential;Typesof hydropower 'plants; Intakes Penstocks; Forebays; tunnel ; power

station; Wave and tidal powe:r.

--WRE 6301 River Engineering' 3 creditsRiver hydraulics and morphology; Bedforms in alluvial channels; River cha-nneI patlerns: Flood plain and thei r formati onS; FIuviaI process in geomor.phology; Rivar training and bank protection works; River in Bangladesh.

j, ,t J ~,

\ .

I~

IIIIil

'~.[

1

WRE 6403 Physical Modelling, an.dHydraulic Similitud~s 3 credits. .

Principles and illustration of dimensional analysis; Princip les of the theoryof similarity; Reyn,olds' models; River and open channel modeIs; Filtrationmodels; Design of expriments; Materials and methods of con~tru ction; Equip-ment in models; Model calibration.

WRE 6404 Mathematical Modelling 3 creditsIntroduction: Concept of a mathematical model; Types of model. Numericalmodelling techniques; finite difference, characteristics finite element, con-sistency convergence, stability and accuracy of a numerical integrationscheme. Hydrologic and hydrodynamic models: Data organization, schema.tization and boundary conditions; calibration,'validation and application of amodel; Models of water resources systems elements.

WRE 6501 Coastal Engineering 3 cred.its-IntrodlJction; Waves: theory and forecasting; Ports and marine structures:wharves; jetties, piers, bulkheads dolphinas, moorings, locks and shore pro-tection works; Dredging ; Use of models. .

WRE 6502 Estuarine Hydraulics 3 creditsEstuarine behaviour : Hydrodynamics of estuaries; Mixing process; Tides andharmon ic analysis; Modelling of tides; Saline water intrusion; Hydraulics ofdeltas: Pollution in estuaries: Control of estuaries; Estuarine problems inBangladesh.

BU~T136

.~.Jl.' 11:1i

.1ij

.,.1

!j. ,I.'1

.,f

,-

, ," .

' ..

, '. '

',::'

Calendar137

computer structures and languages. Number system. BinaryPrinciples of programming. Flow charts. The FORTRAN

PART BNumerical methods and computationsl algorithms. Application of computersin solving electrical and electronic engineering problems.

I

CompE 102 Computer Techniques Sessional3 hours every alternate week 50 marksLaboratory expriments based on CompE 101

CompE 301 Digital Techniques2 hours per week 200 Marks

PART A,Number System and Codes: Number system-binary, decimal, octal andhexadecimal number systems and theirr epresentation, conversions, com-plementation, addition, subtraction, multiplication and divi sion. BCD, al-phanumeric, gray and excess-3 and parity codes.. Digital logic : Boolean algebra, De Morgan's laws, logic gates and theirtruth tables. Canonical forms, combinational logic ci rcuits, Karnaugh Map.Logic Families: TTL, ECl, 12l, and CMOS logic, brief description and prin-ciple of operation. Propagation delay, spged delay, pro duct and noise-

immunity. . .

Arithmetic and data-handling logic circuits: Half adder, full adder, ha Ifsubtractor, full subtractor, .BCD to decimal decoders, BCD to seven seg-ment decoder/drivers, endoders, multiplexers/demultiplexeres. Study and use

of TTL Data Handbook~;

PART BReview of Combinational Circuits; Combinational Circuit design. Flip-Flops. R-S Flip-Flop, Clocked R-S Flip-Flop, simple D-type Flip-Flop,race problems. T Flip-Flops, J-Kmaster-slave Flip-Flop, direct set and reset

CompE 101 Computer Techniques2 hours per week 150 marks

PART AElements of. ,arithmetic.language.

Department of Computer Engineering

UNDERGRADUTE COURSES

Faculty of Electrical and Electronic Engineering

facilities. Counters~Asynchrollous cou_nters,propagat ion delay in asynchro~nous counters, synchronous counters and applications . Regist~rs-differenttypes, shift registers, serial to pa~a"el and parallel to serial, left shift,right shift and circular registers and their applications. D To A and A toD converters with applications. Different types of digital storage media.

CompE 302 Digital Techniques Sessional3 hours every alternate week 50 MarksLaboratory experiments based on CompE 301

CompE 401 M'icroprocessors and Digital Computers2 hours, per week 200 marks

PART AIntroduction to different types of microprocessors. Instruction sets. Ha{d-ware ~rgan}zation. Microprocessor interfacing. Introduction to availablemic'roprocessor peripheraIIC's. Bit-slice processors. Microprocessor appli-cations.

PART .BDesign of digital computer subsystems, flow of information and logicalflow diagram in timing and control signals. System organization. Hard-ware structures. Design of the c~ntrol unit of ,a digital computer.Introduction to microprograming. Multi-programming; time-sharing andreal time computer systems.Data and instructions. Data systems, addressing of operative memory.Machine instructions. Channel programs. Assemble,r program. Programexecution. Interrupt systems. I/O systems. Inter-connection of computers.Operating systems. Control program. File handler. Program structure.Virtual-memory.

Co.mpE 402 Microprocessors and Digital Electronics Sessional3 hours every alternate week 50 MarksLaboratory' experiments 'based on CompE 401.

"

I

138 eUET

POSTGRADUATE COURSES

Stored program computers; Data representation; Algorithmic treatment;Instruction formats; Computer units; Systems structures, special featuresof Intel 8080,8085,8086, Motorola 6800/68000, PDP-8 and PDP-11, I BM-37 0,ISM-4300, CDC 76DO. Elliac and the latest Microprocessors. Hardwaredescription, methodologies,considerations in simulation and testing of

designs.

CompE 6203 Advanced Topics in Microcomputers 3 Credits

Latest developments in mic roprocesor fie Id including' 32 bit micropro-cessors-hardware structure and software capabilities, memory develop";ment with examples, bubble memories. Mierocomputer development systems.Bit slice Microprocessors and Microprogramming, design of and instruction.Set using micro-contro!. Software for microcompu~ers, assemblers, 'high

level microprogramming languages.

139

3 Credits

Ca land'ar

CompE 6202 Computer Organization

CompE 6201 Digital Computer Theory and Design 3 Credits

Introduction to stored program computers. Overall computer orga-nization with specific examples as IBM 360/370 and IBM4331/4341._~System organization of digital systems' including minicomputer andmicroprocessor architecture and comparision. Control unit design-hard-warad control and microprogram control. Control unit organization toinclude serial-parallel modes of operati on.Design of the control unit 'of a small digital computer for laboratory

use.Characteristics of computer system hardware and software to providefor muItiprocessing, multiprogramming and time-shared operation. Interruptsystems. Concurrent process in multiprocessors.

CompE 6101 Microcomputers and Microprocessors 3 Credits

Review of the hardware and software of microcomputers, ,programmingin microcomputers. Hardw~re-software interfacing in microcomputer systemdesign. 1/0 structure and auxiliary electronics. Interrupt structure,direct memory access. Priority interrupt struCture. The design ofdigital systams based around microcomputers-timing considerations;Input/output design and tota I system design. Case studies includingCPU a,nd peripheral IC's of Intel, Motorola, Zilog etc.

,"

Comp E 6204 Data Cemmunication and Computer Networks.3 Credits

Principles and practice of modern data communication techniques. Trans-. . .

mission-codes, modes for data transmission, multiplexers, concentrators,. terminals. Modems and interfaces. Digital network interfaces. Error control,cryption, security. Network protcols and line control procedures. Pro-tocols for buffer .management, message reassembly, queue control. Com-munication/ carrier systems planning. Distributed intelligence:~ Messageand packet switching. Hardware and software interacing. Internationaldata communication, analytical results on network topology, alterna-tives, resource sharing and file allocation.

CompE 6301 Computer Science 3 CreditsRelaxation methods, successive over relaxation, convergence criteria;Optimization techniques, simulation; Hybrid comp.utation; Time-sharing.Computer aided design (CAD). APplication to engineering problems.

CompE 6302 Machine and Assembly Language Programming3 Credits

Camp ~ 6304 Operating system II 3 Cred its

Opera~ing system for time-shared and multiprocessor computer systems,processor management-state modelI;ng, job scheduling, process scheduling,process synchronization, time slicing and time-sharing oper~Jiri.g:Iystems

'. .','.. '\

Machine intruction types, number representation and addessing .schemes,programming of microprocessors and microcomputers and mainframecomputers in machine and assembly language. Use and design of macro-assemblers; Conditional assembly, control of I/O via access methods.Program status and control, interrupt handlinJ, job control languagesand file structures. File and storage managements. Linkers, loadersand load modules. Introduction to operating system!). Assembly 'I3nguageprogramme testing in mainframe computer IBM -370/115. Applicationsusing BUET Computer.

Comp'E - 6303 Operating system 3 CreditsIntroduction to operating systems' for batch oriented multiprogrammedcomputer system. Memory management in fixed alid variable partitions;device and storage management. Input-output programming; interruptstructure-and processing. Information managements. File systems; sys-tems programming. Access control verifications. Performanca modellingand evaluation.

" .

- 140 SUET

and sub-systems. Memory management in a paged and segmented virtualmemory systems.. Performance evaluation of computer network software,introduction to computer as a utility. Introduction to securitY and

large data base system.

CompE 6305 Data Base Management 3 CreditsRelational network and hierarchical data models; sequent ial, indexed se~quential, inverted, multi list, computer access and clustered fi les; Externalsorting algorith ms, secondary indices optimization, security decompositionof query ; Differentia 1 fields; evaluation of the organization, current lite-

rature.

CompE 6306 Compiler Construction 3 CreditsTheory and practice of constructing translators for high level programminglanguages. Scanning and pursing of formal languages, introductory theoryof context free languages and syntactic analysis. Object code generationand economization. Automatic generations of syntax analyzers,. tr anslator

writing systems, extensible translations.

•

141Calendar

, .

~ ."i;•• ~ rl~- _ ••• __ ~_""".,-'-'_~ _._. __ ~ •• _ •••• -..-."1'--

Department of Electrical and Elect ronic Engineering

EEE 102- Basic Electrical Engineering Sessional

. 3 hours every alternate week 50 marksFor first year EEE, ME and NAMELeboratory experiments based on EEE 101

PART BPhasor algebra (as applied to A.C. circuit analysis), sinusoidal single-phase RLC circuits, balanced three phase circuits. Introduction to electri-cal wiring for residential and commercial loads. Familiarization with diffe-rent types of electrical machines. such as D.C. generators and motors, A.C.alternators, motors, transformers. Working principles of transfomers, induc-tion motors. Introduction to electr.onics principles with simple applications.

/

143

EE '04 Basic Electric,alEngineering (Technology) Sessional

3 hours every alternate week 50 marksLaboratory experiments based on EE 103

Calendar

EE 103 Basic Electrical Engineering (Technology)

3 hoursJ)er week 200 MarksFor Fifst year Civil Engineering

PART AElectrical units and standards. Electrical networks and circuit solutions-series, parallel and m9sh current methods. Measurement' of electrical quan-tities-current, voltage, resistance. Measuring instruments; ammeters, volt-meters, watt meters and multi meters.Instantaneous current, volta!le and power, effective current and voltage, ave-

rage power.

UNDERGRADUATE COURSES

EEE 101 Basic Electrical Engineering

3 hours per week 200 marksFor first year EEE, ME and NAME

PART AElectrical units aoli standards, electrical networks and circuit theorems, intro-duction to measuring instruments. Magnetic concepts and ci rcui ts.

PART BAlternating ~current, definition of A. C. quantities, phasors, RL, RC, RLC

series and parallel circuits.

EE 105 Electrical Engineering Fundamentals(Basic Electrica! Engineering)

2 hours per week 150 MarksFor First year ChE and MetE

PART A

Electrical units and standards. Electrical networks and circuits theorems, in-troduction to measuring instruments.

PART B

Alternating current, RLe series, parallal circuits, magnetic concepts andmagnetic ci rcuits.

EE 108 Electrical Engineering Principles Sessional

3. hours every alternate week 50 MarksLaboratory experiments based on EE107.

EE 106 Electrical Engineecing Fundamentals Sessional(Basic Electrical Engineering Sessional)

3 hours every alternate week 50 Markslaboratory experiments basad on EE. 105.

BUET

Singletransfer,

parallel circuits, magnetic concepts

PART' B

Alternating current, HLC series,and magnetic circuit.

EE 107 Electrical Engineering Principles3 hours' per week 150 MarksPART A

Electrical units and standards, eledrical networks and circuit theorems,.introduction to measuring instruments.

EE 200 Electrical Design and Drafting3 hours every alternate week 50 maFks

Safety rules, electricity .rules and electricity codes. Electrical and electronicsymbols. Electrical wiring, house wiring, industrial installation wiring.Insulation measurement, use of meggers. Battery charging.,

EE203 Electrical Circuits3 hours per week 250 MarksPART A

Waveforms, response of single e/ementsto different ~aveforms.phase circuit analysis. Q of a circuit, wave trap, maximum. power

144

.'.>:.,:'1,\.

I .~Ie.)":,

f:,'i:,~f .•:-! .!

-~,"~I.j

:1,I

l1I

Network theorems, V-De Ita transformation; Coupled circuits. polyphas. ba-lanced and unbalanced ci rcuits; power measurement.

PART BP.riodic nonsinusoidal waves, frequency spectrum, ell.ctive values andpower. Electr ic wave filters : basic pr inc iples, constant K, M-d.r ived h.ll

and full-section, transients.

Calendar

EE 205 Electrical Machines I3 hours per week 250 Ma rks

Princip les, construction, classification, armature ~inding,.Armature reactions and commutation, performance and tes-operation, types, speed-torque characteristics, methods 'of

145

cooling. principle, vector diagrams and voltage

EE 207 Electronics I3 hours per week 250 marks

PART AElectronic phenom.na in metals. and •••.mi.conductors; Electron emmi •• lons andth.ir dillerent types; vacuum typas-diode', triod.s. tetrodes. pentod.' andmultigrid tubes. their characte ristics and .quivalent circuits. Semi-conductordiode •• bipolar and.lield effect transistofs. MOSFETS and other elec,ronic

PART AD.C. generatorvoltage build up;ting. D.C. motorspeed contro I.Trans.formers Cons true fion,regul at ion.

PART BTransf orme r : Equival ent ci rcu its. p. rfo rmanc. and testing, speci a I t ranslo r-mers uses and harmonics 'in polyphase transformers.Induction motors: Principia of op.ration. constructional d.tails, .quiva-lent c ircui t s, speed -t0 rqu. rei ations., loss.s and .ffic iency. Circ Ie diagram.

Induction generator.Synchronous Generators: General outline 01 synchronous g.neratorS; salientpol. and non-salient pole. Armature and field cor ••.. Winding insulation,

cooling.

EE.206 Electrical Machines Sassi'o'nat3 hours every alternate. week 50 Ma rksExperiment's based on EE 205

EE 204 Electrical Circuits Sessional3 hours every alternate week 50 MarksExperiments based on EE 203

"l.,' :, ,. ~~,""~.

J ...,..- •, ,

.••.. ;'.• }:r~:""".

.-~.," F •~~--',-~'

~. .l':;

~. ~:'.. '1.!t '

, .•...,

"'j _ ... _ ..• _ •.• +"r'iliW-W-~-~'~-- ..~

circuits. Applications ofrec tif icat ion and power(All treatment circuit &

devices, their characterist ics .and equivalentvacuum diodes and semi-conductor diodes insupplies, logic circuits and switching circuitsdevice oriented).

PART BDetailed discussion of load line, bias and stabilization for transistor andFET amplifiers. Different transistor configurations and thei r equivalent cir-cuits, h-parameters; Basic transistor and tube amplifiers and their analysisat I.F., M.F., and H.F. ranges; Untuned voltage amplifi~Hs. Regulated powersupplies 'using zener diodes and transistors.

EE 208 Electronics I Sessional3 hours' every alternate week 50 Markslaboratory experiments based on EE 207

EE 211 Electri~al and Electronics Techr'-ology3 hours per week 250 MarksFor Second year ME and NAME

~,\~

BUET

analysis and power measurement. Singlecircuit and laboratory testing, introduction

PART ABalanced three-phase circuitphase transformer-equivalentto three-phase trasformer.D. C; Generator-principle, types, performances and characteristics, D. C,motor-priflcipl.~s, types of mqtor, performances, speed control, starters

\ L.l ~~-J •

and characteristics. A. C. Machines-three phase induc::tion motor princi-ples, equivalent circuit. Introduction to synchronous machines andfractiona I horse power motors .

146

. PART BVacuum tubes, Semiconductor diode, Transistor-characteristics, equivalentcircuits, self-biasing circuits, emitter follower amplifiers, push-pullamplifier. Indroductlon to silicon controlled rectifier and its application,Oscilloscope.Transducers: Strain, temperature, pressure, speed and torque measure-me.nts.

EE. 212 Eectrical and Electronics Technology Sessional3 hours every alternate week 50 MarksLaboratory experiments based on EE211.

EE 231 Electrical an~ Eectronic Technology3hou rs per week 300 MarksFa.•.. third year ChE and MetEPART ABalanced three-phase circuit analysis and power measurement, single phase

,'i

PART B i

Vacuum tubes, Semiconductor diode, transistors'-"':eharacteristics, equivalentcircuits, self-biasing circuits, emitter follower smplifiers, push-pull amplifier.Introduction to silicon controlled rectifier and its application; Oscillos-cope. Transducers; Strain, temperature, pressure; speed and torque

measurements.

transformer-equivafent circuit and laboratrory testing, ~ntroduction to

three-phase transformer.D. C. Gernerator-principle, typ3S, performances and characteristics. D. C.motor-principle, types of motors, performances, speed control, starters andcharacteristics. A. C, machines-three phase induction motor-principles,equivalent circuit. Introduction to synchronous machines and fractional

c~!: ?.:"

horse power motor.

EE 232 Electrical and Eelectron ic Technology Sessional3 hours every alternate week 50 MarksLaboratory experiments based on EE 231

EEE 300 Electronics Shop Ses'siona'3 hours every alte.rnate week 50 MarksRadio receivers-study and circuit tracing, fault finding by signal injectionand other means, alignment. Trouble shooting of amplifiers, oscillators,.oscilloscopes. Trouble shooting of television receivers.

HII

ilJ

. I.

I:,. i

I!I

.~., \

EEE 301 Elecronics II

3 hours per week 300 Marks

PART AFeedback, effect of feedback on amplifier characteristics; Types of feed~back, stability, Nyquist criterion; Negative feedback amplifiers; Feedback amplifier frequency response. Conditions of self-oscillation and studyof different types of o$cillators. Direct coupled ampli.fiers : Tuned voltageampiifiers, un tuned power amplifiers-Class A, Class AB and Class B.

"ART B.Tuned Class B and Class C power amplifiers: Modulation-amplitudemodulation and demodulation: study ofsuperheter:>dvna radio receivers,AGC. Television engineering: Introduction and principles of operation ;Camera tubes; Synchronising pulses; Television transmit ters and receivers;

,Introduction to colour television.

147Cale'ndar

II,I

EEE 302 Electron ic II Sessionat3ho~rs per week 100 MarksLaboratory experiments based on EEE 301

EEE 303 Electrical Circuits II

PART BGeneralized energy conversion processes, general principles of electro-mecha-nical energy conversi on, energy stc rage, transformation and conversionmethods of formulation of motion equations and co-ordinate transformation.Interpretation of general ized machines from field concepts.Special Machines: Single phase machines-types, principle of operation,characteristics and starting problems, electrostatic motor, repulsion motor,permanent magnet motor, hvsteresis motor and-power modulators, powerrectifiers, amplidynes, power thyristors and frequency multipliers. _..;!

~~~.

3 hours per week 300 marks

PART/ A

Characteristics ofa linear system-classical methods of transient and steadystate solutions of Differential and Integrodifferential equations. Networktheor~ms, Analogous systems. Analysis by Fourier -methods.

PART B

Laplace Transformation and its application to rinear circuits. Impulse func-tion; Convolution integral and their applications. Matrix with simple appli-cations-~in circuits: Network function, poles and zeroes of a network.Introduction to Topological concepts in electrical and magnetic circuitsnetwork.

SUET148

EEE 305 Electrical Machines II

3 hours per week 300 marks

PART ASynchronous Generators: Air gap flux' and voltage expressions, armat urewinding, alternator regulation, determination of machine parameters fromtests, vector diagrams, armature reac~ion, direct and quadrature-axis reactan-ces, IQ.~sesand efficiency. Blondel ~s two reaction flnalysis, transient condi-tions"In alter-nators, interconnected system of alternators, conditions,methods and problem of parallel operation and load sharing of al ternators~Synchronous motors: -General constructional features, theory of operation,

-motor terminal characteristics, mathematical analysis, vectOr diagJams, V-cur-ves, motor tests, losses, efficiency and starting.

EEE 306 Electrical Machines Sessional

3 hours per week 100 markslaboratory experiments based on EEE 305

.EEE 307 Measurement and Instrumentation2 hours per week 200 Marks

PART AMeasurement of resistance. inductance and capacitance. Measurement ofconductivity of bulk materials. Cable faults and. Iocalization of cable faults.Magnetic measurements, ballistic galvanometers, flux meters. Measurementsand separation of iron losses. Illumination measurements. High voltagemeasurements. Operational ampl ifiers and their applications.

PART BInstrumentation amplifiers. Transducers ; Measurement of strain. pressure,temperature and flow. Measuring instruments: Classification. Ammeters.voltmeters and multimeters; Extension of inst rument ranges; Currentand voltage transformers; Measurement of power and energy: WattmetersWatt-hour . meters and maximum demand indicators. Measurement of speed,frequency and phase differences; Electron ic measuring instruments: Osci.Iloscopes. Digita I meters. DMM. VTVM. Q meters. Statistical methods in

measurements.

EEE 303 Measurement and Instrumentation

3 hours every alternat~ week 50 MarksLaboratory experiments based on EEE 307

Sessional

149(.

EEE 309 Electromagnetic Fields and Waves

2 hours per week 200 marks

PARt A. Review of Vector Analysis. Electrostatics: Coulomb's Law. force. electricfield intensity, electrical flux density, Gauss' theorem with application.electrostatic potential, boundary conditions. method of images. Laplace'sand poissons equations. energy of an electrostatic system, conductor

and dielectrics.Magnetostatics: Concept of magnetic field, Ampere's Law. Biot-Savertlaw. vector magnetic potential, energy of magnetostatic :system. mechanicalforces and torquesi.n electric and magneti.c fields, Curvilinear co-ordinates.Rectangular. cylind'rical and spherical coordinates. solutions to static field

/

problems.

Calendar

Graphical field mapping with applications, solution to Laplace"s equation.Rectangular, cylindrical and spherical harmonics with applications.Maxwell's equations: Their derivations, continuity 6f charges, concept ofdisplacement current. Boundary conditions for ti me-varying systems,Potentials used with varying charges and currents. Retarded potentials.Maxwell's equations in different coordinate systems.

Resistance and skin effects: Resistance and temperature; skin effects,influence on resistance. Use of table, cu rrent and voltage relation on .a transmission line; Representation of line-short, medium, and longtransmission line, tee and pye representation, exact solution. Equivalentcircuit of a long line. Mechanical characteristics; Transmission .Iine,sag and stress analysis. Wind and ice load ing ; suppo rts . at differentelevations; Conditions at erection; Effect of temperature changes.

PART BRelation between circuit. theory and field theory: Circuit conceptsand' the derivation from the field equations. High freq'Jency .circuitconcf>pts, circuit radiation resistance. Skin effect and circuit impen-dance. Concept of good and perfect conductors and dielectrics. Currentdistribution in various types of conductors, depth of penetration, internalimpedance, power loss, calculation of inductance and capacitance.

Propagation and reflection of electromagnetic waves in unbounded media:Plane wave propagation, polarization, power flow and Poyinting's theorem.Transmission line analogy, reflection from conducting and conducting dielec-tric boundary; Display lines ion in dielectrics, liquids and solids, plane wave.propagation through the ionosphere. Introductbn to radiation.

SUET

EEe. 311 Tra'1smission and Distribution of Electric Power

3 hours per week 300 marks

PART AInductance of Transmission Lines: Flux linkage; Inductance due tointernal flux; Inductance of single phase two-wire line. Flux linkageof one conductor in a group, inductance of composite conductor lines.G.M.D~ examples; 3 phase line with equilateral arid with unsymmetricalspacing. Parallel circuit 3 phase lines. Use of table.

Electric fie Id; Potential difference between p3in ts due to a charge I capaci-tance of a two wire line. Group of cha rged conductors. Capacitances of3 phase line with equilateral and with unsymmetrical spacing. Effect of earth;Parallel circuit lines.

-150

3 hours every alternate week 50 Marks

General .design principles of electrical apparatl!sinvolving electric andmagnetic circuits. Design and specification of chokes, transformers, starters,field regulators etc. Elements of design of rotating.' machines. Desi.gn andinterpretation of electrical system layouts.General design aspect .of electronic components; fi Iters, ampl ifiers,oscillators, audio transformers. Power supply from both mains and batteries.

Typical design-problems.

PART BGeneralized line constant: General line equations in terms of A.B.C.D.constants. Relations between constants, charts of line constants,constants of combined networks, Measurement of line constants.

Circle Diagrams: Receiving and' sending end power-circle diagrams. Powertransmitted; Maximum power. Universal power-circle diagrams. Voltageand power factor control in transmissi on sys!ems. Tap changingtransformers; On load tap changing. Induc,tion regulators. Moving co ilregl,Jlators; Bopting transformers. Powar factor control; Static con-densers; Synchronous condenser, Insulators for overhead lines; Typesof insulators, their constructions and performance. Potential distributionin a string of insulators, string efficiency. Methods of equal izing potel'lt iaI.!distribution; Special types of insulators. Testing of insu lators.-'

Insulated cables: Cables versus overhead lines. Insulating materials. Elec-trostatic stress grading. Three core cables; Dielectric losses and heating;Modren development; Oil filled and gas filled cables. Measurementof -capacitances. Cable testing.

Introduction to Transmission Line Protection :. Overcunent relay and timegrading, reverse power relays. Differential protection. Distance relays.•Distribution: Distributor calculation, ring mains and interconnections.

EE 323 Basic Electrical Technology for Architects(Electrical Equipments)

1 hour per week 100 MarksFor third year Architecture

Electrical units and standards, electrical networks and ci rcuits theorems.Alternating current-RLCseries and parallel circuits.Introduction to electrical wiring for ..res(,~(ential and commercial loads.Illumination and working principles of different types of lamp.

,~

11

11

/ II

~.'Jr1I

iri

EEl: 314 Electrical Design Sessional

Calendear

;.F' ..

151

'; ,

"

fEE 400 Project and Thesis6 hours per week 200 marksStudy of problems in the fields of Electrical and Electron ic Engineeringo

EEE 401 Control Systems2 hours per week 200' marks

PART AIntroduction to linear dynamic system and their representation by differentequations and Laplace trasform. Block diagram representation and transferfunction: Routh's criterion for stability. Frequency respone methods-Bode,Nyquist: Nichols pi at etc.

PART B

EEE 403 Power System Analysis2 hours per week 200 marks

PART APower network representations, per-unit system of calculations, react-ances of a synchronous generator 'and its equivalent circuits, voltagecharacteristics of load, power and reactive power flow in simplesystems, load-flow studies of large systems using the Gauss-Seidelmethods, control of voltage;- pow-er and reactive power, use of networkanalysers and digital computers, symmetrical fau It calculations, limitation ofshort-circuit currents using regulators •.

Type of systems and system analysis in time domain.compensation using root locus and frequency methods.sation. Introduction to state variables.

EEE 402 Control Systems Sessional3 hours every alternate week 50 marksLaboratory experiments based on EEE 401

Root locus. CascadeFeedback ~ompen 0

PART BSymmetrical components, -positive, negative and zero sequence networksof generators, tqmsformers and lines, sequence network of systems-'"unsymmetrica I fault calculations. .,;..{Power system stability involving two-machine systems, swing equation,Equal-area criterion of stability and its applications, solution of -swing

- equation, factors affect ing transient stabi lity.

EEE 404 Power System Analysis Sessional3 hours every alternate week 50 marks

-Laboratory work based on EEE403

152

\, ;, I

1!

iI, I1I, ,

Ii

\I'I\ j

II

153

PART BEconomic marg.inal transmission cost. Graphical solution for location ofdifferent tYpesof dist ributio n. Recatangular d istr ibut ion of loads. Economic

conductor section. General consideration.The ideal conductor. Effect of any deviation from the ideal croSS section.Limits for size of unde,r ground cables. Selection of ideal supply .voltage.

. PIant perlo rmance and operation characteristics. Performance characteristics.Efficiency. Heat rate. Incremental rate method. Station performance cha-racteristics. Station incremental rate: Capacity scheduling. Base load andpeak load. Load division between steam and hydro stations. Bus systems.Importance of power control. Current limiting reactors. Different types ofbus system layout. Forces on buses in the case of short circuits. Nuclearpower stations. Comparison with conventional generation methods. Chainreactors. Moderators. Classification 0 f reactors. Typesof reactors. Special

power reactors. Shielding.EEE 407 I ntegrated Circuits and Industrial Electronics

3 hours per week 300 marks

PART AReview andanalytical treatment of bipol ar-transistor • FET. UJT. MOS andCMOS transistors. IC technology: Fabrication and characteristicS of ICs.Detailed study of FET. MOS and CMOS integrated circuits. IC devices:

amplifiers, oscillators and special devices.

PART Bpower rectifying devices. gas-filled tubes and power transistors. Controlledrectification using Thyratrons. Ignitrons and SCR. Use of DIACS and

EEE 405 power Stations2 hours per week 200 marks

PART Apower plant load curves: Estimates of load, load curves, stuOY andanalysis of load curves, Interpretation of load curves. Determinationof actual demand and capacity of various components in a system, Plott-ing the expected load curve of a system. Use of the load curves.Load growth and. extrapolation of load curves. Selection of plant:Effect of vari able load on power plant design, continuity of servicerequirements. its effect on plant design. Cost consideration. Equationsof performance for plant equipment and electric service. Selection ofunits. Standby units, large or small units. Number and sizes of units,Plant location. Considerations for site selction for different types ofplants; General considerations for different types of power plants-Big.

medium and small, conventional and nuelear.

{III

Calendar

.' ,-.

rI•,

TRiACS in. power control. Saturable reactors and magnetic amplifiers.Electronic contro.1 of motors. I ndustrial relay circuits. Timing ci rcuits.Photo-electric devices and circuits. Electronic control of welding machines.induction and dielectric heatings and their applications in industry. SolarCells and their applications. .

EEE 408 Integrated Circuits and Industrial Electronics Sessional3 hours every alternate week 50 marksLaboratory experiments based on EEE 407

EEE 410 Telecommunication Engineering Sessional ,3 hours every alternate week 50 marksExperiments based on EEE 409

EEE 411 Science of Materials2 hours per week- 200 marksPART AAtoms and aggregates of atoms, crystal's, waves in crystals, SchrodingerWave Equation. Quantum statistics; Conductivity theory, Collision theory

PART B

Transmission principles, power levels, attenuation and de 'ay distortions,cross talks, transmission standards, echo and noise, wireless telephony,carrier telephony, repeater, SSB transmitters and receivers, high accuracycrystal latticefi Iters, introduction to VHF an'd UHF systems, space commu-nications, tropospheric scatter' and satellite communication, lasers and ma-sers with app.lication in communications. Frequency modulation and demo-dulation periodic sampling and pulse modulation, comparative analysis ofinformation transmission system, signal to noise ratio calculation in PPi\~,

., I .-

PCM and qualification for noise, introduction to statistical method:;cincommunications. ~..

EEE 409 Telecommunication Engineering2 hours per week 200. marks

PART AIntroduction to telegraphy, single current and double current. telegraphy;teleprinters. VFT and carrier telegraphy, introduction to t?lephony, manualswitching systems, electro-mechanical switching-strowgerand EMD systems,electronic switching, Reed" relays, basic impulsing circuits, uniselectors,group selectors and final selectors; Trunking diagrams-strowger system andEMD systems; Distribution frames-testing and protection of telephone lines.traffic calculations, introduction to network planning. ;'::Introduction to information theory-Measurement of channel capacity, signaltransmission through HC network.

i"",.,\,1,:[,;~i!'i:il'f:t;

1~.,;.1

~~~~1,fi"1~.

'ulffi

iIi~j.,a:,.~[li;

I"" .,J

I I1!

t

I iJ•

~ir 1:/I ' ., ,;~I IJI '.'

r{ ),r ",i'lq

,~'1',,f}:t1~'f;

154 BUET

..,....!IlII-II!!!'};~,-i!!;lLr!:!!.{i5~Q!!!Jl..;=:-w;£- <t;:5Z. '::IiliIII:lIIll.- •• --~~~. -__-...c--. -."-"- .... - ... -_--~..;. c-..-::..;;..-..-_'-- ...;,--.~~~~.~~r:t:.~!_~_,,.., ...=. "'--=--.,,"". ""'-.-••...."..==.~-

'I.'

!

.\

. 'I'/'

and conductivity 6f metals, conductors, Carrier Trans;l::>rt theory. P-Njunction, metal semiconductor junction, surface phenomenon, photocell,solar cell,' tunneling principles, dielectric: polar and non-polar dielectrics;Langevinin function, Clausius- Mossotti aquation, ferroelectric ity.

PART BMagnetic properties of materials: magnetic moment, domain wall motionand coercive force in . crystals; polycrystalline and permanent magneticmaterials,' magnetic resonance, testing of magnetic materials. superconduc-

tivity. Quantum electronics.

EEE 413 Switchgear and Protective Relays2 hours per week 200 marks

PART A'Circuit breakers; Speed of circuit breakers. Relays Voltage rating (high,medium, lower, low) of circuit breakers. Oil circuit breakers. Circuitbreaker operating me.chanisms and control systems. Arc extinction.Recovery voltage. Oevices to aid arc extinction' in oil. Maintenanceof oil circuit breakers. Air circuit breakers. Air blast circuit breakers.Ratings of. power circuit breakers and selection of circuit breakers.Testing of ci rcuit breakers. Protective Relays: General requi rements.Relay operation principles. Construction of relays. Relay currents and

voltages; Use of instrument transformer for relays.

PART BProblem of high speed rei aying of transmission lines. Overcurrentrelays. Directional relays. Distance relays. Impedance relays. Reactancerelays. Mho relays. Modified impedance relays. Sequence and negativesequence relays. Balanced current relaying of parallel "line .. Ground faultrelaying. Pilot relaying principia s. Carrier pitot relaying. Operatingcharacteristics of different types of relays. Apparatus protection; Circuitsand relay setting. Generator and motor protection; Transformer protection.

Bus protection; Line protection.

EEE 414 Switchgear and Protective Relays Sessional3 hours every alternate week 50 marksLaboratory experiments based on .EEE 413

EEE 415 Microwave Engineering2 hours per week 200 rnarks

-PART AH. F. transmission lines, Smith chart, imp3dance matching and applica-tions, E. M. wave propagation, reflection and refraction, wave guides;

parallel plane. rectangular, coaxial wave guides.

Calendar 155

II

r'-'. ------.-.;..,...~~~~--....-,.-~~ ---~'..". ~.c ••~•• -~ ••••~,.,.~ -~.~~

t

Ii

.,,

i'l

~

.,i,,:,1:'

I.;

IiI':jIi

'J

Ii,!,.I

III

PART B

Transit time effects. Velocity modulation, space charge wave.microwave tubes, klystron, magnetron, travelling wave tube amplifier.Wave guide components, cavity resonators, antennas and radiation, hert-zian dipole, long antennas ana lysis, rad iation' patte ms, rhombic andslot antenna, frequency independent and logperiodic antennas, antennaarrays, introduction to antennas and array design.

EEE 416 Microwave Engineering Sessional3 hours every alternate week 50 markslaboratory experiments based on EEE 415.

EEE 417 Electronics III2 hours per week 200 marks

PART A,

Wave shaping. Electronic circuit design using OPAMP. Television engi-neering : basic television system, composite v ideo signal and television

'standards, television cameras, transmission and relay systems. Televisionreceivers: black and white, Principles of colour T.V.

PART B

Pr,opagation of Radio waves, Ionospheric, Tropospheric and ground wavepropagation. Effect of earth curvature on propagation. Radar-pri!"ciples ofoperation and radar systems, Radar equation, magnetron, pulse'r, TR. ATR,tubes, duplexer, radio-aid-to navigation, LORAN and ILS; Civil, militaryand weather applications of radar.

EEE 418 Electronics III Sessional3 hours every alternate week 50 marksLaboratory experiments based on EEE 417

I'r

i!i_I

iI

~.

I

I

J1

shapes.generators.

419 High Voltage Engineering2 hours per week 200 marks

PART A.,:High voltage supplies; AC Cascaded Transformers. Tesla coils; DC 11..Valve rectifier Circuits. Cascaded rectifiers. Electrostatic generatprs; ~i:/Vande-Graff' generators. Corona: Power loss calculations. Break down \.of solid, liquid and gaseous dielectrics. Insulation tests. Standardspecification.

PART BImpulse generators. Impulse wavedesign consideration of impulse

156

jJ

:1l

"

EEE 420 High Votage Engineering Sessional3 hours every alternate week 50 marksLaboratory experiments based on EEE 419

157

voltages, Transmission line designco-ordination. Lightning arresters and

Ca lendar

EEE 424 Electrical Circuits III Sessional3 hours every alternate week 50 marksLaboratoJy experiments based on EEE 423

EEE 423 Electrical Circuits III2 hours per week 200 marks

PART AIntroductory network concepts. Definition and symbo Is. Sign convention.Terminals and ports. Network functions. Complex frequency, Drivingpoint and transfer functions. Representation by poles and zeros.Properties 0 f network function, Properties of immititance function;Positive real function. Hurwitz polynomials. Natural frequenciesofnetwork; Parts of a ,network function (Magnitude and phase plots,code and Nyquist diagrams). Minimum phase trasfer function. Cal-culation of a network! function from prescribed real part, imaginarypart magnitude or phases. Synthesis" of two element : Kind-one portLC, RC and RL one port network.'

PART BTwo port networks. Classificatin and characterization of two ports. Two portparameters and natural frequencies. Interconnections of two ports. CommontVI/Oport configuration. Scattering parameters. One end paramAters; itera-tive and image parameters. Filters: Type of filters. Frequency and impedancescaling. Image parameter. Filter; Design frequency transformation, Butter-worth and Schebychevresponse. Insertion loss. Methods of network Ana-lysis. Block diagrams; Signals flow graphs. St ate va iable techniques. Latticenetworks. Bartletts bisection thorem. Synthesis of Lattice network. Unbalan-cing of Lattice networks transmission chara cteristi c. Signal distortions. Re-lationship between bandwit hand. rise time, and between rise time, delay

time and net-functions.

generators. Measurement of highbased on direct strokes, , Insulationprotector tubes,

POSTGRADUATE COURSES

EEE 6011 Engineering Analysis 3 Credits

Professional methods of dealing with problems. Mathematical andphysical principles applied to problems of diverse topics in electricalengineering. Si'mulation techniques; statistical methods,

Concepts and properties associated with state and state equations;Linearity and time invariance; State vectors and state equations oftime invariant. differential' systems; Linear time invariant differentialsystems; Stability of linear differential systems; Impulse response ofnon-differential linear systems; Impedance functions. Transfer functionsand their properties; Discrete-tim e systems.

3 Credits

3 Credits

3 CreditsEEE 6012 Energy Conversion

fEE 6101 linear System Analysis

EEE 6102 Network Synthesis I

Energy conversion processes; General introduction, energy sources .•principles .of conservation of energy balance equations. Direct electricalenergy conversion: Introduction; Magnetohydrodynamic (MHO) ; Fuelcell; Thermo,.electrostatic; Ferro-electric; Photo-electric; Photovoltaic,electrostatic and piezeoelectric energy conversions; Characteristicsincluding efficiency, power densities, terminal properties and limitations.

Electro-mechanical energy conversion; General introduction of electricalto mechanical, mechanical to electrical and electrical to electricalconversions; BuIk energy conversion devices; General formulations ofequations; Co-ordinate transformation and terminal characteristics.

Properties of driving point and transfer impedance; Driving point and'"transfer functions of two-element kind networks; Synthesis of LC' driv-ing point impedances; Synthesis of R-C driving point impedances, pro-perties of two terminals-pair networks; Synthesis of loss-less twoterminals pair network, real-part sufficiency and related topics;-Synthesis of RLC driving point impedances, filter design.

Transformer-loss driving point impedance synthesis, conventional methodsof transfer function synthesis. Other methods of realizing transferfunc;tion. RC transfer function synthesis. The approximation problems •Time domain synthesis. ~.

.;

EEE 6103 Network Synthesis II 3 Credits

i1

158aUEr

\

\

159

3 Credits

3 credits

3 credits

3 credits

3 credits

3 Credits

Bias and thermal stab iii ty ; High frequency and transient behaviour oftransistors; Z. Yond H parameters in T and equivalent circuits; Matrixapproach; Amplifi ers : AmpIi fier stabiii ty; 0sci Ilato rs ; Integrati ng. differ-entiating. counting. timing and pulse circuits; Wave forming and wave

shaping circuits; Logic circuits.

EEE 6401 Advanced Electronics

Introduction : Types of switching systems; Nature of telecommunicationt ramc; Full avai1abiIity; Limited availability and Iink system : Lost caIIcleared theory; Lost call held theory; Non-blocking networks; Charac-teristicS of telecommunication network planning; Tramc measurement:

Traffic prediction ; .Traffic simulation.

EEE 6203 Telephone Traffic Theory

Fundamentalsof probability theory with a brief review of the methods forthe representationand analysis of linear system. Definition of a measureofinformation. Discrete noiseless and noisy systems: Channel capacity. coding

-the continuous case.

EEE 6202 Information Theory

Periodic and random signals; Stationary random processes; Elements of pro-bability theory. statistical characteristics of messages and noise; Auto-correlation ; Cross-correlation and spectral analysis. Determination of corre-

lation functions and separation of signals from noise.APplication of correlation techniques. Optimum filter. prodicto

retc.

Synthesis of optimum linear systems.

EEE 6201 Statistical Theory of communication

Approximation problem; potential analog method Distributed net-works; FilterS. delay lines. matching transformers. directional coupler••

multiplexers. sensitivity analysis, time domain synthesis.

EEE 6105 Advanced Topics in Network Theory

Numerical methods; Graphical methods; Equations with known exactsolution; Analysis of singular p,oints; Analytical methods; Forcedoscillating system; Systems describedby differential difference equations,Linear different ial equation with varying co-efficient, Stability of non-

linear systems.

EEE 6104 Nonlinear Circuits

EEE 6402 Quantum Elactronics 3 credits

Topics in quantum theory important for measure and other quantum-elec-tronic devices. Interaction of radiation and discrete energy level systems.Stimulated transitions rate equations; Generalized block equations; Micro-wave solid state masers; Optical masers; Noise and fluctuation phenomenain masers and other amplifiers. Introduction to the quantized electroma-gnetic fields. Interaction of matter with quantized radiation field.Quantum statistics and description of noise; Non-linear quantum effects.

3 CreditsEEE 6403 Solid State Devices

Solid state diodes and triodasIntegrated electronic circuits.

Solid state microwave devices;

EEE 6404 Active Circuit Design 3 Credits

Multi-stage low pass and feedb3ck amplifiers; High frequency band-passamplifiers; Coupling and matching networks.

EEE 6501 Electric and Magnetic Properties of Materials 3 Credits

Crystal structure; Dielectric properties of materials; Magnetic pro-perties of materia Is; Conduction in materials and semi-conductors.Gaseous discharges and properties of plasma.

EEE 6502 Electronics of Solids 3 Credits

Crystallography; Energy bands and phoneus transport theory of solidswith emphasis on semiconductors; Superconductivity. Solid state devices,solid state diodes and triodes; Solid state microwave devices; Integratedelectronic circu its.

EEE 6503 Laser Theory 3 Credits

Quantum electronics applied to electronicClassical radiation and abs:>rption '0'1 electronicsolids. Principles of gaseous and sol id stateequations ..

energy level transitions.narrow band spectra oflaser devices. Laser rate

EEE 6601 Applied EM Theory

160

3 Credits

...•...' ..,

... , (

.i I1{

, It,

~ . t________ .:.1

18-------I .

: ;

Calendar

\I

II\

1

161

3 credits

3 ~redits

3 Credits

3 Credits

tntroduction; Transform and modified Z transform; Root-Locus and fre-quency method of analysis of sampled-data systems. Compensation. discreteand continuous method. Physical realization of discrete compensations.

EEE 6702 Sampled. Data Control Systems

General introduction: The phase plane; Method of isoclines; Linenard'smethod; Pelts method; Common non- line;:!rities : Transident response fromphase trajectory; Describing functions and their applic~nts ; Relay servo-

mechanism. Liapunov's method.

EEE 6701 Non-Linear Control Systems

Definitions. antenna as an aperature; Arrays of point sources; Reviewof dipoles, loop and thin linear antennas. Helical antenna. biconicaland spheroidal anten'cas. Internal-equation methods, current distribution;Self and mutual impedances; Arrays; Design and synthesis; Reflector-tYpo antonnas. Babinor's principlo and complementary anton nas ; Solect andHorn antennas. Lens and other types of antennas. Application ofreaction concept and variational princip les in antennas and propaga-tion; Frequency independent antennas. Scattering and defraction. Selec-ted topics in microwave antennas. Antenna measurements. Application tobroadcasting. microwave links, satellite communications and radio astro-

nomy.

EEE 6604 Antennas and Propagation

Electron guns and their design; Interaction of electron beams andelectromagnetic fields. Details of mircrowave tubes. Masers, parametricamplifie~, solid state. microwave devices, micro-wave circuits; Matrixrepresentation of microwave junction; Periodic structures and backward.wave oscillators. Microwave component design. Analysis of waveguidediscontinuations and non-reciprocal microwave circuits, selected topics.

EEE 6603 Microwave Tubes and Circuits

EEE 6602 Microwave Theory and Techniques 3 Credits

Mircrowave oscill ators and amplifiers; Princip les of generation of. millimeter and sub-millimeter waves; Detai led analysis of Klystrons.Magnetrons and TWT .ampl ifiers and backward-wave oscillators. Har-monic generators. Gunn-effect devices. Microwave circuits; Mircrowavenetwork analysis and synthesis. Matrix representation and scatteringmatrix. Analysis of waveguide discontinuation obstacles. junctions andcavities and strip-lines. Methods of microwave precision measurements.

General intruduction ; State s~ace concept; System design by state- Tran-sition method,. concept of controllability and observability. Optimal control-variational calculas method; Principle of maximum and dynamic programming.Stochastic and adaptive control processes. On-line computer control.

fEE 6704 Optimal Control Systems .3 credits

The .optimal control problem. Cost functionals. Use of calculus of variationsin optimal control. Optimization by. Pontrygin's maximum prinicipleanddynamic programming; applications. Linear regulator problems. 'Computa-tiona I methods of solving two-point boundary value problems..

3 Credits.

3 creditsEEE 6703 Modern Control Theory

Introduction to powerwith special reference

162

Introduction to different . engineering systems and types of mathematica'!models .. A brief introduct!on ,to' statistical models with applications.Complex curve fitting. models from sampled time response of variousengineering ~ystems with emphasis on electrical engineering system~..Modelling of electrical energy generating systems, Recent advancesin':'j?~;}l~;system modelling. . 'A;'.

~:t~Od:::~onG::er:~::~aliZ:a:::::neT~:::~y~:ro:~sed~:;mitivem~~hine;.,<~~~Moving to fixed-axis transformation; Parke's transformation ; Three~phase ;:.'.~.F.'?~~:..to d---q transformation; Variable co-efficient transformation, other trans'-. ,.

formation; Matrix and tensor analysis of machine, Three-phase synchr.onous :..::..;•......:::..•..;,~_,..:~,..;,.•.,~.~....•~:,::.(.,:,.and induction machine; Two-phase servo inotor; Single-phase induction.,.,

moto r. Smooth- moto r two -phase doubly: exC.ited machine;' Smooth-airlJap ...••::.:...•.~':..;~.;::,::.::,t!.'••two-phase synchronous machina. Two-phase' induction machine. The n--..:m' . .; .

.• -;--i).,';";~:d~:~ric::~~;~~:~I.s~a~~~:i~eDia:~:al~~:~~.~~rm~ti~~a:::e~:variable; i"c:~'~~::rs:80~11s:::a;:~~nc::rent3 re:::~~:StOPiCSen electric.1m.chines .";[~J::£:T:~~:::::~~~n~~::~E~:c~;:~::~~~~ed;v~~::~e~om::~::.....•.;~.~t~~i~EEE 6803 Power Semiconductors and Modulators 3 credits .. ]..'.:.,t;.;:(:~:+~;:

~ '. .' - ."...~.~~:~":~~-~-~~',~~,;~~':'.~::~<'~-modulators; Review of semiconduc:ti()t~'iprin~~P'J,~.:i::.::f;::,;t.t:;;:-:to. higher current ratings. Power: .S-CRS".,t.h~:j;t~.;,.oJS;;.:i.':'~d,:f

'. EEE 6705 Statist.ical Models for. Engineering Systems

General principles of optimization, \ its application to power systemplanning, design and operation. Probability analysis for bu Ik powersecurity and outage data. Economic operation of power system-econ-

- .

mic operation of thermal plants, combined thermal and hydro-electricplants .. "Dheory of economic operation of inter-connected areas. Deve-lopment and application of transmission loss formulae for economicoperation of power systems. Methods of optimum scheduling and despatchof generator.

EEE 6804 Advanced Machine Design 3 credits

Gen'Hal Treatment of Electrical Machine Design. Review. of standardprocedures in design of D. C. machines, A. C. machines, transformers) andspecial machines. Optimization and synthesis of des ign procedures.Application of- material balance and critical path principles in electricaldesign. Design economics and safety factors. Applications of computers. inmodern designs including the operation of the machine in non"linearranges;Magnetic flux-plots and heat transfer process, .etc. Mechanical design ofelectrica I 'machinery and relation between mechanical an:d electric machinedesign.

Optimization of Power'Svstem Operation

,

I\

1\1

,-.j

II\

\i

I\

3 Credits

power devices. Power thyristors. Commonmetallic end semiconductors. Power fre-

design and application topower rectifiers-Mercury-arc,quency m!Jltipliers.

EEE 6901

rI~.rr

EEE 6902 Computer Aided Power System Design 3 Credits

General review of netwok and matrix theories. Algorithms' for formationof network matrice's. Three-phase networks flux-linkage calculations, lineparameter calculations, short-circuit calculations, load f low studies,system stability studies, prediction of reliability, over voltages and relayco-ordinations.

EEE 6903 Protective Relays 3 Credits

Relay design and constructions; Mli.l characteristics of protectiverelays. Over current, directional differential distance and pilot relays.Static relays. Comparators. Errors introduced by C.T's p.r:. on relayoperation. Unear computers.

Effects of transients on relay operation. Harmonic relaying. Reliabilityof relays. Maintenance and testing of relays. Relaying of the future.

Caledar 163 , :,;~_.

rII

(

EEE 6904 Power S\"stem $tab.ility 3 jcredits

The stability problems of power system. Distinction between steady stateand transient stability. The swing equation and its solution. Solution ofnetworks f01 stability studies. Transient stability limits criteria. Two machineand multimachine problems. Stability under different types of faults.Typical stability studies and methods of improvi-ng .stabi lity.

The influence of swinging and out-of step operation upon protective relays.Rapid reclosing for improving stability.

EEE 6905 Transients in Power Systems 3 credits

Transients in simple electric and magnetically linked-circuit';; Fundamen-tals ; I mpacts of switching on rotating machinery, Parallel operation of in-terconnected networks; Distribution of power impacts. Interaction of Go-vernor'sin power systems. Overvoltages during power system faults. Systemsvoltage recovery characteristics. Effect of arc restriking on recovery voltage.Switching surges and over voltage arrester requirements. Overvoltages cau-sed by sudden loss of load and by open conductor.

1e4 BUn

I,

\

(-.

'" ., l~J1,"j'. '

\1; I.1'1l~,U(

~ •• " • ¥

~If',r.'i..r. I

.!~ i.'I.' '";: , :\ I'r'~?I. ~

. ~:. :I, ; ~,

> ~ :

"fij,. :,:.

Ii,' •.•.

"r,:,':j'-,

, (:'\ •• 1

165

SessionalChE 202 Materia' and Energy Balance3 hours every alternate week 50 marksLaboratory experiments bas,ad o,nChE201

Calendar

PART AReview of material.and energy balances involving recycling parallel and by.pass operations. Operations involving vapourization, humidi fication, psy.chrometry, phase diagrams. Material balances with chemical reactions andmultiple components use of algebraic techniques. Energy balances involving

change of phases.

PARTBEnergy balances on chemical processes. Heats of format'ion and reaction, eff.ects of temperature and pressure. Haats of mixing, so lution. Enthalpy-com~ •position diagram. Combustion, th~oretical flame' temperature, optimum excessair,' ultimate CO

2• Stoichiometry and unit operations in. industrial processes.

Faculty, of Engineering

ChE 201 Matedal and Energy Balance

• -3 \lours per week 250 marks

Department of Chemical EngineeringUNDERGRADUATE COURSESChE 101 Elements of':Chemicai ,Engineering

2 hours per we~k 150 marks

PART AScope of Chemical e'ngineering. Principles of chemical engineering calcula.'tions : Systems of units"basic concepts of dimensional ana lysis, process va-riables, basis of calculation, conservation of mass and energy. ' Material ba.lance ; overall and component balance, recycle and bypass, simple reactivesystems and combustion reactions. Energy balance : Forms ~f energy. and thefirst law of thermodynamics, thermodynamic data and tables, energy balance

on closed and open systems.

PART BApplication of mass and energy balance to reai processes. Measurementsof process variables: fluid statics and manometry, mechanical energy ba.lance, flow measurement, temperature measurement. Computational, techni.quas : the method of least squares, solution of algebr.aic equation~ byNewton's method, numerical integration, application of computers in chemi':'

cal engin eering.

ChE 203 Fluid Mechanics3 hours per week 250 marks

PART AReview of fluid statics and manometry, force on .submerged bodies. Conceptof shear stress and classification of fluids. Dimensional analysis. FloW ofincompressible Newtonian, non.Newtonian and compressible fluids inclosed conduits. Flow rate and pressure distribution in menifolds and loops.Frictional losses in pipes and pipe line design. Pumping of liquids. Mixingof liquids.

PART B

Microscopic balance: conservation of mass and momentum, stress in a fluid,symmetry .of stress, deformation: Newtonian fluid and constitutive equation,Navier-Stokes equations in different co-ordinate systems. Exact solutions ofNavier-Stokes equation. Approximate solution of Navier-Stokes equation:Stream function and two dimensional potential flow, creeping flow arounda sphere. boundary layer flows. Macroscopic balance and their applications.Turbulence flow. Compressibl e flow and. energy equation. Two"'phase gas-liquid flow.

ChE 204 Fluid Mechanics Sessional3 hours per week 100 marksLaboratory work .based ChE 203

Ch'E 205 Chemica.1 Engineering Thermodynamics I2 hours per week 150 rnarks

PART AScope of thermpd~namics. fundamental quantities, secondary quantities.The first law and other basic concepts: Jou les experiments, internalenergy, the first law of thermodynamics. the thermodynamic stateand state functions, extensive. and intensive properties, enthalpy,steady state flow process, phase rule, reversibl e and irreversible processes,

. heat '.capacities-and-"'specific heat. Volumetric properties of pure fluids:P-V-T behaviour of pure substances, the ideal and non-ideal gas and equa-tions of state, applications of equa tions of state. Heat effects: heat caps:'cities of gases as a function of temperature, heat capacities of' solids andliquids, heat effects accompanying phase changes of pure substances, thestandard heat of reaction, effect of temperature on the standard heat of re-action, effect of temperature on the standard heat of reaction.

j;,

- ;

PA RT BThe second law oflaw. Heat engine.

166

thermodynamics; a Iternative statements of the secondThe thermodynamic. and idea I gas temperature scales.

SUET.

~...

" .

";~ l; i 1

. '

('...;

167

ChE303 Mass Transfer3 hours per we'ek 300 marks

PART AIntroduction to mass transfer processes. Phase equilibria, Equilibrium stageconcept. Solvent extraction: liquid-I iqui:i extract ion in single and multiple

PART A ~',:,Modes of heat transfer, mechanism of thermal conduction' 'in' solids',' 'liquidsand gases, other thermal' properties. Steady state heat conduct'i'dn in 'oneand two dimensions, extended surface~, transient heat conduct ion. Nume-merical and graphical methods of solution in heat conductfon'. The basicequations of momentum afld heat transport, turbulent transport. Some exact

arid approximate solutions of convection heat transfer.

PART BDimensiona! analysis, dimensionless c9rrelations for forced and free convec-tion. Heat transfer with phase change: Boiling and evaporation, bubblegrowth and critical bubble diameter, po 01 boiling, forced convection boi-ling, film aod dropwise condensation. Thermal rad iation : black body radia-tion, exchange betwe'en infi ni te and finite surfaces in different enclosures,radiation shields, radiation from gases, flames and solar radiation. Designof heat exchangers: Mean temperature in different flow arrangements, NTUmethod C?f heat exchanger calculations, materials of con~t~uction and mecha-nical a~pects of design. Design considerations multiple effect evaporation'. systems, furnace calculations. Measurement of temperature and thermal.

properties.ChI; 302 Heat Transfer Sessional4 hours every alternate week' 50 marksLaboratory work based on ChE.301

Calendar

'.

The concept of entropy: ~l1tropy, changes and irreversibility. lost work.The third law 'of thermody~rni~., j!h8fmodynamic prppei-tie~l:ot {Iuids: rela~ti,onshipsamong the th~!.mod~"tWP ,prc;>perties, singl~ phase and twop~ase systems, type,s:o.f t~ermodyn.~mic ~iagra~$,' Conv~rsion pj heat. intowork by power cyc~~s : vapour .qycles. The steam.,QC;>j'!V~Hplant.Analysis ofthe steam power plant: boiler, eCc;),nomiser,supe,"i\J~ater.steam turbine. In-ternal combustion engines. otto eng~ne,diesele,,!9i,"!~,.Lgasturbine, jet engines.

ChE 208 Computer Programming and Applications

3 hours per week 100 mar~s'An in'troductory course in FORTRAN programming and its applications' to

simple problems in chemical en~ineering.

ChE 301 Heat Trans~er3 hours per week 300 marks

contract extractor with completely immiscible and partially miscible solvent,use of triangular diagram for stage calculations, ba.tch and continuous leach-ing and washing of solids. Binary dist illation: equilibrium flash anddifferential distillation, batch and continuous distillation with reflux. use ofenthalpy-concentration diagram for stage calculations. Tray hydraulicsand design considerations .. Tray efficiency. Multi-component distillatio~:bubble and dew point calculations for multi-component systems, simplifiedmethods for multicomponent disti lIation.

PART B

Basic mass transfer theories; diffusion of gases and liquids, diffusion throughstagnant layer and equimol ar counter diffusion, mass transfe r between gasand l.iquid phases, two film theory, HTU and NTU concepts. Continuouscontact mass transfer: packed and spray column, gas absorption in packedcolumn, continuous I iquid-liquid extraction in columns. Simultaneous heatand. mass transfer operations: principles of sim:.Jltaneous heat and masstransfer, humidificati on-dehumidification processes, use of psychrometricchart, theory of wet- bulb temperature, cooling tower calculations; drying,theory of drying of solids, types and design of industrial dryers. Ion ex-change: principles of ion exchange separation and industrial applications.Crystallization; basic features and types of equilibrium diagrams, crystani-zation mechanism, design calculations, types of industrial crystalizer.

ChE 304 Mass Transfer Sessional4 hours every alternate week 50 markslaboratory work based on ChE 303

ChE 305 Chemical Engineering Thermodynamics2 hours per week. 200 marks

PART ASolution thermodynamics: relationships among the thermodynamic properties..for systems of variable composition, partial molar properties, fugacity andfugacity coefficients, fugacities in ideal sQlutions, propert-v---.changes onmixing, activity and activity coefficients, heat effects of mixing processes.Phase equilibria: Nature an.dcriteria of equilibrium, the phase rule and theDuhem's theorem, vapour-liquid equilibrium calculations for miscible systems,Gibbs-Duhem equation. Chemical reaction equilibria; the reaction co-ordi-nate, criteria of equilibrium for chemical reactions, equilibrium constant,.ffect of temperature on equilibrium constant, eva luation Of equil ibriumconstants, phase rule and Duhem's theorem fo r reacting systems.

168 BUtT

- - -----~._-'-_._._,..-..---_._-----. -.-. -

I ~I ..

PART BThermodynamics of flow processes ; fundamental equations, conservation ofmass and energy, mechanical energy balance, maximum velocity in pipe flow,metering and thr.ottling. processes, non les, compressors, ejectors. Refri-geration and liquefaction : Carnot refrigeration cycle, ai r -refrigeration cycle,vapour compression cycles, comparison of refrigeration cycles, absorptionrefrigeration. Heat pump, liquefaction processes. Thermodynamic analysis ofprocesses: Ideal work, lost work, thermodynamic analysis of steady flow

processes.

ChE 307 Particle Technology2 hours per week 200 marks

PART AHandling of particulate solids; particle size and screen analysis; pressure inmasses of particles, storage of solids. Size reduc tion: size distribution incomminuted products, energy and power requi rements in comminution, sizereduction equipment. Fliud-solid momentum transport: drag curve, pressuredrop in packed beds, fluidization and sedimentation, slurry transport andpneumatic conveying, .cyclones, two. phase flow in packed beds and flood ing

and loading characteristics.

PART BFluid-solid separation based on momentum transport : pretreatment of solid-liquid mixture, theory of coagulation and flocculation, gravity thickening,hydrocyclones. centrifugal sedimentation .. Filtration; flow through' porousmedia,. filtration operations and r)]sic e::tuations for incompressible and com-'pressibl.e cakes, deep bed, pressure, vacuum and centrifugal filtration, filter

media. filteT .aids, cake washing and dewatering.

ChE 308 Particle Technology Sessional3 hours every alternete week 50 marksLaboratory work based on ChE 307

•

i ~'

\ ,

ChE 309 Principles of Food Preservation. and P.r.oc8Jlsing

2 hours per week 200 marks

PART AFood composition: carbohydrates, lipids, proteins, vi tamins, minerals, pecticsubstances in food. Flavour, ar!?m:l and natural pigment of food: Em:ymes :classification and function of enzymes. Food analysis : nutritive value offood; nutritive value of protein, carbohydrate, vitamins, minerals. Effect ofcooking and processing on the nutritive value. Food additives.

t,"

Calendar

_. -_ .• - -<. -. '.'

,';:2A'h ~ t'-H ""''j~tdt .•.~,w....$d"'-i.•,.~-,---.-,

169

PART 8

Fundamentals of microbiology : microbes in food and fermentation indus-tries. Morphology, physiology and genetics of bacteria, moulds. yeasts,fungi, actinomycetes and algae. Principles of serology and immunology.Viruses. Growth and destruction of microorganisms: growth curve. Physi- .cal and chemical factors influencing the destruction of microo rganisms.Energy metabolism of aerobic and anaerobic microbes. Nitrogen fixation.Microorganism in natural products and their control; source and preventiongeneral principles of food preservat ion. Microbiology of atmosphere, water .

. ' . .

milk and milk products. fish, fruit. vegetables, meat poultry products andcanMd foods. Basic principles of food plant sanitation. Food pqisoning,

ChE 311 Polymers and Petrochemicals2 hours per week 200 marks

PART A

Introduction to polymeric materials and polymer processing technology, clas-sification of polymeric materials (linear, branched, crosslinked, types of C 0-

polymer'setc.), molecular weight and its distr.ibution and their measure-ment, ch~mical structure, manufacture and technologica I properties of indus-trial thermosets and thermoplastics and comparison with other materials(economics. commercial grades, special formulation requiremants andservice limitations), materials: PE, P"P, PVC,. PVA, polymides andother synthetic fibres, PTFE, polycarbonates, epoxy resins, cross-linkedplastics etc. . product design criteria, technology of' processing (ex-trusion, mixing, molding. calen::fering, film blowing, GRPtechniques).

PART / B .

Introduction, petrochemical feed stock. production of synthesis gas andits utilization in manufacturing ammonia, .methanol and oxochemicals, pro-duction of acetylene based compounds (polyvinyl acetate, alcohol, higheracetylene). production and ut ilization of ethylene production of propyleneand its uses, manufacture of butadiene and butadiere rubber, produc-. tion-of aromatics- ana waxes from petroleum and their uses.

ChE 313 Glass. Ceramics and Cement Technologv2 hours per week 200 marks

'PART A

Structural characteristics of ceramic materials, kinetics of high tempera-tura reactions including sintering and vitrific,Jtioil, malting crysta llization'aindglass formations, ceramic phase equilibrium diagrams, non-equilibriumphases. Raw materials, manufacturing processes and chief properties of glas8.pracelain, refractories and whitawares.

170

---------_ ....•_-----=-=~---'----_._._.

( ,., '

t\

f '

',' PART BGlazing and decorating of procelain and stone wares. Firing methods and kilnsfor 'ceramic and whitewares. Furnaces for glass manufacture. Raw materials,manufacturing processes and properties of cement. Heat and mass balance

around cement kiln.

ChE 314 Chemical Process Analysis Sessional

3 hours per week 100 marksProcess descriptions and calculations of the following industries : Gaseous,liquid, solid & secondary fuels, sulfur ,compounds (sulfuric acid), nitrogencompounds (ammonia, urea), lime & cement, chloro-alkali industries, air-conditioning & refrigeration (humidification-dehumidification). ceramic in-dustry, phosphorus industry (phosphate fertilizer), soap & detergent. sugarindustry, pulp & paper industry. fermentation industry. petroleum & petro-

chemicals.

", "

I

;/i:'

J

"';I J

I'I'!! .

.. ' i

171

ChE 401 .Chemicel Reliction Engineering

2 hours per week 200 marks

PART AKineticS of homegene'ous react ions, variables affecting rate, elementary ,andnonelementary reactions, types of reactors, interpretation'~ of laboratoryreactor data, design of reactors, multiple reactorS systems, re~ycl~ reactor,

ChE 400 Project/Thesis6 hours per week 200 MarksWith the assisstanc8 of a teacher the student wi" select a problemin any field of chemieal . engineering. The problem must require experi-mental work and not be merely a paper .thesis and must be sufficient IV .limited in scope so that the student can expect to attain a satisfact-ory solution in one year of work. The purpose of this course is tomake the student., responsible for planning and carrying out anengineering project and presenting his work as an acceptable eng ineering

report.

ChE 316 Computational Technique in Chemical Engineering

Sessional2 hours per week 100 marks '.Computational 'techniques in numerical methods of solution of algebraic andtranscendental equations. integr.ation and differential equations. Application

to .chemical enginee.ring design' and optimization problems.

Calendar

autocatalytic reactions, Temp'erature and pressure effects, equi librium calcula~tions, adiabatic operations, non-adiabatic operations, general graphicaldesign procedure, optimum ~emperature progression,' treatment of multiplereactions, kinetics of polymerisation reaction, polymer reactor design.PART B

Kinetics of heterogeneous reactions, mechanism of catalysis, types of cata-lysts, preparation and propert ies of catalysts, external heat and ry'Iasstrans~port processes, internal heat and mass transport processes. Experimentalreactors and treatment of data. Design of packed bed reactors, staged adia~batic packed bed reactors, design of reactors for uncatalyzed heterogeneousreactions,

ChE 403 Process Control

.2 hours per week 200 Marks.PART A

Laplace Transforms, transfer' functions for first order systems, physicalexamples of first order systems, response of . first order .systems inseries, higher order systems,' transportation laJ. Closed loop systems,controllers and final control elements, block diagrams; closed looptransfer functions, transi ent response of simple c antral systems, concept ofstabi lity, stability eri teria, Routh test for stability.PART B

Frequency respose methods, control systems design by frequency response,closed loop frequency by frequency response methods, Nyqu.ist stabilitycriterion. Controller mechanism, measuring instruments, transducersand transmitters. Control of complex processes,. experimental dyanamicsof complex processes, theoretical analysis of complex prOCesses,

ChE 404 Reaction Engineering and Process Control Sessional3 hours every alternate week 50 marksLahoratory work based on ChE 401 and ChE 403.

ChE 405 Materials Science aud Corrosion Engineering3 hours per week 300 MarkspART A

Engineering requiremen ts of material; inter-atomic attractive forces;the arrangement of atoms in materials, metallic phases and their proper~ .ties: ceramic phases and their properties, organic materials (polymers)and their properties, Multiphase materials, equilibrium relationShips,phase diagrams, Fe-C phase diagram. Modification of properties throughchanges in mircrostructure, heat treatmant.

172SUET

-----------------------_._--_._._----_ ..~-------_._--------

. ,Corrosion-definition and importance, electrochemical mechanisms,corrosion tendency and electrode potentials,. polarization and corrosionrates, passivity, Pourbaix diagrams,- behaviour of iron and steel.

PART BEffect of stress, atomospheric corrosion, soil corrosion, oxidation aridhigh temperature corrosion, stray current corrosion, cathodic and anodicprotection; metallic, inogranic and .organiccoa-tings, inhibitors andpassivators, boiler corrosion and water treatment. Corrosion resistanceof metals and alloys. Stainless steels, copper and copper alloys, alum-inum, magnesium, lead. nickel and nickel alloy.s, ri, Zr, ia, Si-FeandSi-Ni alloys; Industrial environments and appropriate materials,

ChE 407 Process Design2 hours per week 200 marks

PART AIntroduction, process design \ development, aspects of design con-siderations, energy conservatiort, structure of the systems (informationflow related to design) economic design criteria, optimum design.

PART BDesign standards and codes used for chemical processing equipment.such as columns, towers, pressure vessels, furnaces, heaters, heat exchan-gers, compressors etc., design of process .utilities such as, water treat-ment plants, cooling towers, steam handling and distribution, refrig.erationand air-conditioning, design and costing of process equipments: pumps,compressors, turbin~J •• heat exchangers, absorption and distillation co lumns,testing of above equipments as per AIChE, ASTM, API standards for

evaluating perfo'rmances and safety.

rI

I\. I

173

ChE 409 Economics and M3n3gement of Chemical Proce ••

Industries3 hours per week 300 marks

PART ANational economic policy, al ternarive investments. Principles of economicbalance. Opportunity cost. Project preparation. Project evaluation:

Calendar

ChE 408 Process Design Sessional

5 hours per week 200 marksExtensive problem work based on ChE 407. Integrated design of chemicalplant and equipment of particular importance in the scheme of nationaldevelopment from the view point of-both chemical engineering and

econo mics.

,.discounted cash flow, IRR, ERR, profitability. Accounting principles:journal, ledger and .trial balance. Profit & loss account, balance sheet.Depreciation. Taxes. Accounting f or engineering projects. Financialstatement analysis. Cost accounting: job costing, process costing andstandard costing, preparation of cost estimates. Cost-, control; breakeven analysis. Budgeting.

PART B

Principles of management: management functions; planning, organizing,supervising, motivating and controlling.' Manageria I skill. Analys isof human and organizational behaviour. Product ion management;production planning and control. Scheduling: CPM, PERT, productioncontrol. Qual ity control. Queuing and inventoiv contro I. _ Transportationalgorithms, optimization techniques, linear programming. Marketing,,management; market classification and segmentation, market analysis" pro.duct, price and channel decisions. Product promotion. Personnel manage-, ment; personnel policies, personnel records, ree ruitment and selection.Training. Grievance handling, Case studies in Chemical Process Industries.

ChE 411 Energy and Environment,2 hours per week 200 marks

PART. A

Enviromental chemistry: Oxides of carbon, nitrogen and sulfur in air,inorganic 'and -organic chemicals, photochemica I smog, trace level sub-stance;- mercury, lead, detergents, insecticides and' oils in water.Population, food supply and selected ecosystems ; Population growthand food situation, unconventional methods of increasing supply ofavailable protein and amino acids, interaction between man and variouseco-systems.

PART B

Classes of natural resources, sel ected resources and estimated reserves,energy fuels and additional energy -resources, energy conversion and cons-uming devices. Energy planning and management; policy and economicsin relation to various end-use sectors, regions, energy conservation, _totalenergy system. Social, legal and economic aspects of environmentaldegradation.

ChE 412 Energy and Environment Sessional3 hours every alternate week 50 marksLaboratory work based on ChE 411

/

174SUET

11

, j

175

:_" •• h-' •• j

\-.. :..'

.}./ ..

cansumptian .geochemistry

.andand

- .. - - --.--:-. .'

praductiangeology

reserves,cauntries,

..

petraleumin variaus

ChE 414 Pollution- Control Sessional3 haurs every alternate week 50 marksLabaratary work based an ChE413

ChE 415 Fuels and Combustian2 haurs per week 200 marks

PART AEnergy situatian and sources in Bangladesh. Classificatian analysisof fuels, essential praperties .of fuels, purific'ation "and fuels pracessing,st9rage and hadling .of fuels (designing .of sys~ems and facilities).

Energy saving devices.

PART BDesign and sizing .of burners, cambustlon chambers (furnaces) and stackfar different fuels. Kinetics .of cambustion. Evaluatian .of burner an~furnance aperatians. Sampling and analysis ..of flue gases•. Design and,aperatians .of tunnel kiln, , .r.o~ary,.kiln,,~eta! smelting furnances, directfired heaters. Safety in burner and furnace aperatians.

ChE 416 Fuel Testing Sessional3 haurs every alternate week 50 marksLaboratory wark based an ChE 415

ChE 417 Natural Gas and Petraleum Engineering

2 hours per week. 200 Marks

PART ACamposition' .of.of petroleum

Calendar

ChE 413 Industrial Pollution Control2 haurs per week 200 marks

PART AScope and purpose, saurces and nature .of pallutants in ai rand waterl;,Air pollution; measuring and estimating emissian fram sau rces, meter-alagical factars " methads .of reducing pallutants-physical. cambustian andcatalytic cambustian methads; methads .of gas cleaning-electrostaticprecipitatian, filtratian, scrubbing, sanic and ultra-sanic agglomeration.Water pallutian: waste water chracteristics, waste water treatment- iiJ'physical, chemical and bialagical methads, sludge dispasal.

PART BDisposal .of taxic wastes. Radialagical pratectian. principles. Nuclearfuel cycle and dispasal. Pallutian cantrol of specific industries: pulp andpaper,' fertilizer. steel, refinery, metal finish ing, tannary, faad phar-

maceuticals.

petroleum, prospecting for petroleum, exploration petroleum, drilling,petroleum . production, developing Petroleum fields, breakdowns-thejrprevention and liquidation, secondary methods of petroleum recovery,transportation and storage. of petroleum.

PART B

Introduction to the natural gas industry, properties of 'reservoir rock,phase behaviour of natural gas systems, properties of natural gasesand volatile hydrocarbon liquids, water-hydrocarbon systems, measure-ment and computation of vapor-liquid equilibria for complex mixtures,flow and compression calculations, gas-flow measurements, drilling andtesting of natural gas wells., steady and unsteady-state flow in reservoi rs,development and operation of gas fields, fields-separation and oil-absorption processes, fractional distil/ ation and low-temperature process-ing, dehydration and sweetening of natural gas, storage of natura!gas, transmission to market.

ChE 419 Transport Phenomena2 hours pQr week 200 marks

. PART A

Viscosity; thermal conductivity and diffusivity ; the mechanism of momen-tum, energy and mass, vebcity distribution in laminar flow, temperatureand concentrat ion distribution in sol ids and laminar flow, the equations ofchange for isothermal, non-isothermal and multi~component system, velocityand temperature distribution with more than one variable.

PART B, .

Velocity, temperature and concentration distribution in turbulent flow, in-ter-phase transport and macroscopic balances. for isothermal, non-isother-mal and multi-component systems, momentum, energy and mass transfer,analogy equations of Reynolds, Prandtl, Von Karman, etc.

BUET .

techniques,

fundamental features of models,to problems in staged operations,

design of experiments, Qptimizationin chemical reactor design.

estimation,to problems

PART BParameterappIicati on

176

ChE421 Mathematical Models in Chemical Engineering2 hours per week 200 marks

PART AClassification of mathematical models,

'general methods of solution. Applicationfluid mech~:lnics and heat transfer.

,-

ChE 425 .Nuclear Chemical Engineering2 hours per week . 200 marks

j.

, !

Ii'

, ...

! \

irf.j \.t i,I" •

"

I I 'j'! Il~

1

1

177Calendar

PART AGeneral features of nuclear reactors, reactor fuei cycle. Radioactivity,interaction of alpha and beta particles and gamma rays with matter, inter-action of neutrons with matter, the fission process. 'Diffusion and slowingdown of neutrons, elements of reactor theory. Energy removal.

PART BThe fuel cycle and nuclear fuel materials, sources of ur aniu'm, separation ofuranium isotopes, thorium and plutonium, properties of fuel element materials and their metallurgy, reprocessing of irradiated fuel. Separation pro-cesses: solvent extraction, ion exchange, vol.atilitv separations, pyrome-tallurgical process. Process waste disposal. Radiation"' protection and

nuclear safeguards.

ChE 427 Petrochemicals and Refinery Engineering2 hours per week. .200 marks

PART AIntroduction, evaluation of crude oils, refinery products and their uses, ana-lysis of petroleum products. 'Refining processes: atmospheric and vacuum

. distillation, thermal cracking, coking, pyrolysis,' catalytic cracking, hydro-cracking, catalytic refo,rming, hydrogen treating, isomerization, alkylation,desulfurization. Production of lubricating oil and grease's. Bitumen pro-duction. Discussion on ERL with emphasis an processing.

ChE 423 Biochemical Kinetics and Reactor Design2 hours per week 200 marks

PART AIntroduction of Biochem ical Engineering and concept of biological, catalyts,nature ()I micro-organisms, their requirements and classification, industria.lIy important micro-organisms. Basic biochemistry, important bio-chemlcals,.protein and nucleic acid metabolism. Batch fermentation, yield coefficientsfor biomass and product format ion. Rates of reaction, growth rates, limi.ting substrate considerations, Monodi's equation,

PART BBiological industries and their engineering problems. Stoichiometry of reac-tions and heat evolution. Oxygen in the cell and medium formulation.Transport phenomena in microbial systems. Design and analysis of biolog i-cal reactors,' Gas-liquid contact and agitation and aerati on.. Down-streamprocessing. Separation of ce lis and recovery of useful end-products.

J"._"~_. --- .--

'.

Il.\•...~.••:.....•...,,:. "

~.'... '(.- .

if'I','

';,.'.mh.,'

PART B

Different feed stocks for petrochemicals. Manufactur e of acetylene,ethylene, propylene, butadiene, isoprene; styrene, synthesis gas; productionof polyethylene, . polypropylene, PVC. butadiene rubbar, 'styrene-butadienerubber, synthetic fibres. fatty . alcohols~ fatty acids, low.molecularalcohols, phenol, acetone, acetone acetic, methanol ; synthetic manufactureof alkyl aryl sulphonates, alkyl sulphonates, alkyl sulphates, production ofsulpur, sulfuric acid and hydrogen from petroleum materi aIs,

ChE 429 Polymer Processing Principles2 hours per week 200 marks

PART AIntroduction to processing principles; mechanical, electrical, thermal andoptical properties of polymerical materials'with .special reference to time-temperature and environmental effects and testing standards. Formulationand compounding; principles and practice, kinetics and chemical engineeringprocesses of polymerisa tion. Degradation and stabilization of polymars.

PART BRheological properties of polymeric melt, soluti ons and suspension,and their measurements, flow in channels of simple cross-section,basic heat transfer, analysis of the principles of extrusion, injectionmolding, film blowing. calendering, mixing etc. for sizing equipments, power'requirements and understanding of' process performance. Processes .andoperations planning, facilities layout and maintenance. including health andsafety,

ChE 431 Fertilizer, Pulp and Paper Technology2 hours per week 200 marks

PART A.The wor'ld "fertilizer market. Fertilizer industries in Bangladesh. Nitro-gen fertilizer-ammonia. urea: raw materials, manufacturing processes,design considerations. status of production, waste disposal methods,. productfon and distribution economics, uses. Production and uses ofother nitrogen fertilizers.

Introduction to pulp and paper industries. Types of raw materialsand history. Composition and chemical properties of wood. Preparationof raw material for pulping. Mechanical and semichemic~J pulping.Different processes of chemical pulping, Chemistry of kraft process,

178 SUET

--- ------.~-~-. -,-----.- ------ ..- .. ---.-------------- .. -.c_.-.. -._-_._~-_~ .__ =

.',;

PART 8

Phosphate fertilizer-Production, marketing and uses: raw materials,manufacturing processes of sulfuric acid and phosphoric acid; productionand comparative economics of triple superphosphate, ammonium phos-'phata and other fertilizers from phosphoric acid. Complex fertilizers:nitrophospnate. Manufacturing process of different potash tertii izers ••and other uses. Compound ferti Iizers and their economics.

Digestion of pulp. Chemical recovery and energy balances. Bleaching.Beating and sizing. Paper making. Technical auditing.

ChE 433 Food and Sugar Technology2 hours per week 200 marks

PART A

Introduction to food technology. Principles of major preservat ion methods,drying, chemical, thermal, low temperature and freezing, irradiation. Unitoperations in food processing and preservation: fluid flow, heat transferconcentration by evaporation, drying, separation methods, mixing, size re-duction, sterilization process. Calculations in food engineering. Packagingin food industry.

PART B

Technology for processing and preservation of specific industries: cereals,fruits, and vegetables, fish, milk, and dairy products, oils and fats.Sugar technology; intrOduction-composition of cane' and juic61, manufac-turing of raw cane sugar-axtractiol1 of juices, purification bf juices, treat-ment of mud water and clarified; juice, evaporation, heating, crystalliza-tion. Cane sugar refining: clarification decolourization, crystallization andfinishing. Microbiology in sugar manufacture and refining. Economics ofsugar industry.

ChE 434 Food Engineering Sessional3 hours every alternate week 50 marksLaboratory work based on ChE 433.

POSTGRADUATE COURSES

ChE 6001 Tran sport Phenomena 3 creditsAn analysis of the theory of mass, heat and momentum transfer processes.

ChE 6002 Advanced Thermodynamics 3 creditsEstimation of thermodynam ic properties, feasibility of reactions, applicationto industrial problems.

Calendar179

-----~--------dIIIIIII

ChE 6003 Advanced Chemical Reactor Design 3 credits

Design of homogeneous and he.terogeneous reactors for isothermal and non-isothermal operation, analysis of rate data, transport processes in hetero-g,eneouscatalytic systems.

ChE 6004 Heat Transfer 3 crad itsDesign problems involving conductive, convective and radiant heat transfer.

ChE 6005 Mass Transfer I

A study of mass transfer operations wit h emphasis on t~eoretical aspects.Topics will include phase equilibria, molecular and turbulent diffusion,mass transfer coefficients and transfer units, two-film theory, IYlnetrationtheory, and plate efficiency.

ChE 6006 Polymer Science for Chemical Engineers 3 credits

/

Polymer so lutions, measurement of molecular weight and size, crystalline, '

polymers, rheology and the mechanical properties of polymers. polymerizatian. properties of commarc ial polymers, polymer processing.

ChE6007 Advanced Chemical Engineering I 3 creditsStudy and review of current chemical engineering literature.

ChE 6008 Nuclear Chemical Engineering 3 creditsSelected topics in nuclear chemical engineering beyond ChE 423.

'ChE 6009 Corrosion Science and Engineering 3 credits

Principles of corrosion and oxi<:!ation, Pourbaix's diagrams, applications.Economics of protection. Review of current literature on selected topicsbeyond ChE 407.

ChE 6010 Process Dynamics and Control 3 credits

Analysis and simulation of chemical engineering systems, process idEmtifica-tion techniques, sampled data and computer control.

ChE 6011 Advanced Plant Design 3 credits

Application of scientific and engineering -methods to the design of chemicalprocesses. A number of proposed processes will be analyzed for, technicalfeasibility and profitability, the designs wi II be c optimized to the extentjustified.

b

180 SUET

,-

ChE 6019 Kinetics and Catalysis 3 creditsChain reactions, kinetics in liquid solutions, characterization of catalysts,

heterogen eous cata Iysts.

ChE 6017 Fluid Mechanics 3 creditsA review of basic fluid mechanics with an advanced treatment of themacroscopic momentum and mechanical enegy balance equations and treat.ment of specific chemical engineering problems (viz. 'estimation of risingvelocity of drops in a liquid, percolation of fluid through ,porous media,effect of flow on the dissolution rate of particles immersed in a flowingfluid, etc.). Non-Newtonian fluids; classification of fluids, characterization'of fluids, laminar flow, turbulent flow and boundary layer theory (with special

reference to tube flow) .

ChE 6014 Chemical Engineering Analysis '3 creditsApplication of mathematLcs to chamical engineering problems with emphasis

on 'operator methods.

". '~....

ChE 6015 Advanced Chemical Engineering 11 3 creditsAn advanced' treatment of. selected chemical engineering topics of current.

interest to staff and students.

cIS'ChE 6016 Numerical Methods in Chemical Engineering 3 creditsSolution of problems. in staged operations, reaction kinetics and heat trans-fer, statistical methods, design of experiments and model bui Iding.

ChE 6013 Mass Transfer II 3 creditsA study of simultaneous mass transfer and chemical reaction and simulta.neous heat and mass transfer, review of current literature on mass transfer.

.ChE 6018 Electrochemical Engineering 3 credits. 'Electrochemical thermodynamics, theory of over-voltage, .irreversible elec.trode kinetics, mass transfer at electrode surfaces. Recent application inthe areas of corrosion, batteries, fuel cells, chemical synthe~is, molten elec..

trolytes.

ChE 6012 Fuel Science' 3 creditsMechanism of combust ion reactions, flame propagation, ignition and Inflam-

,mability limits, design of furnaces. Review of current literature on selected

topics.

;. ~

" \I ,

l,

,;,

I JI .\ .. I

: I!I Jl~jl',I I

I, .~

183

--- -. --;:.~-..;.. ~ ~~.:- --- •...•. - .- ~.;:-.

Calendar

Department of ChemistryUNDERGRADUATE COURSES

Chem 101 Chemistry3 hours per week 200 marksFor first year eE, EEE, MetE, ME and NAME

PART AInorganic chemistry : The structure of atom: Particles constituting theatomic model. Wave nature of electrons and shape 01 the orbitals. Periodictable: Classification 01 elements. Mande-Leev's periodic table. criticalstudies on periodic table with Its uselulness and limitations. Physical che-mistry: Properties of gases and equation 01 state: Aqueous solution: Types01 solution. lactors influencing the solubility 01 a substance. the Le-Chatelie" principle. mechanism of dissolution. evolution and ab.orption 9

1heat.

Different unit. 01 concentration. problem. involving acid ba.e titration •.Solution of ga.

esin liquid.. Distribution 01 .olute b.tween tWOimmiscible

solvent. application of di.tribUtion law. properties 01 dilute solution. vapourpressure. Raoult'. Law-its application .. Elevation of' boiling point. depres.lonof freezing point and osmotic pressure. Colloid. and propertie.o

lColloi-

dal syStem; Stoichlomatry: Empir-icaland molecular formula•• ionic equa-

tions, solution of problems.

PART 8Inorganic chemlatry: Nobel Gases; Occurence. di.covery. i.olatlon. generalproperties. and u.... Importance 01 noble ga. elements in the .tudy'of chemistry; Chamical bond; Differant type. of chemical bond.general properties of ionic and covalent compound.; Modern approachof covalent bond. Modern concapts 01 acid. end ba.es. DifferenttYpe. of chemical reactions. Phy.ical chemi.try: Kinetic. andchemical equilibria; Rate of a reaction. factors determining the rate.Lew of maS. action. evaluatiB" and charactaristicS 01 equilibriumconstant of a reaction. loni.ation of water and concept of pHThermo-chemi.try: Types of energy. enth'alpy. heat of reaction. heatof combustion. heat of formation and heat neutralization. Experimentaldetermination of thermal change. during chemical reaction. Electro-chemistry: Electrolyte.. mechani.m of electrolytic conduction. tran.port

number and electro lytic conductance.

Chem 102 Chemistry sessional3 hours per week 100 marks,For First year EEE, MetE. ME and NAMEIntroduction and .copa 01 analytical chemi.try. elementary concept. 01quantitative analysi.; Volumetric and - greirmetric analy.i.. Chemical

I

II.iI.!t

balance, evaluation of analytical data. Report writing. Experiments;. Preparation of standard solutions of' sodium carbonate, Sodium oxa'late.oxalic acid, Potassium dichromate etc., standardization of sodium'hydroxide, hydrochloric acid, sodium thiosu!phate, potassium permanganateetc. Determination of total alkalinity of soda ash. Determination ofacetic acid content of vinegar. Determination of copper in copper sulfatesolution. Determination of F ++ in Mohr's salt and calculation. ofpurity of Mohr's salt. Determination of iron in an ore: Determinationof calcium. Determination of chloride by Mohr method. D.eterminationof bleaching powder by iodometry. Determination of su.lfur by frairmetricmethod. Determination of Aluminium as Aluminium oxide.

Chern 102 Chemistry Sessional3 hours every a Ite mate week 50 marksFor First year CE "

Introduction and scope of analyti ca I chem istry, elementry' conceptsof quantitative analysis: volumetric and gravimetric ~nalysis. Chemicalbalance, eva'luation of analytical data. Report writing:Experiments: Preparation of standard solutions of sodium carbonate,sodium oxalate, oxalic acid, potassium dichromate etc., standardizationof sodium hydroxide, hydrochloric acid, ~odium t hiosulphate,potassiumpermanganate etc. Estimation of (i) Cu++ in copper sulphate, (ii) Fe++in Mohrs salt andcalGulation of purity of Mohr's Salt (iii) sulphurby gravimet ric method.

Chem 103 Physical, Inorganic and Organic Chemistry3 hours per week 200 marksFor First year ChE

PART APhysical chemistry: The gaseous state: Equation of state. ideal gasequation, kinetic theory of gase,s, molecular collisioOl, DaIton's lawof partial pressure and Grahams law of diffusion. The liquid state;Structure of liquids, surface tension and viscosity of liquids. Molecular,structure an.~ properties of water. Solutions: concentration units,solubility, solubility'of gases in liquids, Nernst distribution law and itsuses. Thermodynamics scope and limitation .. The first law of themodyna-mics,. reversib Ie and irreversible processes. Inorganic chemistry: Mode rnconcept of atom ic structure, periodic classification of elements, criticalappreciation of the periodic law and periodic tabl.e, general treatment andapplication of the periodic table. Noble Gases: Discovery. sources,

184 BUET

,: r~"',

isolation, properties and uses, importance of noble gas elements ,inthe study of chemistry. Organic chemistry; Introduction to organicchemistry and Hs importance in our daily life. A comprehensivestudy of (i) Alkanes, (ii) Alkenes and (iii) Alkynes with specialreference to nomenclature. methods... of preparation, properties.reactions and important uses. Molecular formula and its fundamentalimportance, empirical formula, determ ination of molecular formulafrom percentage composition. Alcohols, Aldehydes and ketones-theirstructure, nomenclature, industrial sources, preparation, properties

and reacti'ons.

PART BPhysical chemisry Changes of state: Vapour pressure of liquidand vapourization, Clausius-Clapeyron' equation, vapour pressure ofsolutions. The phase rule and its application. Collegative propertiesof dilute solut ions. Chemical equilibria:. The law of mass action, equi-librium constantant and its characteristics, application of the law tohomogeneous and heterogeneous reactions. Dessociation ,of water andpH concept. Ionic equilibria. Inroganic chemistry; Concept of chemicalbond, differ~nt types of bond and their general treatment. Modernviews on acid and bases. Different types of chemical reaction, oxi-dation-reduction reactions and their applications. Molecular structureand properties of the compounds. Organic chemistry: Aromaticcompounds: Benzene and its aromatic character, preparation, andreactions. Studies on structure, nomenclature industrial sources, preparationand properties of alkyl benzene alcohols alkolyde keton carboxylic acidsand ester.

Chem 104 Chemistry Sessional3 hours per week 100 marksFor first year ChEVolumetric analysis: Acid base titrations, oxidation reduction titrations,estimation of iron in Mohrs salt, iodometric determination of copper, deter-mination of chloride by Volhards method. Determination of calcium in limestone. Gravimetric analysis: (i) sulfphur as BaSO, (ii) Zinc as ZnP207(iii) Nickel as Ni .dimethyl glyoxime. Detection of sulphur, nitrogen, halogenin organic compounds. Detection of important functional groups inorganiccompounds. .

"f.

,I

185Calendar

Chern '201. Inorganic and Organic Chemistry3 hours per week 250 marksFor Second year ChE

PART AInorganic chemistry: Advanced concepts of atomic structure, thequantum theory, particle and wave nature of electrons, the uncertaintyprinciple; Schrodinger equation, the Hydrogen atom and physicalsignificance of orbitals. Elaborate study of the different types of bonds

. -and properties related thereof. The value bond theory and hybridisation, .molecular orbital theory. Bauli exclusion pr inc!ple and electron spin,ionisation potential electron affin.ity etc. and size of ion, ionicstructure and bond energies structure and properties.

Chemistry of transition elements,. chemistry of coordination compounds.Electronic interpretation of co-ordination compounds. Stab ility of complexcompounds. Metal carbides; chemistry of silicates, their characterization anduses. Group chemistry: General treatment of the elements of- group liB, IIIB.

VA, VIA, VIE and VillE (iron group).

PART BOrganic chemistry Hydrocarbons, thermal and catalytic cracking, alkyla-tion. cyclization and polymerization. Industrial production of importantorganic compounds. Reactions in organic chemistry and the.ir mechan isms.Chemistry of vitamins, drugs, chemistry of bio-molecules and mass spectros

copy and structure.

Chem 202 Inorganic and Organic Chemistry Sessional3 hours per week 100 marksFor second year Cil EInorganic chemistry: Quantitative chemical separation and determination ofelements in a mixture;j of (i) Cu and Zn (ii) Fe and Ca. Analysis ofwater: Total solid hardness dissolved oxygen etc. Analysis of fats and oils,Iodine va lue saponification value. acid, value R-M value etc. Determinationof Cu, Ni. CO, Ca etc. by EDTA tit rations using metal ion indicators.Organic chemistry: Determination of melting and boiling points of organiccompounds. Preparation of organic compounds using important reactions,preparation of different derivatives such as. osazone, oxime, semio carba-zone, halogenation products etc. Detection using TLC and paper chromto-

graphy.

186SUET.

r1L

/

Chern 203 physical Chemistry3 hours per week 250 marksFor second year ChE

PART AThermodynamics: enthalpy. heat capacity, idea! gas expansion and thermo-chemistry, second law of thermodynamics, free energy and chemical equili-bria reacti.on isochore and isotherm, chemical potential. Third law of ther-modynamics its necessity. Entropy and molecular disorderness. Activity andactivity co-efficients- EIementary statist ica I mechanics.

Phase equilibria: Solid-liquid-vapour equilibria in one component andbinary liquid system. Free..energy and phase equilibria relationship. solidliquid system of two components with and without compound formation.Chemical .kinetics: Order of reaction, determination of order of reactions.Effect of temperature on reaction rates, simple 'colli sion theory andabsolute reaction rate theory. Reaction in solution and heterogeneous

reactions.Theories and application Of catalysis and enzyme catalysis, Physical p roper-ties, Refraction, optical_ activity and dipole moment, their relationship

with molecular structure.

PARTBSurface phenomena :. Adsorption of gases on solid, Langmuer's isotherm.Determination of surface area. Adsorption from solution. Fred Iich equation

and BET equation.Electro-chemistry: Electrical conduction in solutions, transfer~nce numberapplication of conductance measurements. Simple treatment of D-H theoryof strong electrolytes. Types of electrodes and electrode potential, elec-trochemical cells, Emf measurements, potentiometric tit rations, polarizationand quer potential. Electrochemistry of rust formation.Theories of indicators and buffers, pH measurements: Solid state: Classi .•fication crystal system. Braggs equation and it~ application. Structural de-termination by X-ray diffraction. Colloids and Macromolecules: Generalmethods of preparation, classification, properties, stability of colloids.Determination. of particle size, determination of size ~nd molecular weightof the macromolecules, photochemistry and spectroscopy: Laws of photo-chemistry, study of some photochemical reaction, photosensitization andphotochemistry of air. Laws' of absorption spectroscopy, mechanism 'of 'lightabsorption and emission of ultraviolet and visible spectra of molecules.

187Calend2H

r:I'I!

•,

r!,I

""

;'I,,'j,:I

F\,.'

,I~'1I',

"

!

Chem 204 Physical Chemistry Sessional3 hours every alternate week 50 marksFor second year ChE

Determination of (i) Distribution co-efficient (i i) Degree of association,by distribution method (iii) Bouli equilibrium constant of the systemKI+la = Kia, (iv) Heat of reaction by calorimetry, (v) heat of solution fromsolubility measurements at different temperature, (vi) viscosity and densitymeasurements, viscosity of oil by Sayboli viscometer, (vii) surface tension ofsolution and (vi ii) Gibbs absorption Isotherm. Conductance, measurement:Cell constant and eq. conductance. Solubility of sparingly soluble salt,Mohr refracti,on. Polarometric Measurement of specific rate constant. Deter-'mination of molecular weight by cryoscopic method.

Chem 205: Corrosion and Chemistry of Materials, Non-metallicEngineering

2 hours per week 150 marksFor second year ME

PART AGlass: compositions in most commonly used varieties, classification ofcommercial glasses, raw materials and manufacturin'g process, special g las-ses and application of glasses in chemical industries. Ceramics and refrac-tories: Various products of ceramic industries, raw materials inmakingcommon ceramic prOducts, fundamentals of ceramic chemistry. Types ofwhite wares and manufacture of porcelain. Refr actory materials, properties,manufacture and classification of refractories.

Corrosion: Nature and forms of corrosion, electrochemical mechanism ofcorrosion, types of corrosion and influence of different factors on corrosion.Paints, varnishes and metallic coatings; Functions and raw materials, sol-vents and diluents preparation, paints and varnish removers, coatings on .metal surface, methods 'used in applying coatings, various metal coatings.

PART BCarbon ,: Different properties of carbon, structural properties of carbon andgraphite and their applications. Nonfabricated industria I carbons-their manu-facture arid uses. Some specific applications of carbons. Plastics and syn-thetic fibers: Fundamental characteristics of plastic materials, classification,raw materials and manufacture of plastics, some typical examples of plasticsand their uses. Various types of fibers, Raw materials and manufacturingprocess of synthetic fibers and their appli cations. Timber: Wood-its classi-. fication, properties, uses and preservation of timber. Rubber: Sources of

z

188 SUET

" ,~(

Ii

I/-I

I•

~atural rubber, chemical treatment of latex. Raw materia!,s of syntheticrubber, their sources and properties. lubricants: Princ iples of lubrications,treatments for refining lubricating ai' obtained from c;ude oil. Propertiesand uses of different lubricants. Petroleum fuels-origin, composition, classi.fication and refining of petroleum, uses of petroleum products.

,Chem 207 Physical ChemistryI. hours per week 150 marksFor second year MetE

PART AElectrochemistry: Electrical conduction in solution. Farday's law, Ions inaqueous solution and ion activity, transference number, application of con-ductance measument. Simple treatment of Debye-Huckel the~ry of strongelectrolytes. Gibbs free-energy function, Gibbs-Helmholtz equati on, chemicaland electrochemical potential. Electrochemical cells, types of electrodes andelectrode potential. Sign convention. Temperature-emf relation and Nernstequation, types of electrochem ical '~ells and emf measu'rements, potentio-metric titrations, polarisation and over potential. Principles of electrodepo-sition. Electro-chemistry of rust formation. Theorias of indicators, ,buffers.Henderson equation, PH measurements and glass electrode. Surface pheno-mena ; Adsorption of gases on r.olids, langmuir's isotherm, adsorption fronisolution.

PART BChemical kinetics; order of reaction, homogeneous reactions of first, second,zero and Inctional order. Determination of order of reactions, rate equat ionof complex reactions, rate-temperature relation. Arrhenius ,equation. Tran-sition and collision theory of reaction rate. Reaction in solution andkinetics of solid gas reactions. Catalysis, theory and some importantcatalytic reactions.

Photo-chemistry and spectroscopy: Introduction; nature of electromagneticradiation. laws of photo-chemistry, quantum yields. Photochemical reactionsand photochemistry of air. Matter-energy i nterac tion. laws of absorptionspectroscopy. Mechanism of light adsorption, UV-Visible spectra of lllu1e-cules, Beer-lambert relation and its appl ication.

Colloids: General methods of preparation. Classification, properties,stability of colloids. Determination of particle size, electro-kinetic pheno-mena. Solution of macromolecules, molecular weight distribution and deter

mination.

, ",j! ', ,

l'i •

"

~'

i,1,

, ~.

Caledar 189

~_r--_---~.t-

Chem 302 Instruments I method3 haurs per week 100 marksFar third year Ch~Data treatment and reparting .of analytical results. Applicatian.of statisti-cal methads and linear regressian analysis. Errar analysis. Canductametrictitratian. Preparatian .of calomel and silver chlaride electrade. Emf measu-rements, sign. single electrade patential, patentiametric titratian .of redaxsystem, pH titration and determinatian .of pH value. Calibratian of refrac--tometer, spectr.oscapies, determination of metal ions'salution. Electragravi-metric and palaragraphic determinatians. Turbidimetric determinatian ofsulfate in a water sample. Measurement of heat of cambustian.

POSTGRADUATE' COURSES

Chern 5001 Natural Pr.oducts 2 CrE!di:ts

A general study .of isalatian. purificatian, chemical and physiological actionsand bia-synthejsis of the fallawing natural praducts :(i) Terpenes,(ii) Steraids, (iii) Hormones, (iv) Carotenoides. (v) Vita-mins, (vi) Anthacyanins, (vii) Alkaloides, (viii) Amina-acids, peptides andproteins, (ix) Carbohydrate and blood palysaccharides, (x) Purines andnucleic acids '(including RNA & DNA), (xi) Phasphate esters, (xii) Lipidsand parphrin, (xiii) Haemoglobin, Chlaraphyl and phthalocyanins.

Chern 5002 Structural Elucidati.on and Studies .of Complex Molecules.of Nature 2 Credits

Isolation methods. Degradatian, spectral correlatian and confirmation bysynthesis, absolute stereachemistry. A detailed study .of chemical, physicaland sy,nthetic methods with special reference t.o interesting c.omplex male-cules. Exercises in structure determinati.on, examples will be selected framalkalaids, terpenaids, steroids etc.

Chem 5003 Synthesis.of Complex Organic M.olecules .of Nature2 Credits

(i) Use of some of the more imoortant .organic and inorganic reagents inorganic synthesis. (ii) Exercises in the synthesis .of C-C, C-0, C-X, C- N,C-S and C-P, (iii) Exercises in the synthesis of complex molecules of

nature.

'190 BUET

Chern 5004 Mono and Disaccharides 2 Credits

I ~I .,,

Configurational assignment and conformational analysis of mono and disac-charides. Use of optical methods including Hudson's rule of isorotationand the Lactone rules, Reactions of sugars-'including their actions with acids,

, '

bases, Glycol splitting reagents and enzymes. Esters . ethers and acetals ofsugars. Anhydorsugars, branched chain sugars, unsaturated sugars, deoxysugar and polyoles amino sugars.

;1,

I

Structural investigation of polysaccharides and group analysis. Barry degra-dation; Degration, molecular weight determination etc. Amylese and amy-lopectin, dextrius and dextrans, starch metabolism, Cellulose,' hemicellu.lose glycogen and inul in. Sulphated polyst'ccharide as dramatan su Iphate,chendroition sulphate heparin and some seaweed ploy saccharides, like agar

and fuccidin.

! 'Ohem 5005 polysaccharides 2 credits

I,.,

,

Chern 5006 Kinetics and Energetics of Organic Reaction 2 credits

Linear free ~nergy, solvent effects, isotope effects. Thermodynamic consi-derations and study of energetics of organic reactions. Kinetics of organicreactions: consecutivei reactions, the steady state approximation, parallelreactions, entropy of activation in conjunction with energy of activationparticularly in reactions leading to cyclisation, variation in kinetics in acidand base catalysed reactions, ambiguties in interpreting kinetics data;Microscopic reversibility, correlation of reaction rates and equilibria •

•Chem .5007 Chemistry of Small Ring, Medium and Large Ring

Compounds 1 credit

Non-classical strain and conformation stability of unsaturated medium; andtrans annular reactions in them; medium and large ring conj'ugated cyclo.;.polyolefini and aromaticilty in them. Rearrangements in small ring com-

pounds.

Chern 6008 Physical Methods' and Spectroscopy 2 credits

II'I

Ii

~--

UV spectroscopy: mechanisms of measurement, Electron excitation. Simplechromophors groups•. Conjugated systems, Arometic systems. IR Spectro-scopy: Vibrational spectra~ factors affecting IR frequencies, application.NMR speclroscopy; introduction. Nuclear overhauser effect. Shift reagents.Dynamic pclarisation. Interpretation of the spec'tral data. Mass spectros-copy: Theory, spectrometer and application to structure determination of

191Calendar

organic molecules. Application of all the spectroscopic, methods in follow-ing the, progress of reactions by diagonostic appearance and disappearanceof functional groups in organic compounds and also in characte'rising theproductS. Application spectroscopy and the elucidation of the structure oforganic compounds.

Chem 5009 Stereochemistry 2 credits

Configuration, chirality and Prochirality, asymmetric synthesis: geometricaland optical isomerism; constraint around the essential single bond, isome-rism about the double bond ; special interaction in six membered rings;The stereochemical relevance of the Hammond postulate and the Curtin-Hammett principle: Fisher's projection formulae, essential aspects of appli-cable physical methods.

Chem 5011 Organic Polymers 2 credits

Different types of polymers, polymerisation reactions, characterisation ofpolymers. Properties of polymers and molecular weight determination ofhigh polyme rs. Kinetics of polymerisation reactions. Degradation of highpolymers. Thermodynamic stability and stereoregularity.

Chem 5012 Industrial Organic Chemistry 2 credits

A brief account of different industrial processes organic in nature such aspetrochemical, heavy organic chemicals and intermediates, drugs and phar-maceuticals, dye stuffs, agricultural chemicals and pesticides. Fermentationchemicals and natural products, with special reference to scope and Iimita-tions of research and development in .Bangladesh.

Chem5013 'Methods in Organic Synthesis 2 credit

Synthetic methods: Genera! consideration. Sterecochemica! problems, Electro-cyclic reactions and cycloadditions, Robinsons annelation and other modifi-

. '

cations. Birch reductions. se lective transformation. Photochemical reactions.

Chem 5014- Chemistry of Rateroc\"clic Compounds 1 Credits

Chemistry of three, four and five numbered Heterocycles, condensed fivemembered heterocyclics, pyridine, pyrimidine, quinoline and 'isoquinolinecom-pounds. Addition to the cyano group to form hetercocycles, ta utomerismin purines, hydroxy thiophene and hydroxy furan systems. Synthesis of hete-rocycles involving cycloaddition reacfions, Heterocycles of biological interest.

192 BUET

Chem 5015 Orga"nometallic Chemistry 1 CreditNature of carbon metal bollding systems, structures and reactions of orga-nometallic compounds. Organometallic reagents in organic synthesis, Role

of organometall ie compounds in some catalytic reactions.

;

i

2 Credits

Substitution reactions: Machanism of reactions where both racemisationand inversion occur simultaneously, particularly solvelysis reactions in-cluding orbital pictures, substitution reactions of ambident nucleophiliesattempted correlation of substitution rates, the Swain and Grunwald equa-tions. Addition reactions: Three and four centre addition reactions 1,3,dipolar addition inc\ud ing their sterochemistry, 1. 4-addit ion reactions withspecial reference to tho orbital symmetries. stereochemistry of carbonyladditions, Cram"s rule. Elimination reaction: Mechanisms covering thewhole range from ,.Almost carbonion processes to almost carbonium" pro-cesses: quantitative: basis of sunstituent effects on the stability of carba-nion KICB mechanism, thermal eli minations. Molecular rearrangements:Carbonium ion rearrangements in bridged by bicylic Systems, particularlYnorbonv

lsystem treating both the classical and non classical carbonium

ions showing how anchimetic assistance plays its role.Free radical reactions: Mechanism of free radical reactions in substitu-tion, addition, rearrangements and oxidation, pola r effects in free redical

reactions. Enzyme catalysed reaction.

Chem 5016 Organic Reactions

Calendar

',"

193

1 Credit

Concept about the structure organic molecules, bonds, in terms of mole-cular orbital theory both localized and non-localised bond"s and how wavefunctions operate on them. Huckel MO method in simple systems likeethylene. allyl and butadiene, significance of HMO approximations: varia-tions of 'alpha and beta resonance energy; aromaticity and 4n + 2 rules.

Nucleophiles and ele ctrophiles.Classification on the basis of organic molecules, quantitative correlationsof acidity and basicity. Hammets function, Grunwald aciditaty scales;the Hammetts equation and correlations with metal and para substitu-ted benzene derivatives, polar effects in aliphatic compounds and Taft

treatment.

Chem 5017 Structure and Bonds in Organic Molecules

Math 103 Mathematics Paper, I2 hours per week 150 marksFor First year CE

PART ASection A: Differential Calculus'Limit. Continuity and differentiability. Differentiation of expli~it and implicitfunctions and parametric equations. Significance of derivatives. Differentlals.-Successive differentiation of various types of functions. Leibnitz's theorem,Rolle's theo rem. Mean value theorems. Tay lor's theorem in finite and infiniteforms. Maclaurin's theorem in finite and infinite forms. Lagrange's form ofremainders. Cauchy's form of. remainder. Expansion of functions bydifferentiation and integration. ,Partial differentiation. Euler's theorem.

Section B: Differential CalculusTangent. Normal. Subtangent and subnormal in cartesian! and polarco.:ordinates; ,Determination of maximum andmlntmum values offunctions and points of inflexion. Applications. Evaluation ofindeterminate forms by .L. Hosp~tal's rule. Curvature, radius o.f curvature,circle of curvature, ce'ntre of-curvature and chord of curvature.'Evolute and in volute. Asymptotes. Envelopes. Curve tracing.

PART, BSection A: Co-ordinate GeometryChange of axes : Transformation of co-ordinates, simplification ofequations of curves. Pair of straight lines: Conditions under whichgeneral equations of the second degree may represent a pa irof straight lines. Homogenous equations 'of se'cond degree.Angle between the pair of lines. Bisectors of the angle between thepair of lines. Pair of lines joining the origin to the point of inter-section of two g,iven curves. Circles: Equation' of the circle incartesian and polar co-ordinates. Ganera I equation of a circle. Centreand radius of a circle. Tangents and normals. Condition of tangencyof a Iille. Pair of tangents. Length of tangents. Common chord. Chordin terms of its middle ,point. Orthogonal circles. Radical axis. Radicalcentre. Properties of radical axes. Coaxial circles and limiting points.

Section B: Co-orinate GeometryEquations . of parabola, ellipse and hyperbola in cartesian and polarco-ordantes. Tangents and normals. Pair of tangents., Chord of contact.Chord in terms of its middle point. Parametric co-ordinates. Diameters,conjugate diameters and their p'roperties. Director circles and asymtotes.

197Calendar

. "

, '"

t'I

,',

i\

"\,

..---------1iiiiiiiI

Department of Mathematics-

UNDERGRADUATE COURSES

Math 101 Mathematics Paper2 hours per week 150 marksFor First year ME and NAME

PART ASection A: Differential CalculusLimit. Continuity. and dif ferentiabi.lity;! ,oiffferentiation of explicit andimplicit functions and parametric equations. Significance of derivatives.Differentials. Succe9sive differentiation of various types of functions.Leibnitz's theorem. Rolle's theorem. Mean value . theorems. Taylor'sth90rem in finite and infinite forms. Maclaurin's theorem in finiteand infinite forms. Lagrange's form of remain,ders. Cauchv's form ofremainder. Expansion of functions .by differentiation and integration.

Partial differentiation. Euler's theorem.

Section B: Differential CalculusTangent. Normal. Subtangent and subnormal in cartestian and polarco-ordinates. Determination of maximum and minimum values offunctions and pain ts of inflexion~ Applications, evaluation of indeterm i-nate forms by L' Hospitals' rule. Curvature, radius of curvature, circle ofcurvature, centre of curvature and chord of curvature. Evolute and

involute. Asymptotes. Envelopes. Curve tracing.

PART BSection A: Co-ordi nate GeometryChange of axes : Transformation of co-ordinates, simplification of equationof curves. Pair of straight linas : Conditions under which general equationsof the second degree may represent a pair of straight lines. Homo-geneous equations of s9cond degree. Angle between the pair oflines. Bisectors of the angle between the pair of lines. Pairof linesj9ining the origin to the point of intersection of two givencurves. Circle: Equation of the circle, in cartesian and polar co-ordinates.General equation of a circle.- Cantre and radius of a circle. Tangents.and normals. Condition of tangency cif a line. Pair a f tangents.Length of tangents. Common chord. Chord in terms of its middlepoint. Othogonal circles. Radical axis. Radical centre. Properties ofradical axes. Coaxial circles and limiting points.

195Ca lendar

i~,..j.1;1, ,.. .I; .41 (

::1, I,I !;

, j

I II'I:l'I'IiI

\

I

I-I:

~ •. -~ -#- ..•. _ .•-_.--_.--.

Section B : Co-ordinate GeometryEquations of parabola, ellipse and hyperbola in cartesian and polar co.ordinates. Tangents and normals. Pair of ta ngen ts. Chord of contact. Chordin terms of its middle point. Parametric co-ordinates. Diameters,conjugate diameters and' their properties. Director circles and asymptotes.

Math 101 Mathematics Paper II2 hours per week 150 marksFO'r First year ME and NAME

PART ASection A: Integral CalculusDefinitions of integrations. Integration by the method of substitution.Integration by parts. Standard integrals. Integration by the method ofsuccessive reduction. Definite integrals, its properties and use in summingseries. Wallis's formulae.

•Section B: IntegralCa IculusImproper integral. Beta function and Gamma function. Areaunder a plane curve in cartesian and polar co-ordinates. Area ofthe region enclosed by two curves in cartesian and, polar co-ordinates.Trapezoidal rule. Simpson's rule. Arc lengths of, curves in cartesian andpolar co-ordinates, parametric and pedal equations. Intrinsic equation.Volumes of solids of revolution. Volume of hollow solids of revolutionby shell method. Area of surface of revo lution,

PART BSection B: Ordinary Different ial Equations,Degree and order of or<;linary differential equation. Formation of different ialequations. Solutions of first order differentia: equations by variousmethods. Solutions of general I inear equations of second, and higher'orders with constant co-efficients. Solutions of homogeneous linearequations. Applications.

Se'ction B: Matrices, Vectors and three dimensional Co-ordinate GeometryMatrices: Definition of matrix. Equality of two matrices. Addition, sub-ractionand multiplication of matrices. Transpose of a matrix and inverse ofa matrix. Three dimensional Co-ordinate Geometry: System of co-ordinates.'Distance of two points. Section formula. Projection. Direction cosines.Equations of planes and lines. Vectors: Defini,tion of ve'c'fots. Equalityof, vectors. Addition and multiplication of vectors. Trip-Ie product andmultiple products. Applacations to geometry and mechanics. Lineardependence and indandence of vectors"

196, Bun

the method of substitution.Integration by the method ofits properties and use in

Math 103 Mathematics Paper I;2 hours per week '\50 rnarksFor First year CE

PART ASection A: Integral CalculusDefinition of integrations. Integration byIntegration by parts. Standard integrals.successive reduction. Definite integrals,summing series. Wallis's furmu lae.

Section B : Integral. CalculusImproper integrals. Beta functi on and Gamm,! function.- Area under aplane curve in cartesian and polar co-ordinates. Area of the regionenclosed by two curves in cartesian and polar co~ordinates. Tra-pezoidal rule. Simpson's rule. Arc lengths of curves in cartesian andpolar co-ordinates, parametric and pedal equations. Intrinsic equations.Volumes of solids of revolution. Volume of hollow solids of revolutionby shell method. Area of surface of revolution.

PART B,Sect ion A: Ordinary Differential EquationDegree and order of ordinary differential equation. Forma tion of differentialequations. Solutions of first order differential equat ions by various methods.Solutions of general linear equations of second and higher order with cons.'tant co-officients. Solutions of homogeneous linear equations. Applications.

Section B: Matrices, Vectors and. three dimensional Co-ordinate Geometry.Matrices: Definition of matrix. Equality of two matrices. Addition, subtrac-tion and multipl ication of matrices. Transpose of a matrix and invere ofa matrix. Three dimensional Co-ordinate Geametry: System of co-ordinates. Distance of two points. Section formula. Projection. Directioncosines. Equations of planes and lines. Vecto rs: Definition of vectors.Equality of vectors. Addition and multiplication of vectors. Tripleproduct and multiple products. Applications to geometry and mechanics.linear dependence and iudependence of vectors.

Math 105 Mathematics Paper2 hours per week 150 marksFor First. year EEE

PART ASection A: Oi fferential CalculusLimit. Continuity and differentiability. Differentiation ofimplicit functions and pa ram-etric equations. Significance of198

explicit andder iva ti ves.

SUET

••• ._-\------._~.._- -.__ __ _ -._--._----_._--- ----_.-._---------~-_.__ .-.._._ .._-,-._ ..-_ _._ .

Differentials. Successive differentiation of various types of functions. Leib-nitz's theorem. Rolle's theorem. Mean value theorems. Taylor's theoremin finite and infinite forms. Maclaurin's theorem in finite and infinite forms.lagrange's form of remainders. Cauchy's form. of remainders. Expansion offunctions by differentiation and integration. Partial differentiation. Euler'stheorem.

Section B: Differentia I CalculusTangent. Normal. Subtangent and subnormal in cartesian and p'olar co-ordinates. Determination of maximum and minimum values ,of functionsand points of inflexion. Applications. Evaluation -of indeterminate' formsby L 'Hospitals' rule.' Curvature, radius of curvature, circle of curva-ture, centre of curvature and chord of curvature. Evolute and involu,te.Asymptotes. Envelopes. Curve tracing.

PART B

Section A: Co-ordi,nate Geometry

Change of axes : Transformation of co-ordinates, simplification of equationsof curve~.Pair of straight lines: Conditions und3r which general equations of-thesecond'degree may represent a pair of straight lines. Homogeneous equations,of second degree. Angle between the pair of lines. Bisectors of th e angle'between the pair of lines. Pair of lines joining the origin to the poi nt of'intersection of two given curves.

,Circle: Equation of the circle in cartesian and polar co-ordinates. Generalequation of a circle. Centre and radius of a ,circle. Tangents and normals.Condition of tangency of a 'line. Pair of tangents. Length' of tangents.Common -chord. Chord in terms of its. middle point. Orthogonal circles.Radical axis. Radical centre. Properties of radical axes. Coaxial circlesand limiting points.

Section B: Co-ordinate GeometryEquations of parabola, ellipse and hyperbola in cartesian and polar co-ordi-nates. Tangents andnorma'is., Pair of tangents. Chord of contact. Chordin terms of. its' middle point. Parametric co-ordinates. Diameters" conjugatediameters and the,ir p,roperties.' Director circles and asymptotes.

~'

, ,

,I

.1'I\ I,.1iI!

; 1..I1\

.: I':~.i

Calendar 199

Math 105 Mathematics Paper II2 hours per week 150 marksFor First year EEE

PART ASection A: Integral CalculusDefinitions of integrations. Integration by the 'method of. substitution.Integration by parts. Standard intergrals. Intergration by the method ofsuccessive reduction. Definite integrals, its properties and use in summingseries. Wallis's formulae.

Section B: Integral CalculusImproper integrals .. Beta function and Gamma fuction. A rea under a planecurve in cartesian and polar co-ordinates. Area ofCthe region enclosed by,

. two curves in cartesian and polar, co-ordinates. Trapezoidal rule.Simpson's rule. Arc lengths of curves in cartesian and polar co-ordinates,parametric and pedal equations. Intrinsic aquation. Volumes of'solids ofrevolution. Volume of hollow solids of revolution by shell method. Area ofsurface of revolution.

PART BSection A Ordinary Differential EquationsDegree and order of ordinary differential equation. Formation of differen-tial equations. Solutions of first order differential equations by variousmethods. Solutions of general linear equations of second and hi gh~H.orders with constant co. efficients. Solutions of homogeneous linear equations.Applicat ions.

Section B: Matrices, Vectors and three, dimensional Co-ordinate GeometryMatrices: Definition of matrix. Equality of..J~vo matrices. Addition, subtrac-tion and multiplication of matrices. Transpose of a matrix and inverse of amatrix .. Three dimensional Co-ordinate Geometry: System of co-ordinates.Distance of two points. Section formula. Projection. Direction cosines.Equations of planes and lines.Vectors: Definition of vectors . .EquaIity of vectors. Addition and multipli-cation of vectors. Triple product and multiple prQducts. Applications togeometry and mechanics. Linear dependence and independence of vectors.

Math 107 Mathematics Paper2 \ hours' per week 150 marks.For First year ChE and MetE

PART ASection A: Differential CalculusLimit. Continuity and differentiability.

200

r

Differentiation of explicit and im~licit

B lJ ET

\

functions and INIrametric equations. Significance of derivatives. Differen-tiab. Successive differentiation of various types of functions. Leibnitz'stheorem. Rolle's theorem. Mean value theorems. Taylor's theorem' in finiteand infinite forms. Maclaurin's theorem in finite and infinite forms. Lagra-nge's form of remainders. Cauchy's form of remainders. Expansion of func-. .

tions by differentiation and integration. Partial differentiation. Euler'stheorem.Section B: Differential CalculusTangent. Normal. Subtangent and subnormal in cartesian and polar cO.-ordI-nates.' Determination of maximl,Jm and minimum values of functions andpoints of inflexion. Applications. Evaluation of indeterminate forms byL'Hospitals'. rule. Curvature. Radius of curvature. Circle of curvaturecentre of curvature and chord of curvature. Evolute and involute.Asymptotes. Envelopes. Curve tracing.

PART BSection A: Co-ordinate GeometryChange of axes : Transformation of co-ordinates, simplification" of equationsof curves.Pair of straight lines: Conditions under which general equations __of theseconcj degree may represant a pair of straight lines. Homogeneous equa-tions of second degree. Angle between t he pair of lines. ,Bisectors of theangle between the pair of lines. Pair of lines joining the origin to the pointof intersection of two given curves.Circle: Equafion of the circle in cartesian and polar co-ordinates. Generalequation of a circle. Centre and radius of a circle. Tangenti and normals.Condition of tangency of a line. Pair of tangents. Length of tangents.Common chord. Chord in terms of its middle point. Orthogonal circles.Radical axis. Radical centre. Properties of radical axes. Coaxial circlesand limiting points.

Section B: Co-ordinate GeometryEquations of parabola, ellipse and hyperbola in cartesian and polar co-ordi-nates. Tangents and normals. Pair of tangents. Chord of contact. Chordin terms of its middle point. Parametric co-ordinates. Diameters, conjugatediameters and their properties. Director circles and asymptotes.

Math 107 Mathematics Paper II2 hours per week 150 marksFor First year ChE and MetE

Section A: Integral CalculusDefinitions of integrations. Integration by the method of substitution. Integ-ration by parts. Standard integrals. Integration by the method of successive

"L. ,,,I

~I

t,,,

,ii'

f ~

, !! ,

'I"

Calendar 201

, I:; i, "

"""'--- . --

reduction. Defin ite integrals, its properties and use in summing series.

Wall is's formulae.SectionB: Integral CalculusImproper integrals. Beta function and Gamma function. Area under a planecurve in cartesian and polar co-ordinates. Area of the region enclosed bytwo curves in cartesian and polar 'co--ordinates. Trapezoidal rule. Simpson'srule. Arc length~ of curves in cartes ian and polar' co-ordinates, parametricand pedal equations. Intrinsic equat ion. Volumes of solids of revolution.,Volume of hollow solids of revolution by shell method. Area of surface of

revolution.

PART BSection A: Ordinary Differential EquationsDegree and order of ordinary different ial equation. Formation of differen-tial equation. Solutions of first order differential equations by variousmethods. Solutions of general linear equations of second and higher orderswith constant co-efficients. Solutions of homogeneous' linear equations.

Applications.'Section B: Matrices, Vectors and three dimensional Co-ordinate GeometryMatrices: Definition of matrix. Equality of two martices. Addition, sub.traction and multiplication of matrices. Transpose of a matrix and inverseof a matrix. Three dimensional Co-ordinate Geometry: System of co-ordi-nates. Distance of tw'o points. Sectiorl formula. Projection .. Directioncosines. Equations of planes and lines.Vectors: Definition of vectors. Equality of vectors. Addition and multi •.plicat ion of vectors. friple product and multiple products. Applications to 'geometry and mechanics. linear dependence and independence of vectors.

-,Math 122 Mathematics2 hours per week 200 marksFor First yea r Arch

PART ASection A: Differential CalculusLimit. Continuity. Differenti ation. Successive and partial differentiationswith allied theorems. Rolle's theorem. Mean value theorems for onevariable. Expansion of functions by Taylor's series and Maclaurin'sseries. Tangents. and normals. Maxima and minima for functions of onevariable.Section B: Integral CalculusIntegration by various methods. Definite' integrals. Area bounded byplane' curve. Trapezoidal rule. Simpson's rule and Weddle's rule.

202 BUET

______ ------'--------------- ---.---::--:....--:.---0-,.-- ••..:,: .. ,.•••.•.~_~.=_ ._.. ""'...:.__ ., ,..

PART BSection A: Ordinary Differential EquationFormation of differential equations. Solution of equations of first orderby various methods. Solution of general linear equations of secondand higher orders with. constant coefficients. Solution of homogeneous

linear equations. Applications .

.Section B: Solid GeometrySystem of co-ordinates. Distance between two points. Section form-ulae. Direction cosines. Equations of planes and straight lines. Shor-test distance between tWO given straight I ines. Standard equations of

sphere and el Iipsoid. Tan~ent pi anes.

i, t

I.

I

. {,

203

Math 201 Mathematics3 hours per week 250 marksFor Second year ME

PAF.\T ASection A: Vector calcu Ius and Multip,le integralsDifferentiation and integration of vectors together with elementaryapplications. Definition of line, surface and volume integrals. Gradi-ent of a scalar function. Divergen:;e and curl of vector function.Physical significance of gradient, divergence and curl. Variousformulae. Multiple integrals. Divergence theorem. Stoke's theorem.Green's theorem. Gauss's theorem and their applications.

Section B: MatricesRank and elementary tr ansformations of matrix. Solution of Ii near equ-ations by matrix methods. Vector spaces. linear dependenceand independ\nce of vectors. Quadratic forms. Matric polynomials.Determination of characteristic roots and vectors. Null space andnullity of a matrix. Characteristic. subspace of matrix.

PART BSection A: laplace's transformsDefinition of laplace's transforms. Elementary transformation .and propert-ies. Convolution. Solution of differential equation by lap lace's trans-

forms, Evaluation of integrals by laplace's transforms.

Section B: Differential equationsConvergence and divergence of infinite series. Solution of differentialequations of higher order when the dependent and independent vari.abies are absent. Solution of Euler's linear homogeneous differentialequations. Solution of differential equations by the method based on

Calendar

'~~,~tJf~--:,~ .o

factorization of operators. Solution of differential equations by themethod of Frobenius. Solution of Bessel's and legendre's differentialequations with properties.

Math 203 Mathematics3 hours per week 250 marksFor Second year CE

PART A

Section A Matrices and Differential, equationsRank and elementary transformation of a matrix. Linear dependenceand independence of vectors. Solution of linear equations by matrixmethod. Solution of differential equations of higher order when. thedependent and independent var iables are absent. Solution of differ-ential equation by the method based on factorization of the operators.

Section B: Vector calculus

Differentiation and integration of vectors together with elemen-tary applications. Definitions of line, surface and volume integrals.Gradient of scalar function. Divergence and curl of a vector function. Phy-sical significance of gradient. divergence and curl. Various formulae:Integral forms of gradient. Divergence theorem. Stoke~s theorem. Green'stheorem. Gauss's theorem and their applications. Laplace's equation.PART B

Section A Differential equations and Laplace transformsSolution of differentia I equation by the method of Frobenius. Definition ofLaplace transform. Elementary transformations and properties. Convolution.Solution of differential equations by Laplace -transforms. Evaluation of Im-proper integrals by Laplace transforms.

Section B: Differential' equatio'ns and spherica I trigonometrySolution of Bessel's and Legendre's equat ion with properties. Sphericaltriangle. Polar triangle. Properties of spherical triangles. Relations betweenthe sides and angles of aspherica I triangle. Properties of a rightangledtriangle. Solution of triangles.'

Math 2052 hours perFor Second

Mathematics Paperweek 150 rnarksyear EEE

\,PART A

Section A Matr ices

Rank and elementary transformations of a matrix. Linear dependence andindependence of vectors. Solution of linear equations by matrix method.

204BUET

Vector space, Quadratic forms.chara cteristic roots and vectors.teristic subspace of ma lrix.

M8tric polynomials. Determination ofNull space and nullity of a matrix. Charac-

I~J

Section B: Ordinary Differential equations 'and Fourier seriesSolution of differential equations of the higher order when - the dependentand independent variables are absent. Solution of diff6trenti~1 equation bythe rn9thod based on the factorization of the operators. Fourier series.

PART BSection A: Frobenious Method, Bessel's and Legsndre's Differential

EquationsSolution of differential equations by Frobanius method. Solution of Bessel'sand Legendre's equations. Properties of the solutions and expansion of

functions in terms of them.

f,"

Section B: Partial Differential EquationsPartial differential equations. Wave equations. Particularboundary and initial conditions.

solutions with

J 1

i~.

II

J\

Math 205 Mathematics Paper II2 hours per week 150 marksFor Second year EEE

PART ASection A: Vector CalculusDifferentiation and integration of vectors together with elementary appli-eations. Definitions of line, surf3ce and volum9 integ,rals. Gra1ient of ascalar function. Divergence and curl of \a v3ctor function. Physical signi-ficance of gradient, divergence a~d curl. \ Various formulae. Integral formsof gradient, divergence and curl. Divergence theorem.

Section B: Multiple I ntegrals and Vector CalculusJacobians. Multiple integrals with applications. Stoke's theorem, Green's

theorem and Gauss's, theorem.

PART BSection A: Complex VariablesComplex number system. General fun'ctions of a compl,~x vari3ble. Limitsand continuity of a function of complex variabl~ and related theorems. Com-plex differentiation and the Cauchy-Riemann equations. Infinite series.

Convergence and uniform convergence.

.205Calendar

. j! ,

. J,

iII~

1, \

I,I1f

tII,I

, (I

1, I,

. .• ~ - 0_.... . ..* -' '-- ..'~

l

l.1,I.l

~~-~:.

Section B: Complex VariablesLine integral of a complex function. Cauchy's integral. theorem. Cauchy'sintegral formula. Lieuville's theorem. Taylor's & Laurent's theorems. Singularpoints. Residue. Cauchy's residue theorem. Evaluation of residues. Contour

integration. Conformal mapping.

Math 209 Mathematics4 hours per week 300 marksFor Second year ChE

PART ASection A: Multiple integrals and vectorsJacobians. Multiple integrals with applications. Differentiation and integ-ration. of vectors together with elementary applications. Dafinitionsofline, surface and volume integra Is. Gradient of scalar function. Divergenceand curl of a vector function. Physical significance of gradient, divergenceand curl. Various formulae. Integral .forms of grad iant, divergence andcurl. Divergence theorem. Stoke's theorem, Green's theorem, Gauss'stheorem and their applications. Laplace's equation. Curvilinear co-ordinates.

Section B: Sets, groups, rings and fie Ids, Infinite series and matricesSets. Subsets. Basic set operations. Mapptngs and relations. Definitions ofgroup, ring an~ field. Convergence and .divergence of infinite series. Rank.Elementary transformations; of matrix. Solution of linear equations bymatrix methods. Vector spaces. Linear dependence and independence ofvectors. Quadratic forms. Matric polynomials. Determination of charac-teristic roots and vectors. Null space and nullity of a matrix. Characteristic

subspace of a matrix.

PART BSection A: Differential equa tionSingular soluti.ons and their physical interpretations. The homogeneouslinear equations. Simultaneous linear equations with constant co-efficients.Solutions of differential equations of higher order (i) whe n dependent varia-bles are absent, (ii) when independent varia bles are absent. Solution ofdifferentia! equations by th~ method based on the factorization 01 the ope-tors. Solution in series by Frobenius methods. Bessel's and Legendre's

differential equations and their properties.

Section B: Laplace transformsDefinition of Laplace transforms. Elementary' transformations and pro-pe:rties. Application of Laplace transforms for determining the so lutionsof differential equation. Evaluation of improper integrals by Laplace

transforms,

206

.'j

BUET

._- ._---- -'-- .--

Ii

Math 213 Mathematics paper2 hours per week 150 marks~or Second year NAME

PART ASection A: Vecto r ca leu IusDifferentiation and integration of vectors together with elementarvapplications. Difinitions of I ine, surface and volume integrals. Gradientof a sea lar function. Divergence and curl of a vector function.Physical significance of a gradient, divergence and curl of various

formulae.

Math 211 Mathemat.ics3 hours per week 250 rnarksFor Second year MetE

PART AMatrices: Rank and elementary transformation of matrix. Solution oflinear equations by matrix methods. Vector spaces. Linear dependenceand independence of vectors. Quadratic forms. Matric polynomial.Determination of characteri stic roots and vectors.

Solid Geometry: Angle between lines and planes, distance from, a point toa plar.e, condition of perpendicularity anj parallelism of planes and straightlines, perpendicular distance from a point to a strainght line, coplanar lines,shortest distance b~tween two given straight lines' and volume of a

tetrahedren,Vector calculus: Diffe~~tiation and integration of vectors together withelementary applications. 'Definition of line, surface and volume integral s.Gradient, divergence and curl of a vector function. Physical significanceof gradient, divergence and curl, various formulae. Divergence theorem,Stoke's theorem, Green's theorem, Gauss's t~eorem and their application.

PART BDifferential equation : Solution of differentia I equation of higher order whenthe dependent and the independent variables are absent. Solution of Euler'slinear homogeneouS differential equation. Solution of the differential equat ionby the method based on factorization of the operator.

Convergence and divergence of infinite series. Solution of differentia Iequation by the method of Frobenius. Solution of Bessel and L~gendre equa-tions with properties. Laplace's transform: Definition of Lapla~ transform ..Elementary transformation and properties. Convolut ion. Solution of diffe-rential equation by Laplace's transforms. Evaluation of improper integralsby Laplace's transfrom. Fourier series expansion.

Caledar207

t', ~t 11

I ', ., .,<. ~

t.j'

, \

, '

I: ;i'l~II"I '. I,1 '

t,

LII..

; ~,

!I •

Elementarydiffers nt ia!integrals by

infi nite series. Solution of differentia I.Frobenius. Solution of Bessel and

Section B: Multiple intigralsJacabians and multiple integrals. Divergence theorem, Stoke'stheorem.Green's theorem. Gauss's theorem and their applications.

PART BSec~ion A: StatisticsFrequency distribution. Mean. Median. Mode and other measures ofcentral tendency. Standard deviation and other measure of dispersion.Moments, Skewness and curtoesis. Elementary' probability theory anddiscontinuous probility distribution e. g. Bionomial, Poisson and negative

Binomial.

Section B: Statistics'Continuous probability distributions e. g. normal. exponential. Characteristics.of distributions. Elementary sampling theory. Estimation Hypothesis

testing and Regression analysis.

Math 213 Mathematics Paper II2 hours per week 150 marksFor ,Second year NAME

PART ASection A MatricesRank and elementary transforma tion .of matrix. Solution of linearequations by matrix methods. Vector spaces. linear dependence andindepenpence of vectors. Quadratic forms. Matric polynomials. De.ter-minationof characteristic roots and vectors. Null and nullity of matix.Characteristic subspace of matrix.

Section B: Lapl ace's transformLaplace's transformation-'-Definition of Laplace's transforms.transformation and properties. Convolution. Solution ofequations by Laplace's. transforms. 'Evaluation of improperLaplace's transforms.

PART BSection A: Differential equationsSolution of differential equations, of high~r erder when the dependentand independent variables are absent. Solution of Euler's linear homo-geneous equation. Solution of differential equation by the methodbased on factorization of the operato r.

Section B: Differential equationConvergence and divergence ofequations' by the method ofLegendre equation with properties,

208 SUET

Ma~h 302 Mathematics sessi~nal3 hours every alternate week 50 marksFor Third year MetE

PART BSection A: Complex Var iablesComplex number system. General functions of a complex' variable. limitsand continuity of a function, comple)Cvariable and re.!ated theorems. Elemen-tary functions. Complex differentiation and the Cauchy- Reimann equations.

Mapping by elementarv functions.

Section 8': Complex Variablesline integral of a complex function. Cauchy's integral theorem. Cauchy'sintegralJormula. liouville's theorem. Taylor's theorem and Laurent's theorem.Convergency. Singular points'- Residue. Cauchy's residue theorem. Evaluationof residues. Contour integration, conformal mapping.

\ .'

solution

language with applications, e. g. solution ofMatrix addition, subtraction, multiplication and

PART BCurve fitting by I.east squares. Differentiation and integtation andof differential equ'ation by. numerical methods.'

PART AFlow diagram. FORTRANsystem of line.ar equations.inversion.

_Math 301 Mathematics2 hours per week 100 marksFor Third year ChE

PART ASection A: Fourier Series. and Harmonic AnalysisFourie r series. Convergence of Foureir series. Fourier analysis. Fourierintegral. . Introduction to laplace equation in cartesian, cylindrical an(Jspherical co-ordinates. Cylindrical harmonics, spherical harmonics. Potentialof a ring. Po tential about a spherical surface. General properti.esof

harmon Ie functions •

Section B: Partial Differential EquationsParfial differential equations. Wave equations. Particular solution' with

boundary. and initial conditions.

Calendar209

\ ;" I, .

Math ..303 Mathematics2 hours per week 200 marksFor Third year ChE

PART ASection A: Numericai AnalysisInterpolation. Simpl e di fference. Simple difference table. Newton's formulafor forward interpolation. Newton's formula for backward interpolation.Divided differences. Tables of divided difference. Relation between divideddifferences and simple differences. Newton~s general ihterpolation formula.Lagrange's interpolation formula. Inverse interpolation by lagrange's formulaand by successive approximations. Numerical differentiation of Newton'sforward and backward formula. Numerical integration. General quadratureformula for equidistant ordinates. Trapezoidal rule. Simpson's rule. Weddle'srule. Calculation of errors. Relative study of the three rules. Gauss's quadra-ture formula. Legendre, polynomials. Newton-Cote's formula. Principle ofleast squares. Curve fitting.

Section B: StatisticsFrequency distribution. Mean. Median. Mode and other measures of centraltendency. Standard deviation and other measures of dispersion. Moment.Skewness and Curtoesis. Elementary probability theory and discontinuousprobability distributions, e.g. binomial, Poisson and Negative Binomial.

PART BSection A: Numerical AnalysisSolution ofalg.ebraic and tran scedantal equations by graphical method.Regula-Falsi method. Newton-Raphson method, geometrica I significance.Convergence of iteration and Newton-Raphson methods. Newton-Raphsdnmethod and iteration method for the solution of simultaneous equation.Solution of ordinary first order differenti,al equations by Picard's methodand Euler's method. Runge-Kutta's method for solving differential equations.Numerical solution of partial differential equa'tions.

Section B StatisticsContinuous probability distributions, e.g. normal and exponential. Character-istics of distributions. Elementary sampling theory. Estimation, hypothesistesting and Regression analysis.

210 SUET

211

. '

,..Math 305 Mathematics3 h ours per week 300 rnarksFor Third year CE

PART ASection A: Solid geometrySystem of Co-ordinates. Distance between two points, Section formula.Projection. Direction Cosi nes. Equations of planes and lines. Anglebetween lines and planes. Distance from a point to' a plane. ~ Conditionof perpendicularity and parallelism of planes and straight lines. Perpendiculardistance from a point to a straight line. Co-planar lines. Shortest distancebetween two given straight ,lines .. Volume of a tertrahedron. Sta ndardequation of conicoids. Sphere I ellipsoid, hyperboloid of one sheet, hyper-boloid of two sheets. Elliptic paraboloid. Hyperbolic paraboloid, Cone,Cylinde(. Tangent planes. Normal' lines. Condition of tangency.

Section B: StatisticsFrequency distribution. Mean. Median. Mode and other. measures of centraltendency. Standard deviation and other measures of dispersion. Moments.,Skewness and curtesis. Elementary probability theory and' discontinousprobabilitY distributions. e.g. binomial, poisson, and negative binomials.Continuous probability distributions, e.g. normal and exponential.' Charac-teristics of distributions. Elementary sampling theory. Estimation. Hypo-

thesis testing and regression analysis.

PART BSection A: Fourier series and Harmonic AnalysisFourier series. Convergence of Fourier series. Fourier analysis. FourierintegraL Introduction to Laplace equation in cartesian, cylindrical andspherical co-ordinates. Cylindrical harmonics. Spherical harmonics. 'Poten.tial of a ring. potential about a spherical surface. General, properties of

harmonic functions.Section B: Part i al Differential EquationsPartia I differential equations. Wave equations. Particul ar solution with

boundary and initial conditions.

Math 307 Mathematics

3 hours per week 300 marksFor Third year ME and NAME

PART ASection A: Fourier series, Partial differential equations and Harmonic

Analysis

.Calendar

"

i

I\

: 11

,I

,~

{

r

Fourier series. Convergence of Fourier series" Fourier analysis. Fourierintegral. Introduction to laplace equation in cartesian, cyllnd rical andspherical co- ordinates. Cylindrical harmon ics. Spherical harmonicsPotential of a ring. Potential about a spherical surface. GeneralprDperties of harmonic functions. Partial differential equation. WaveequatIons. Particular soiution with boundary and initial conditions.

Section B: Numerical Ana lysis

Solution of algebraic and tanscendental equations by graphical method.Regula falsi method. Newton-Raphson method. I teration method.Geometrical significance of Newton-Raphson method and Iterationmethod. Convergence of Itentioo and Newton-Raphson methods.Newton-Raphson method and Iteration method for the solution ofsimultaneous equations. Graeffe's root-squaring method for the solutionof algebraic equations. Solution of o'rdinary first order differentialequations by Picards method and Euler's m~thod. Runge-Kufta's methodfor solving different equations.

PART BSection B : Complex Variables

Complex Number SlY,stem. General t'unction of a complex variable.Limits and continuity of a function of complex variable and relatedtheorems. Complex differentiation and Cauchy- Riemann equations.Infinite series. Convergence and uniform convergence. line integral;complex function. Cauchy's integral theorem. Singular points. Residue.Cauchy's residue theorem. Evaluation of Residues. Contour integration,conformal mapping.

Section B: NUmerical analysis

Interpolation. Simple differences. Simple difference tables. Newton'sformula for forward interpolation. N9vvton's formula- for backward interpolat-ion. Divided differences. Tables of divided diffarences., Relation betweendivided differece and. simple differences. Newton's genera.' interpolationformula. lagrange's interpolation formula. Inverse interpolation byLangrange's formu la and by successive approximations. Numericalintegration. General quadrature formu.la for" equidistan.t' ordinates,Trapezoidal" rul e. Simpson's rule. Weddle's rule. Relative study ofthe three rules. Gauss's quadrature formula. Legendre's po/ynomiaJs.Newton-Cote's formula. Principle of least squares. Curve fitting.

(

21;l

~~~-."----~--~--""':=~"":O-=:'''''''''''-''''''''~_'''''' ''__ '_' ,_,_

'--

BtJET

.. ,,.

.other measur;e ofmeasures of dispersion.

probability theury a~dbinomial, Poisson and

pART BSection A StatisticsFrequency distribution. Mean. Median. Mode andcentral tendency. Standard deviation ~nd otherMoments. Skewness a'nd curtesis.Elementarydiscountinuous probability distributions, e. g.negative binomial.

Section B: Fourier series and Harmonic AnalysisFourier series. Convergence of fourier series. Fourier integral. Introd-uction to Laplace equation in cartesian, cylindrical and sphericalco-ordinates. Cylindrica I Harmonics. Spherical Harmonics. Potentialof a ring. Potential about a spherical surface. General properties ofHarmonic functions.

Section B: StatisticsContinuous probability distributions, e. g. normal and exponential.Characteristic of distributions. Elementary sampling theory .. Estimat ion.Hypothesis testing and regression analysis.

Math 309 Mathematics2 hours per week 200 marksFor thi'rd year EEE

PART ASection A: Laplace transforms and differential equation

Definition of Laplace transform. Elementary transformations and pro-. perties. Convolution. Solution of differential equations by Laplace trans-

forms. Evalution of improper integrals by. Laplece transforms.Differerential equations. Wave equations. Particular solution withboundary and in itial conditions.

•

I:."

Calendar ,. 213

~.-.. -_ ..- -_ .. -,-- ..•.-.-

, ,

~". ;...., ,

'd

"

j

_'Il"

jJ

1

"

\-:

.' .'(:

I ,

::.0: .

',\ ",: '

. :.

" ,r.

\. ~t .~••.:, ~. . < ..: # f

f : Ii' . {.I

. ~-_.

O' ~ r . ~.I.MetE 2G1; Mate'ri'ah~ "$c'i-er'fce ' !" ,"

2 hours per week 150 marks •

!: of' ~ C. ~ t . ~.1 -,!-. . :; ;.,:. '. I • ;' \'

Department of Metallurgical En,gineering

UNDERGRADUATE COURSESv': .. t,':> 1 •

MetE 101 Fundamental Metallurgy2 hours per week 150 .marks

PART A : 'c' • ; , . "r • ., . ,.' " .' ..

. The states of matter: change of state, thermodynamic considerations,' mecha- .nism$ of solidification" nucleation, and growth. Crystal' impg rfec'tions, .T~e":electronic st'ructure and the physica I properties of metals. Mechan isms ofdef0f!matit1n~7'slip\land: twi~n'ihg'.' Slip praries' and sli'p' I dtrec'tions. .Edg'e a'nd'scr'eW,'df-sfocatl.ons.'- The Burgers' vector,' sources of' 'dislocati':m; glide and

.,climb'; .dislocati()"ri theoty of strain hardening.!; " ,','P'ART 'B! ; . i " ,.:r. ;.- ',.

x-ra'{(iiffraction, '¥(;rbidd~n reflectio~~,' Debya- Schere tec hniq~e, La'~'e"tech-nique, 'Rotating cryst;:ll method. App licaticins of X.ray di'ffracfi6'~ ~oi~_eta., " ;.,'.. ," , ''!!(. , ,•.lIurgy': phase dh3gram determ'ination, structural and chemical analysis" etc.

'Calendar

~~,RT A,,' \',: I',' ','" 'i"": Ii: '

D~firi~iol'), of "1et;alhJrgy,~historicaL deyelop,l1}~nt and the, role of met9"lIurgy, iI), .,,relation ,t.O" other ar~as, ,of science and r, ted(nology .. :r;>efinitioriof common, ll)et~lIurgic.,al terC}'ls:- minerals, ores, metals ; gangue, f1ux~.islag; p.a,lpin,il)g"rC?astifl,9,.,sintering, t;l.riquetting, etc.:, Mecha;r:'l,iGCil;,proper-ti.es of m~tals:, b"r<;lfles,s" duc~Uity, toughness, pla.sticity, fatjgue., creepetc.' Forming of metals-casting,' forging, rolling', -ex:trus:i.q~':etc. JO,i-,ning of, metals: soldering, brazing and Welding, Foundamental ,prin~ciples of extraction of ferrous and non-forrous metals from ores.! I . ; i!'-' ~. I .' f'. ( , ,.'1~. • • 1 .•• ~ • I; t • :' ; , ; I • •

PART Bi'(' 1:-., ~'t. :, ;'~nl F"ff.' :.01, ',,: ~ .'

The atom,,' the, periodic tablg of elements, quantum numbers ande~7;,g~' .!e~~I~ ; ",\h'~.,ioni~:.':b~~~l ..the' '\ ,q~~~i~nt ::,bo~'j 'a'r~;, ~h~ ~7,t~lIic"bond; Brief survey of physical ,and ch~mical properties of .metallic"....... t., -,.". , ..\'. t 1 ..1

elementsand alloys _ Thermal, electricaL optical, magnetic and nuclear,properties. The crysta IIine structure ,:of ','metals.•" MUI~r indrctls. etc~:i

,Binary phase diagrams including the, Fe.FeaC. eqailibiium di agr'am. " ' :' I::

Measurement';' of, high "temperatures-thermometers." indica ting ','colours .•..:,inc;li'catingt 'cones. :'< thermocouples, , ; optica'!" -and radiation pyrometers.

,-timperature correctionS'. ::; , ,: ',-, ','l;

-Efectronand neutron._dif!raction.Fick's laws of diffusion, diffusion mecha-nisms : volume, surface and grain boundary diffi.lsion; Diffusion phenomenain metallurgical processes.

MetE 203 Geology and Mineralogy2 hours per week 150 marks

PART ARocks and their classification: Igneous rocks, sedimentary rocks, meta.morphic rocks and their subdivisions. Earth quakes, volcanoes and volca-nic products. The Earth's interior. Mountains and related land reforms, Ageneral view of earth denundation by -weather, rivers, glaciers and sea.Transportation, deposition 3,.lld consolidation of debris. The geological ageand the relation of rocks to tha;r ages. Origin of coal, -manner of occuranceof coal and petroleum deposits.

PART BOccurrence and association of minerals ; rock-forming minerals, veins andvein minerale, gem minerals, ornamental minerals. Ore minerals of _iron,copper, zinc, tin, aluminium, antimony, etc. Cleavage, parting and fracture,hardness, tenacity, specific gravity, properties depending up:>n light.Electrical and magnetic properties.

MetE 204 Metallurgical Analysis and Assaying3 hours per week 100 marksDetermination of the comm:m metals in solutions of their simple salts.Analysis of non-ferrous alloys such as brass, bronze, bearing metals, etc.for the determination of copper, lead, tin, zinc and antimony. Estimation ofgraphitic carbon in cast iron. Determination of total carbon, silicon, manga-nese, sulphur and phosphorus in plain carbon steels/pig iron/cast iron.

MetE 205 Metalic Materials2 hours per week 150 marksFor second year ME

PART ADefinitions of industrially significant properties including malleability.ductility, toughness. fatigue resistance; mechanical and non-destructivetests applicab Ie to metals. Binary phase diagrams, their origin and inter-pretation, relation of structures and properties of metals and alloys _ inequlibrium. Definition of common metallurgical t~rms, metallurgy, metals,minerals, ores, calcination, roating, sintering, sme Iting, slag, flux, etc.Alloys, furnace and refractories. Pig-iron-Preparation, and uses: Wrought

216. SUET

MetE 207 Fuels and Refractories3 hours per week 250 marks,PART AFuels: Definition and classification of fuels: solid, liquid and gaseous.Origin of coal, transformation of vegetal matter into coal. Different' types

217

'.

iron' preparation and uses: Cast. irons-preparation, types, effects of lmpt,rr,i-ties on cast-irons, production of nodular and malleable cast-irons. Steels.,types, cement, crucible, Bessemer, open-hearth steels, etc. :,Prepa.rationand ,uses. Distinctio~ between plain carbon and alloy steels; Alloyingelemen(s. Different types of a f10y steels, characteristic of tQO~steels. Bearingmetals, properties, types, light alloys, types of light alloys-properties anduses. Cammon metals and their alloys.

PART BCrystal structure of metals and alloy phases: Method of study of crystallinestructure, solidification as a process of crystallisation and growth. Effectsof temperaturlj on mecfianical properties of metals, diffusion and precipita-,tion processes, age hardening. Importance of electronic factors, crystalstructure and defect structure in determining properties and application ofmetallic materials. Heat-treatment: dIfferent types of heat-treatment, effects,furnaces and control of temperatures: Surface hardeni,ng-purposes, methodsof surface hardening, case-hardening etc. Oxidation a,nd, c orrosian .types ofcorrosion, mechanism, -the effect of metallurgical variables on corrosion,protection against corrosion. Po~der Metallurgy-metal powders, charac-teristics, welding of powders, sintering, shrinkage, hot-pressing.

Calendar

MetE 206 Metallic Materials Sessional3 hours every alternate week 50 marksFor Second year .MEPART APreparation of micro specimen for study by grinding, polishing, and etching.Study 'of the metallurgical microscope. Recognition of various ferrous andnon-ferrous materials by metaJlographic study.Photo-micrography, Micro andmacro-study of castings and forgings, examination of cold worked andannealed metals.

PART BPractical study of heat-treatment of ste~ls, furnaces, controlled atmospheresmeasurement and control of temperatures. quenching baths, tempering faci-lities. Conducting of normalising, annealing, hardening, case-carburising 'andharden!ng and tempering operations of steel spec,imen, fo flowed by metallo-graphic examination of the pieces so treated.

"

;".

Materialsmarks

of coal by rank with their calorific values and uses, Petrographic consti-tUents of coal, sources of mineral matter in coal. Methods for analysis ofcoal: the ultimat~ and the proximate analyses of coal, significance of theultimate and tile proximate analyses. Carbonization of coal at high and lowtemperatures: Manufacture of coke. recovery of by-products ..Pulverized coaland br iquettes.Distillation products of petro leum, composition, characterisation, propertiesand blending of fuel oil. the knocking chqracteristics of motor fuel, etc.Gaseous fuel: Natural gas and its prospects in Bangladesh, Manufacture ofgaseous fuel, producer, gas, water gas, town gas, coai gas, etc. theircomposition, calorific value and uses. Combusion problems and stoichio-metric calculations.

PART BRefractories: Definition and classification of refractory materials and theirapplication; Physical and chemical requirements of refractory materi als suchas expansion, contraction, speci fic heat, corrosivity, permeability, thermaland electrk:al conductivity. Raw materials and production of silica bricks, ,firebricks, magnesia bricks, chrome bricks, graphite bricks and other synthe-tic refractories.

MetE 208 Fuel and Refractories Sessional3 hours every alternate week 50 marksDetermination of moisture, volatile matter, fixed carbon and.ash in coal/coke. Measurement of true and apparent specific gravity of coal, coke andrefractory bricks and calcul.ation of percentage porosity. Determination ofthe higher and lower heating va lues of coal/coke. Determination of sulphurin coal/coke by the Escha method and by the bomb calorimeter method.Determination of carbon, hydrogen and nitrogen in coal/coke. Determina-tion of fusion point, strength, thermal conductivity, thermal expansion,spalling resistance, corrosivity etc. of some common refractories.

MetE 209 Shipbuilding3 hburs per week 250For Second year NAME

PART A

Place of metals as material of construction. Definitions of familiar meta-llurgical terms. Metallurgy, metal, minerals, ores, gangue, flux. slag, calci-nation, roasting. briquetting.refractories, etc. Definitions of industriallysignificant properties of metallic. materials including malleability, hardness,toughness, fatigue, creep. yield point, elastic limit, etc. Metallurgy in

218SUET

~ .. ':

.~~>'~'~::'~'~;:',• • ~.~ ~ .,,' <:: ~.~~:{ ." .

. >', .:.-, .t, ~,~:i:l.foundry: Pig iron-Production and uses; Wrought iron-produqti~)n';' ,propet'""';:' .. ";",:;ties and uses; Cast irons-Production, types, properties and uses;ef;~ct,.cif' , ;,' .metalloids on C.1. Ste~ls-Production, properties, uses of carbonsteeis;:Metal casting processes-Casting defects and' remedies: Measurement 'andcontrol of temperature.Powder metallurgy-Importance of power metallurgy in tool making indus-tries, technique of making metellicpo'wders, Effect of powder metallurgy inthe fie.ld of ceramics.

Phase rule and phas9 diagrams of Industrial alloys: Structure and proper-ties of metals and alloys; Manufacture, types, properti'as, and uses"of nonfe-rrous alloys-Brass, bronze, bearing metals, soldering and b',razing alloys, etc.Theories of cqrrosion and methods of its prevention. Ptotective metallic,Inorganic coatings' and org~nic coatings including paints for marine" .atmosphere.

PART BFerrous alloys; Plain carbon steels. all.oy steels, tool steel. sta inlesssteels, heat resisting and' creep resisting stee Is.

Metal working' processes: Hot working and cold wprkhig;' Rolling,forging, extrusign, tube drawing and wire drawing <and sheet metal'forming,< etc.Hea't-treatment of metals and alloys. Iron and Iron carbide thermalequilibrium diagram; Annealing, Normalizing,' qU9nchlng and tempering:T. T. T. diagram,' austemper ing and martempering.Case hardening of steel : Carburizing, Cyanid ing, nitriding et c,Cement, ferro-cement, timber, rubber, glass, plastics and lubricants.

'-/

" J

. i

MetE 210 Shipbuilding Materials Sessional,3 hours per week 100 marks

219Ca lendar

PART ARecognition .of vari ous metallic rnaterials S~udy of meta lIurgicalmicroscope and preparation of macro and micro specimen by grinding,polishing and etching. Micro-study of various" ferr OUg and non-ferrousmaterials. Photo-micro-graphy. Macro and micro-study' of c"old worked andannealed metals.

PART. B\

Practical" study of heat-"t reatment of steels: Conduct of annea ling,normalizing, tempering. and hardening by quenching <and carburizing onsteel. specimen, followed by metallographic examination of the piecesso treated.

"

J

III!

Making of brass, bronze and bearing. metals and study of micro-structureof heat-treated brass and bronze.Metallography of melted and heat- treated speci men of steel and non-ferrous alloys.Study of .physical properties of different heat-treated metals andtheir alloys.

MetE 212 Furnace Design and Drawing3 hours every alternate week 50 marksDesign of different types of metallurg ica I furnaces: kilns, pit .furnace, thefoundry-cupola; converters, open-hearth furnace and electric furnac,es.

MethE 213 Engineering Materials3 hours per week 250 marks

PAAT A

Fine Ceramics Raw materials, prepara tion of ceramic mixture, mold-ing, drying and firing the ware, glazing the ware, Por~elain- its ,rawmaterials and uses. Earthenware and semiporcelain-products for sanitarypurpose. Glazed earthe'n ware tiles. Structural ceramics: Raw materials.classification of products, wall, roofing and facing materials, stone tilesand stone ware, Glass: Composit ions and properties of glasses, react-ions in glass making, glass furanaces, annealing of glasses, coloured.glass and special glasses.

Plastics: Structural ch?Hacteistics of plastics materials, condensationand. polvmerization, types of plastics, production of' plastics materials,production of finished plastics products, uses and properties.Rubber: Sources of rClw materia 15, types end properties.

PART' BCorrosion: Mechanism of cO,rrosion, types of corrosion, corrosionkinetics, hydrogen ev.0lution corrosion reaction,. the corrosion ofalloys, oxidation resistance, atmospheric corrosion, methods of investigat-ion. Corrosion and heat resistant alloys and their classifications~, usesof Corrosion-resistant alloys in modern high temperature appliancessuch as gas-turbines, a.tomic ,reactors etc. Characteristic features ofcorrosion behaviour of the principal classes of alloys. Corrosion behavi-our of metals and alloys at high temperature. The protection of metals-cathodic and anodic protection, inhibition, metallic coatings, organicand inorganic coatings.

/

220 BUET.

,\

"4.' .~:

11:,t

:tI,I1

..!

...,,

.,;.~

•. ";

Ij

Met E 216 Materials Testing Sessional3 hours every alternate week 50 marksGeneral discussion and problems on stress, strain snd mechanical propertiesof materials. Tensile, static bending and impact ..tests on somecommon metals and alloys. Determination of hardness by Rockwell,Brinelland Microhardness testing machines. Determination of wear insome common metals and alloys. Determination of creep damage incommon metals. Fatigue testing of metals. Non-destructive testing

methods.

MethE 218 Fundamenta I Matallurgy Sessional3 hours per weak 100 marksPhysical study of ores, minerals and metals. Comparalive study of hardnessof some pure meta Is and alloys, study of Moh's scale. Preparation ofmicro-specimen and study of metallurgical microscope. Study of micro.structures of wrought iron ; white~ gray and malleable cast iron. Studyof plain carbon steels and estimation of strength, ductil ity and hardnessfrom structure. Preparation of some alloys fike brass, solder, white metals,etc. casting of some simple parts. Study of heating and cooling curvesand study 0 f microstructure of the alloy. Study o;r co rrosion in different

environments.

MetE 301 Elements of Mining Engineering2 hours per week 200 marksPART AGeneral iuformation on rocks and minerals, prospecting for mineral deposit s

and proving it.Mine workings: mining work and mmmg machineries •Mining shafts. sinking vertical shafts by conventional methods, special.

methods of shaft sink ing.Opening up the deposit, effects of under-ground work on the surfaGe, Open

casts or quarries.

PART BNew methods of working coal deposits under-ground.Methods of working are deposits. Methods.of mining other deposits. Minetransport: Basis of design of transp:>rt. rail-free transport systems .. ra if t rans-port. hoisting, surface equipment of the mine; the organization. of mine

transpo rt.Mine drainage, mine .ventilation and lighting, fires and mine rescue.

221Calendar

.', '.~

r

MetE 303 Metallurgical Operations Control3 hours per week 300 marks:PART.A .

. Fundamental metallurgical operations and related problems. Basic conceptsof thermochemistry: Heat of formation, heat of reaction, heat of solution,Hess's law, heat Of reaction at high temperature; application to metallurg iQcal pro'blems.The iron blast furnace ': calculations involv ing redu ctionof the oxides andtheoretical coke consumption, maximum theoretical temperature in the ironblast 'furnace. The cupola and related problems. The bessemer. openhearth and electric steel processes :Ca!culation of amounts. and composi-tions of the slag and gas formed, control of temperature and .compositionin the Besse~~r process.- Smelting and converting of copper.Calculation ofcharga and products of .the open hearth. proc~ss. Electric steelmaking, electri~. furna.ce effeciency and power requirements.PART B ,('

Production ofblast and draft: Power requirement. forblastj volume of airarid calculation of gas velocity. chimney'draft andch!mney head:'-Caiculationof charges fOismelting, cnargemake-up for a desired slag com-position: j Method of avg'Hable flux, the summated Hme ahd algebraicmethods, the cut and try method.Heat balance : Items of heat supply and heat distribution. Heat balance ofthe iron blast furnace, thermal efficiencY of iron blast furnace. Heat balance. .

of the Bessemer converter and open hearth furnace..

PART B .. ,'r'.'.Solutions : Ra-oul.t's. law, deviaHonsfrom Raoult's,. la,\/\{. activities.'"1:erHY~s law and dilute solut!ons, experimental det~rminatiQn of acti-vities, interaction co-efficient, free-energy of mixing, regu lar solutions,partial mp,!,a,r,.iqua!1tit~esr!;:.,c ,t\ppJiC{ltiO!lS r .of thermodyamicprinciples tometallurgy: Solidification, 9 rain-growth, phase diagrams and phasetransformation, extaction and refining of metals etc.

MetE 305 Metallurgical Thermodynamics2 h(;'u';~ p~r 'wee'k 200 rtfarks '

PART A ....

~eview .of.,trye firstan.d s~cond laws .. o'f .thermodynamics. Some t.l1er-modynamic relationships involving entropy. thedriying force behind

- . r

,a chemical reactio.n, free 9-nergYJ. chemical ..equilibrium constant and• k. .~. •

the chemical stability 0 f the compounds, van't Heff 'isotherm and theClausius-Clapeyron equation. The third law of thermodynamics Change

r,of entropy at absolute zero, verification of their law. '.'

222 SUET

"r:

J

~!I!\

iI,\

MetE 307 Ore-dressing and Extractive Metallurgy3 hours per week 300 marksPART 'A

Ore-dressing Aims and advantages of separating valuable minerals.'Comminution, screening and classifying. Beneficiation: Gravity bas edconcentration, froth-flotation, maJnetic and electro-static separation,Evaluation of ore-dressing methods. Preparation of f/ow'sheets and speci.fication of beneficiation plant.

PART B

Extractive metallurgy: Principles of extraction of meta Is from differenttypes of are. Different methOds in extrative metallurgy. Pyrometallurgy:Roasting, drying, calcining, sintering, smelting methods and furnaces.HYdro-metallurgy: leaching, types of leaching, leaching solution and leachingcuives.. Electro-metallurgy : Chemical principles, chemical affi" ity,me~!tan ism ...pf eJec Iro Iys;s, aque a us elect ro Iyt ic ba th , igneous alec tro-lytic ba th, .the Gibbs - He Imha Itz eq ua ti on, fac to rs' affec ling e Iectrol yt icresistance, equipments and applications of electrolysis. Extraction ofcopper, aluminium, zinc, read and tin.

MetE 309. Foundry Technology3 hours per week 300 marksPART A

Pattern design and layout. Moulding, patterns, shrinkage allowancefor various ferrous and non-ferrous. castings. Moulding and theirorigin, grading, selection and uses. The prepa'ation of moulding sands-green, dry, loam etc. The phenomena of solid ification, crysta/Hsation,segregation, shrinkage, etc. Designs of runners and risers. Casting defectsand remedies. Spec ial casting met hods; Die. casti ng, centrifuga I casti ng,precision casting, continuous casting,etc.PART B

I ron founding: The foundry cupola-its design, construct ion. maintenanceand operation. Different grades of cast iron: White, grey, chilled, malle-able, nodu lar. alloy cast iron etc. The effects of carbon, maganese, silicon,phosphorous, sulphur, etc. on cast iron.

Steel Founding; Ingot castings, types, defects and remedies. Non'ferrouscasting: Casting or common non-ferrous metals and alloys, their defectsand remedies.

Calendar

223

..•.....",' < "

"', ~ i'

f

rI

Ir.iI.

M'etE 310 Foundry Technology Sessional3hours per week 100 marks

Foundry sand testing. Preparation of. moulding sand for ferrous and non-ferrous castings etc. Study -and canst ruction of patterns, cores and mouldsfor various castings. .Casting of ferrous and non-ferrous metals and alloys. Metal/agraphicstudy of various castings, t heir solidification and. crystallisation . includingdendrite formation and coring.

MetE 312 .Chemical Analysis of Metals and Minerals3 hours per week 100 rnarks

The determination of the common al/oying elements such as manganese,. nickel. chromium, vanadium, tungsten, and molybdenum etc. in alloy steelslferro-alloys. Analysis of aluminium alloys. Analysis ~f. ore-minerals ofcommon ferrous metals; Analysis of refractory bricks/slags for the deter-mination ..of silica, alumina, magnesia, lime, iron oxide etc.Spectrophotometric analysis, atomic absorption and x- ray fluorescence,mo bile nitrogen a~alysis, carbon determination by combustion method, etc.

MetE 400 Project and Thesis6 hours per week 200 marks

(For each academic session the Departmental Board of Studies will draw upa list of available projects and announce whether these eire to be undertakenby individual student of by a group of students). The projects will be fromthe following areas.Metallurgical plant design and-layout: Proj3cts mlY concern 'd3sign andconstruction of equipments like centrifugal casting machine, gas-fired meltingand heat-treating furnace, automatically control/ed muffle, furnaces etc. i

Design and rnanufaGturing process studies : An item comprising" ot.'severalparts will be examined to determine the mode of manufacture and to in-vestigate possible lines of improvement: This includes studies in powdermetallurgy, different methods of casting ferrous and non-ferrous metals andalloys, making of emery papers and refractory materials from localdeposits etc.

Study of metallurgical phenomena cf industrial interest. Investigationswill be conducted on .the effects of' different factors in a certainprocess e. g. case-harden ing, heat-treatment of metals and alloys in-cluding alloy-steel, tool-steels, study of structure/property relation.ship in steels etc., studies on the prevention of corrosion by alloy-ing, electro-plating; coating and other surface treatment, developmentof devices for the measurement and control of temperature etc.

224

/

" .../ BUET

fI '

I,

MetE 401 Ferrous Production MetaHurgy'2 hours per w~ek 200 marks

PART AProduction of pig-iron: The functions of the bl ast furnace, dispositionof the metalloids by the furance, factors influe'ncing blast of furnaceoutput, modern trends in blast furnace practice. Production of wroughtiron: The puddling and the Aston-Byers processes. Production ofStea I: Pneumatic processes, oxygen steelmaking processes, open-hearth and electric steelmaki ng processes.

PART BProduction of all oy steels: Stai nless steels, tool steels and die steels.Degassing of steel: Vacuum and other degassing processes. Solidifi-cation of steel. Direct reduction of iron. Production of ferroalloys.

MetE 403 Metallic Alloys Paper ~2 hours per. week 200 marks

PART APhase diagrams and their relationship with differen t alloy systems.The copper, aluminium and nickel base alloys. Age hardehable alloys.

PART BHigh temperature alloys. Oxidation and heat resistant alloys. Magnetalloys, low expansion and high expansion alleys ~ Corrosion resistant

alloys, thermocouple alloys; super alloys.

MetE 403 Metallic Alloys Paper II2 hour's per week 200 marks

PART AIntroduction to tool material, plain carbon tool steels, low alloV toolsteels, the high-strength low-alloy (HSLA) steels. The individualeffects of alloying elements in steels,e. g. silicon, chromium, nickel,

tungsten, manganese, vanadium etc.

PART BHigh alloy steels:, mangnese, tool and die. steehs, hi.gh tungsten andhigh chromium tool and die steels, austenitic manganese steals, high

speed tool steels, sintered carbide too I materials.

/

MetE 405 Meta I Technology3 hours per week 300 marks

PART AMechanical properties of metallic materials. Theory ofelasticity. Relationship between ,elastic modulus, poission's« .

. Calendar

. plasticity andratio, stressl

225/

it,"

II

Iij'I

1

strain diagrame, complex stresses etc, Technological theories applic-able to various metal' working processes; Special casting methods.Fracture of metals and alloys. Creep and fatig'ue : mechanisms, effects.of variables.

PAR BMetallurgical effects of . mechanical working on metals. Cold and hotworking operations. Recrysta" ization and grain growth. Details ofrolling, forging, extrusion etc. their advantages, disadvantages anduses. Metallu rgy of welding, brazing and soldering.Powder Metallurgy: Production of metallic powders and making of diff-erent types of tool and thei r special uses and properties.

MetE 407 Physical Metall urgy3 hours per week 300 marks

PART AHeat-treatment: Annealing, normalising, hardening, temper ;ng, recoveryand recrystallisation: hydrogen in steels and heat-treatment for its removal:,T-T-T and CeT diagrams and their applications; austempering. martempering.ausforming, etc. Hardenabilityand ruling section, Jominy test, vari abies thatdetermine the hardena'Jiiity in steels. The effect of composition and rateof cooling on' the structure of cast irons, the microstructure of cast-irons,heat-treatment bf common non-ferrous metals and alloys.

Ternaryalloys: Composition triangle and space models. 'isothermai sectionsof solid solutions, eutect ic and other types of ternary diagram, pseudo-binaryand other vertical sections. some industrially important ternary systems.Limitation of phase rule approach.Precipitation hardening; Nucleation of precipitates. theories of hardening,additional factors in preci pitation hardening.

PART BCase-hardening: Reactions of metals and alloys with gases; carburising.nitriding, cyaniding, boriding. phosphidJng, metallizing, anodizing, etc.Surface hardening : Flame, induction, electrolytic bat h hardening, etc.Structural constituents of steel and their effects: Formation of ferrite,pearlite, bainite and martensite: their various morphologies and their effecton properties: structure-Droperty relationship of 'plain carbon steels. Intro-duction to grain-refined steel,s, factors affecting strength and toughness 'ofHSLA structural steels, theories of grain size control and percipitationstrengthening, transformation characteristics, controlled ro lling, design" ofhigh strength low-alloy structural steels.Ferritic, martensitic and austenitic stainless steels. their structure-property

, relationships.

BUCT

-'1\

I

.,.. ;I

t.~

~,

MetE 408 Mefallograph,," and Heat-treatment Sessional

4! hours per we.ek 150 marks

PART AStudy of micro-structure of heat-treated steels annealed, normalized, quen-ched, tempered, carburized and nitrided .Micro-structure of hot worked, cold worked and welded steels .• Study ofrelationship of structure with mechanical properties ( like yield strength,tensi Ie strengt h, hardness and impact resistance etc.).

PART BMicro-study of nonferrous alloys; the lead-antimony bearing alloys. thebrasses, the bronzes, copper-nickel alloys, .copper-aluminium alloysMicro-study of special cast irons. Micro-structure of alloy tool-steels andstudy of their heat. treated structures. Macro and micro-photographic

studies of metais and ~lIoys.

MetE, 410 Metallul'gicaS Problems Sessional

1lhour ~ p~r week 50 marks

Case study of castings, refractor ie's, furnaces, heat-treatment, fabrication,failures, metal finishing and related industrial problems.

MetE, 431 Foundry Engineering ,2 hours per week 200 marks

PART ARiser design:' Riser curves for steel. Naval Research Laboratory methodof riser calculation, feeding distance; other effects of complex sections

. I

and designs, .effects of chi lis, application of riser principles to com-plex casting, risers for gray cast iron, brass, aluminium and magnesium.Gating design: Law. of continuity, Burnoulli's vertical gating aspirationeffects, prevention of aspiration, bottom gating systems. function ofhorizontal gating system; plate-like castings, complex chunky castings,

stack mold.

PART BMetal fluidity': Measurement 0 f fluidity. the sand mold,. fluidity spiral.typica,l fluidity curve, effect of metal chemistry, application of fluiditydata to castiag problems. Stress-strairl relationships in castings

<II during cooJ-ings ~nd heat treatment, sand casting design. .Mec-hanism and' rate of soli~fication of metals and alloys, the solidificationof actual castings, the effects of mold material and alloy composi'tionupon freezing pattern. Casting defects.' important design features to

Calendar227

eleminate defects, PhysicalCleaning: finishing andfor economic molding.

and metallurgical properties of castinspection of. the cast product,'

metals.Design

classes, electrica I conductivitycomposition.I',~

~

/

,j

ijt1'f""~

I[t'.:.~It.~.;!" Jtor;J~;

MetE 433 Corrosion for Metallurgical Engineers2 hours per weel< 200 marks

PART AReview of corrosion mechanisms. Oxideof oxides. variation from stoich iometr icEffect of metallurgical variables upon the corrosion of metals andalloys. passivity. Pourbaix diagram.

Isotherm31 oxidation. factors determining the mode of ,teady-statecorrosion behaviour of heat- resistant alloys, transient oxidation charac-teristics. Cyclic oxidation and its characteristics,.; effect of thermalcycling upon the corrosion kinetics. Phen~men~. of break-away oxida-tion and healing, factors aff ectin'g the re-formation of healing layers.Mechanism of loss of protective scales from corrosion-resistant alloysurfaces, causes of spallation of the external pr.otec.tive scales from alloy

surfaces.

PART BCorrosion attack and failures: loCalized corrosion, . stress corrosion crac-king .. corrosion fatigue, liquid metal embrittlement and other forms .Internal oxidation: mechanism of internal oxidation, factors affecting in-ternal oxidation. growth .and formation of internal protective, scales.Effect of temperature fluctuation. frequency and duration of cycles.' alloy-content. alloy depletion, environment. etc. up:>n the corrosion beha-viour of metals and alloys.

The enect of. thermal and mechanical stresses: effect of cold-working.and surface fi nis h upon the corrosion kinetics of metals and alloys.Effect of reactive alloy-additions upon the corrosion-mechanism, bulkaHoy additions. mechanical incorporation of dispersed oxide particles,pre-oxidation. Effect of pre-oxidized dispersed oxide' particles. Inwardly-growing and outwardly-growing protective layers. Effect of reversingthe corrosion mechanism upon the growth rate and stabiJityof the pro-tective/ayer. Effect of dispersed oxide particles upon tho mode. ofoxidation and scale adhesion.

228 BUET

metal powder: particle size" loadingdensity etc. Types of binder and their

I

I.,,III'jI

i-,

MetE 435 Welding Technology2 hours per week 200 marks

:PART A'Welding science, chemistry applied to walding, fluxes used in welding, types

of electrodes used.Gas and Arc weldingproce3ses : addi tiona I welding processes like thermitwelding, electron beam welding. and laser welding. Metallurgical effects inthe weld metals: Gas-metal r3actions, hydrog~n embritt1ement, dilutionand uniformity of weld joints, weld pool s'olidification, weld cracking.Microstructural effects in the parent metal: HAZ and solidified weld metal,precipitation and embrittlement, contraction and residual stresses. Weldingproblems with cast lrons, aluminium, aluminium alloys and special steels,like microalloyed steels, austenitic and high alloy steels.

PART B isSolid phase welding: ~ohesion and strength of metals, surface deformation,

I

surface films, recryst~11sation anq diffusion~' Solid phase welding processeslike diffusion bonding, dold pressure welding, friction welding etc:I nspection and testi ng of welds: Inspection during and after welding, non-destruc tive and metallographic tests. The behaviour of - welds in service,'crack propagation, corrosion," of wefds, remedi.al measures.

MetE 437 Powder Metallurgy2 hours per week 400 marks.

'PART AScope of powder. metallurgy. Production of metal powder: depositionfrom 'gas, electrolytic deposition. reduction. of oxides and atomisatlon.Mechanical methods of comminution.: pulverising, stamping . etc. Char-acterisation of metal powdars.Testing and .examination ofweight, flow factor. work ingcharacteristics.The processes: mixing, compacting, pre-singi3ring and sintering of metalpowders. Effects of size and shape of metal powders, applied pressure,temperature etc. on sintering.

i

PART BManufacture of hard metal alloys by sintering : cold and hot pressing.Finishing operations: machining, sizing, protective coatings etc. Heat, .' . '.

treatment of the . sintered product; annealing, quenching, age-harden:'iog and case-hardening by carburizing., cyaniding, nitriding. Prespects forfuture developm ent.

Calendar 229

~

IIJl

I!.

MetE 439 Metal Finishing ..2 hours per week 200 marks

PART A

Purpose and classification. of surface treatments. Hot-dipped coating:surface preparation, metallury of galvanising, tinning, terneplate. alumini.sing etc.Electroplated coatings: surface preparation, plating of some commonmetals and alloys like copper, zinc, n icke', chromium, brass etc.Electroless pi ated coatings.

PA'RT B

Impregnated coatings: metallurgy of chromising. silicon ising, calorising,sherardizing etc. Sprayed, faced and clad coatings.Metallurgical effects of surface preparation by shot blasting and shot.peening. Non-metallic coatings. Testing and quality cQintrol.

~.,'"MetE 441 Non-Ferrous Production Metallurgy2 hours per week 200 marks

PART A.Details of the extraction of antimony, nickel and magnesium :-their oresand individual dressings, the smelting of the concentrates. The crude non-ferrous meta Is--their pyrometallurgica I and eletro-refining. The extractionof gold: sources of gold, extraction of gold from its ores: the amalgama-'tion, the chlorination and the cyanide processes; meIting and refining ofgold bullion.

PART BExtraction of cadmium, bismuth, arsenic, cobalt, mercury, chromium, vana-dium, tungsten, molybdenum and titanium.,Silver: Ores of silver, different processes for the' extraction and refin,ingof silver.Recovery of metals of the platinum group from anode slimes of copper cells,lead baths, nickel cells, a nd from gold and silver slimes.

MetE 443 Refractory m'sterials and Ceramics,2 hours per week 200 marks

PART A

Applications and classification of refractory materi als. Raw materials forrefractories; mining and preliminary treatment of refractory raw materials.The moulding methods, drying and firing of clay and other refractory mate-.ri~ls .. Refractory mortars, concretes and coatings. Insulating materials.Kilns for burni ng refractories. Manufacture of chamotte bricks, high alumina

"

i

230 SUET

I,

f

products, dinas, magnesite, chromite and refractor ies containing zirconiumetc. Refractories in the iron and steel. non.ferrous and other industries.

'PART BMechanism of refractoryfailu'res. Factors influencing the load bearing capa-city and spalling resistance of refractories. Heat transmission by refrac-tories. Testing and quality control. Ceramics: Raw materials, preparationof ceramic, mixture. moulding. drying and firing the ware, glazing of theware; ceramic stains. polishing and decoration. Properties of _ ceramics.Porcelains. their types and uses in electrical engineering. Raw materials forproduction of electric insulators and other semi-porcelains for sanitary pur-pose. Glazing materials. their composition and properties.

POSTGRADUATE CQURSES. , ~MetE 6101 Advanced Metal Physics 3 cre~its

-Statistical mechanics: Fundamentals of quantum mechanics, Thermodynamicsof solids; Free energy and phase equilibria; Order disorder phenornena.Nucleation in growth theory. recovery. recrystallisation. Crystal imperfections.Atomic mechanism involved in deformation of metals, alloys and non-meta-llic solids. Detailed relationship between structure and properties of ,-meta Is.Free electron. theory; Band theory of sol ids, thermal and electrical conduc-tivity ,of solids. Surface emission, cohesion and other characteristics- ofmetals. Dia-magnetism. paramagnetism. ferromagnetism, ferri-magnetism andanti -ferro-magnet ism. Magnetic properties of metals and alloys. Crystalstructure 01 solids. Application of K-ray diffraction techniques to the stUdyof crystal structure.

,.-~,

MetE 6103 Machine Tools Materials and Heat Treatment 3 credits

The composition. structure, heat treatment and selection of tools steels. Ananalytica I study of the machine tools, cutting tool and work piece systemand the metal cutting parameters which influence the system performance.Engineering considerations involved in the design of special tools for econo-mical mass production. Study of tool steel namely water hardened tool steel,shock resistance tool steal, heat resistance tool ste.el, high speed tool steeletc. Powder metallurgy and synthetic tool steel.-

MetE 6105 Advanced Metal Technology 2 credits#

Analysis of the general state' of stress and strain in solids. Elements oftheory of elast icity and plasticity and thei r appl ication' in the field of metal

Calendar 231

.~

,Ii'1

.1

-I;1 forming; Rssidual stresses; Theory of dislocations etc. Mechanism of fatigue

and creep: Veilding at fracture. A study of unit process of hydrometallurgyand Electro-metallurgy. The metallurgy of materials for nuclear rections:their extractbn and fabrications. Product ion; pressing and sintering of metalpowders; Applioation of the powder metallurgy products. Effect ofparticle size, friction, die design on pressed densities.' The metallurgicalaspect of forging; Raw materials and fabrication of pressed and droppedforging including inspection, finishisg and calculation of energy con-sumption. Relation betw9sn st ructure and hot workabil ity of alloys:Deoxidation and solidification of metals and alloys. Structure andproperty of high conductivity-high strength copper alloys.

MetE 6107 Extractive Metallurgy 3 credit s

<~

A detailed study of current practice __!.!l !.he. p repars.fion a! metals usingpyrometallurglcal and hydrometallurgical processes. Thermo chemicalproperties in matallurg.ical systems and analysis of metallurgical proce-sses: Diffusion and interface controlled reaction in metallu rgicsl systems.Heterogeneous reaction in solid, liquid and gas solutious.

MetE 6109 Industrial Alloys 3 credits

The iron carbon diagram and modifics-tioA introduced With alloyi ng ele-ments. The pearlite, bainite and- martensite reactions. Hardeabi.ltty, temperingand properti'es -of alloyed steels. Surface. treatment Physical metall-urgy

- and extractive metallurgy of light metals and their a.JJoys. Thermodyna-mics of alloys based on iron. Solidification mechanism of alloys. study ofhigh permeability chemicallv deposited magnetic alfoys of nickel and cobaltMechanism of preparation of so-lij solutions, external friction, residualstresses. Age hardening alloys. Heat treatm-ent and property of alloysteels. f;lectronic 'structure and characteristic properties of - solid solutionsand other a /loy phases. I.ndustria' alloys _based on copper, zinc, nickel,cadmium etc. and their physical and m3chanical pr0perties.

Diffusion in solids, free energy and phase equilibria ; order disorder pheno-mena. Nucleation and growth theory, recovery, recrystallisntion and trans-f'Jrmation including, eutectoid, martensitic '- precipitation. Introduction to, .

slip and its appli cation t::>the understanding of structure and properties ofrnaierials. Dislocation theory, Nature - and properties of dislocations;

MetE 6201 -Advanced Physical Metallurgy

232

3 crad its

BLJET

-j

dislocation motion and interaction, Construction and interpretationand ternary phase diagram. Factors controlling equilibria: HumeRule, phase transformation of equilibrium' diagram.

of binaryRother's

3 credits

Raw materials and properties; Reaction betwaen refractories and slag;Behaviour of refractories specially at elevated temperature. Mechanism ofdissolution of crystals and glass in melts, diffusion process and sintering insolid. Ceramics materials and their structure and properties; Their fabri.cation and application to high temperature and special services. Solid statestudies; Diffusion and gas permeability of ceramics; Hot pressing: Reactionsintering and pyrolytic deposition; Fabrication study of pure nitride: Oxide.carbide and clay based ceramics; Electrical and mechanical' properties ofceramics at high temperature; Constitution and drying behaviour of clayand Jefractory material:. Interaction' between gases and clean meta Is sur-faces;, Vapour deposition of ceramic fi 1m, dislocation structure in ceramics.Preparation and. properties of nitride and phosphate. Stability relationshipat high temperature. Imperfections and texture in ceramics and glass, flow,fracture and effect of temperature and time theory.

MetE 6203 Refractory Materials

3 creditsMetE 6207 Fuel TecbnologyIntroduction to combustion theories; Combustion reaction, dissociation,vapourization and ignition. Determination of combustion efficiency, heatingvalues and their variables. Gaseous, liquid and solid fuels. Physical andchem ical properties of fuels; combustion processes; Mass and energybalance. Application of thermodynamic principles and chemistry to combus-tion _ reactions. A study at a.n advanced level of important reactions ofaliphatic and aromatic compounds. Steroism and the relation of structureof chemical reactions. combustion applications to heating equipments, Inter-nal combustion engines and propulsion systems. Fluid dynamics of reacting'systems. Ignition, propagation and stability of flames. Detonation, selfignition properties of fuels. Fundamental rel.ationships. combustion, ign ition

.and flame fronts.

Calendar233

3 creditsMetE 6209 Metallurgicgl Themodynamics

Thermodynamics necessary to understand a . large portion of metallurgicalphenomena. An atomistic and macroscopic thermodynamic. approach tothe various properties of solids. Statistical thermedynamics with appl ica-'tions to~metalturgical systems. The principles and laws Of thermochemistryand thermodynamics; Thermodynamic functions, pha3e equilibria, heateffects and equilibrium reactions. Solutions and electrolytic cells.

,t

i• I ~:

,'.~;

•1.i.

Department of Physics

UNDERGRADUATE COURSES

Pl'-y 101 Physics3 hours per week 200 marksFor First year CE, EEE, ME and NAME

PART AHeat and ThermodynamicsKinetic -theory of gases: Deduction of 9 as laws, principle of equi-partition of energy. Equation of State: .Andrew's experiment, VanderWaals' equation, Critical constants. Transmission of Heat: Conduction,

t Convection and Radiation.f Laws of Thermodynamic: First laW of thermodynamics. Internal energy,, specific he ats of gas3s, work done by expanding gas, elasticities of~--- --'a perfect gas; Second law of thermodynamics, Carnot's cycle, efti-

eiency of heat engines, Absolute scale of temperature, Entropy andits physical concept. Maxwell's thermodynamic relations, Statistical

r mechanics.• •

J;1i

.~

OpticsCombination of Lenses: Equivalent lans and equi valent focal length.Defects of images formed by lenses: Spherical aberration, astigmatism,Coma, distortion, curvature of the image. chromatic aberration.- The-ries of Light: Huygen's principle and constructi6'n.' Interferenca..., oflight: Young's double slit experiment, biprisni., 'Newton's rings, inter-.ferometers, interferenc by multiple reflection. :-Diffraction of light: Fresneland Fraunhofer diffraction, diffractipn by single slit. diffraction bydoubla slit, diffraction gratings. Polarization: Production 'I -and analysisof polarized light, optical activity. Optics of Crystals.

Waves and OscillationsOscilla tions: Simple harmonic motion, Combination of S. H. M. andLissajous figures, Damped Osciliations, Forced Oscillations, Resonance,Vibrations .of membranes and columns.Waves: Travelling waves, the principle of superposition, Wave velocity,group velocity and phase velocity, power and intensity in wave motion,Interferenc of waves, diffraction of waves, Reflection and transmissionof waves at a boundary, standing waves.Sound Waves: Audible, Ultrasonic, infrasonic and Supersonic waves;Propagation and speed of longitudinal waves, travelling long itudinal waves,Standing longitudinal waves, Vibrating systems and sou rces / of sound,beats, The Doppler effect.

Calendar 235

II

i!;

!

Architectura I ,Accoustics: Reverberation, Noise insulation and reduction,Sound absorption, Sound distribut ion, Room accoustics, Recording.

PART B

Properties of Matter

Atomic Structure of Matter: Atoms, ions and molecules, States ofmatter; Solids, Li.quids and gases, Interparticle Forces. Elasticity: StressStrain, Elastic Constants. Viscosi ty: Critical vetocity and Reynold'snumber, Poiseulli's equation Stoke's law. Hyd rodyamics : Equation ofcontinuity, Bernoulli's equa'tion and its Applications,. Surface Tension:Surface effects, free surface energy, Molecular The,JrY of surfacetension, excess-pressure theorem, contact angle, capillarity. Crystallo-graphy: Types of bonds, ,: Types of Crystals, X-ray diffraction and Bragg'slaw, Plasticity and crystal defects, metals,. Insulators and semiconductor,

/!;

elementary band theory, Superconductors and plasma.

Modern Physics

Relativity: Michelson-Morley experiment, Lorentz-Eins~ein transformation,Mass energy relation. Quantum effect: Photo electric effect, Comptoneffect. Wave Mechanics de-,-Broglie wave, Correspondence principle,Uncertainty principle, Sch rodinger',s wave equation. Atom model:Bohr's theory of on3 electron atoms, vector atom model. Radio-activity: Radio active decay, Half life, mean life, laws of success'ivedisintegration, radioactive equilibrium. The Nucleus Properties of aNucleus-binding energy, Nuclear reactions-nuclear reactors.

Electricity and magnetism

Electrostatics: Charge and' matter, Coulomb's law, the electric field,Gauss's law, electric potential, capacitors and dielectrics.

Current Electricity: Current and resistance, Ohmic and non-ohmic mater-ial, variation of' resistance with temperature-resistance thermometer;Thermo -electricity- thermoelectr ic thermometer.

Electromagnetism: Magnetic fields, Ampere's .Iaw, Faraday's law,Lenz's law, Inductance-Self and mutual inductance.

Magnetic Properties of matter : Magnetomotive "force, magnetic fieldintensity, Permeability and susceptibility, cJassification of magneticmaterial, magnetization curves of Ferromagnetic materials, magneticcircuits, magnetostriction.

236 BUET

II. ~.

Phy 102 Physics Sessional3 hours every a Itamate. week 50 marksExperiments based on Phy 101

Phy 103 Physics3 hours per week 200 marksFor First year ChE and MetE

PART AHeat and ThermodynamicsKinetic Theory of Gases: Deduction of gas laws, Principle of equipartitiollenergy, Conductivity, Viscosity, Diffusivity. Equation of State: Andre-w's experiment, Vanderwaals' equation, Critical constants. Transmissionof Heat : Conduction, Convection and radiation.laws of fhermodyna'l!ics: First law of thermodynamics, Internal energy~specific heats of gases work done by expanding gas. Elasticities of a perfectgas; Second law of thermodynamics, Carnot's Cycle, Efficiency of heatengines, Absolute scale of temperature, Entropy and its physical concept.Maxwell's thermodynamic. relations, Surface tension and surface energy,

Statistical mechanics.

OpticsCombination of lenses: Equivalent lens and. equivalent focal length.Defects of images formed by lensas: Spherical aberration, Astigmatism,Coma, Distortion, Curvature of the Image, Chromatic aberration. OpticalInstruments: Compound Microscope, Polarizing' Microscope, ~ esolvingpower of Microscopes, Camera and photographic techniques. TheoriesofLight: Huygen's principle and construction. Interference of Light: Young'sdouble slit experiment. Biprism. Newton's rings. Interferom3ters Interferenceby multiple reflection. Diffract ion of Light: Fresnel and Fraunhofer diffrac-tion, Diffraction by single slit,. Diffraction by double slit, Diffraction gratings.Polarisation: Production and analysis of polarizad light, Optical .activity,

Optics of crysta Is.

Waves and OscillationsOscillations: Simple harmonic motion. Combination of S. H. M. andlissajous figures, Damped oscillations, Forced ocillations. Resonance,

Vibrations of membrances and columns.Waves: Trave~Jing waves. The principle of Superposition, Wave velocity,Group velocity and phase velocity, Powar- and intensity in wave motion,Interference of waves, Diffraction of yvaves Reflection and transmi3sion of

waves at a boundary, Standing waves.Sound Waves: Audible, Ultrasonic, Infrasonic and Superson ic waves; pro-pagation and spaed of longitudi:lal waves, Travelling Longitudinal waves,

Calendar 237

- ::....

l', l', r,III:, ;I j,I;I:i<!

:1:'It

~

f~..i,I,i

iii

Standing Longitudinal waves. Vibrating systems and source of sound, Beats,, ,

The Doppler effect, Architectural Accoustics.

PART BStructure of Matter and Modern Physics

,. Atomic Structure: Determination of elm of the electron, Determinationof charge on the electron- Millikan's oil-drop method. Atoms, ions and

, molecules, States of matter; Solids. liquids and gases, Interparticle forces.

Mass Spectroscopy: Isotropic constitution of elements, Spectroscopic analy-sis of Isotopes, Mass Spectrographs. QIJantum Effects: Photo-electriceffect, Compton effect. Wave Mechanics: de- Broglie wave, Correspondenceprinciple, Uncertainty principle, Schrodinger's w~ve equation. ,Atom Models:Bohr's theory of one ele&tron atom, vector atom model. Relativity: Rela-tive velocity, Galilean-Newtonian transformation, Special theory of relativity-Lorentz-Einstein transformation. Radio-activity: Racfio-active decay, Half.life, Mean life, Laws of successive disintegration, Radioactive equilibriumThe Nucleus: Properties of a Nucleus-Binding anergy, Nuclear reactions;Nuclear reacto,rs. Crystallography: Types of bonds, Types of crystals, X-raydiffraction aad Bragg's law, PlastiCity and crystal defects, Metals, Insula-tors and semi-conductors, Elementary band theory, Superconductors andplasma.Electricity and magnetismElectrostatics: Charge and matter. Coulomb's law. The electric field. Gauss'law. Electric potent ial, Capacitors and dielectr ics.Current Electricity: Current and resistance. Ohmic and non-ohmic materials.Variation of resistance with temperature, Resistance thermometer; Thermo-electricity- Thermoelectric tharmo meter.Electromagnetism: Magnetic fields. Lometz force. Cyclotron, Ampere's law,Faraday's law, Lenz's law, Inductance-Self and mutual inductance, electriccircuits.Magnetic_ Properties of Matter: Magnetomotive force, tylagnetic field inten-sity, Permeability and susceptibility, Classification of magnetic mate rials,Magnetization curves of Ferromagentic materials, Magnetic Circuits, Magne-tostricti on.

.!

j1

,, I

Phy 123 Physics2 hours per week 150 marksFor -First year Arch.

PART A

Heat- Conductivity: Introduction. Definition

diffusivity, I ngeo Hausz's method for

238

of thermal conductivity, thermalcomparing the conductivities of

SUET

"I,

I~i

!,,1,I

j

,•

\(

1ij1~

.)j

j1,\it

different metals, determination of thermal conductivity of metals by S~arle'smethod, determ ination of thermal conductivity of bad conductors by LeesMethod, Underground temperature-age of the earth.Convection: Definition. Newton's law of cooling. Domestic and Industrialapplication-Ventilation, dom9stic hot water supply and cenHal heating.Radiation: Introduction, blackbody. instruments for detecting and measur-ing thermal radiation-Leslie's differential air thermometer, thermopile,Emission and absorption of radiation, Prevost theory of exchange.Humidity: Definition, Absolute humidit y. Relative humidity. Dew point,

the control of humidity.

SoundWave motion: Periodic motion, vibrat6ry motion, Simple harmonic motion,meaning of (a) amplitude (b) Period (c) Frequency (d) Phase (e) Phasedifference and Epoch~ Equation of simple harmonic motion, velocity, accele-,ration. kinetic and/ potential energies of a partieale executing simple

harmonic motion.Sound Waves: Progressive and Stationary Waves, interference and beats.Doppler' 5 pri nciple, raflection, refraction, absorption and diffra~tion ofsound. Souhd insulation in building. D9cibel and other units. Musical

scale.Architectural acoustics: Analytical treatment of reverberation-Growth of

intensity and decay of intensity .

PART B

lightNature of Light: Theories regarding the nature of light, Corpuscular theory

and wave theory, Huygen's pr,inciple.Interference of Light: Meaning of the term and the condition ofinterference, Width of fringes produced by two co-herent sources,formation of interferenoe fringes by Fresnel Biprism and determinationof the wavelength of monochromat ic light, explanation of the formation

of Newton's ring and their application.Diffraction: Meani ng and its difference with interference, Fraunhofer

and Fresnel diffracti on.Polarization of Light: Meaning of polarization, Double refraction and

and Nicol's prism, specific rotation, the polarimeter.Illumination and Photometry: Luminous intensity, illumination andpractical illumination, their units and measurement, phosphoroscence,fluoresence, electrical and discharge lamps, reflecting powers of diff~erent sour-C6S, principles of lighting, i lIuminationof homa, street, factory

etc., architectural Lighting systems, flood lighting.

Calendar 239

"

ElectricityCurrent and Resistance: Electric current and a.m.f., Ohm's law, Kirchhoff'slaw, analysis of simple ci rcuits. Magnetic fie Id and Ampere's law: Am-pere's law for magnetic field of a current, force on a current element dueto magnetic field, magnetic fiei ds of simple circuits. Faraday's law andlf1ductance: Faraday's law of electromagnetic inductio n, self and mutualilfductance. Alternating current: Alternating currrent circuits, electronicinstruments.

Modern PhysicsAtomic Structure: Bohr's model of hydrogen atom, atomic spectra. Radio-activity: Radioactivity, law of exponential decay, half life, mean life, Lawof successive disintegration. Relativity', Theory of special relativity, pos-tulates, varia tion of mass with velocity, mass-energy relation. The Nucleus:Binding energy, Fission and Fusion proccesses, Atomfc Reactor. Gravity:Laws of gravity, escape velocity.

POSTGRADUATE COURSES

Phy 6001 Quantum Mechanics 2 credits

General formation of Wave Mechanics, Eigen value problems, Per-turbation theory for non-degenerate case and degenerate case; Scatteringth",ory, angular momentum, Relativistic wave equatio ns, representations,transformat ions and symmetries.

Phy 6002 Low Temperature Physics and Vacuum Techniques.1 credits

production of low temperature, Low temperature measurement, Cryo-stat design, Heat transfer, temperature control, adiabatic demagnetization,vacuum techniques, !ow temperature ha'!ards, superconductivity.

The nucleus, Ionizing radiations, Radioactivity, Background radiation,Natural and artificial radioa.ctivity, Cosmic rays-Fallout, Alpha, beta,gamma, radiation, Neutron emitters, units of radioactivity and radiationdoses, Earlier units, S. I. units, Maximum permissible levels ofradioactivity and radiation doses, interaction of radiation with matter,radiation detection, radiation dosim~try-radiation effects in homogeneousindependent systems, chemical effects of radiation, bio-Iogicaleffectsof radiation (radiation effects in living beings particularly man), radiationhealth protection. .

Phy 6003 Radiation B io-physics

240

4 credit s

SUET

Phy 6004 Medical Physics 4 credits

Int.roductio-n, Interaction of particulate radiation, X- rays and gammaradiatro:ls with living beings, radiation fields within 8 patient-X-rays,teletherapl and high energy X-rays, radiation intensity, exposure dose,ther.apy with moving sources of radiation, X-ray apparatus, constructionand maintenance, implant radiation th erapy, measurement of interna Iradio-activity with an external detector, radiology and radiographictechniques, photographic action of radiation, characteristic curves ofphotographic materials, density, contrast, speed and sharpness, Roent-genography, radiologic diaJnosis, saintography, image mod ification,image intensification, quality of radiologic image, contrast media.grid, StreographY, Kymography, Tomography, medical application ofradiolysls in diagnosis and therapy, whole boay counter, gamma camera,external and internal •.sources of radiation. International radiation protection

recommendations.

Phy 6005 Solid State Physics (General) 4 creditsBasic-many-body theory, laU ice dynamics and electron-phonon interaction,Thermai behaviour of solids, Basic electron-transport theory, Semicon•.ductors,materials and devices, thin films, space groups, basic propertiesof superfluids, properties of amorphous solids.

Phy 6006 X-ray 4 creditsGeometrical theory of diffraction by space lattice, intensity of reflectionof X-rays by crystals, classification of diffraction methods, analysis ofamorphous solids, crystal texture.

Phy 6007 Opticai Crystallography 4 credits, The optical properties of crystals, the po larizing- Microscopy, ther\

microscopic examination of crystals, prepararion, mounting and mani- -

~ '~1;.. puHrti.on of the material, theories of bonding.

Phy 6009 - Magnetis'm (Special) 4 creditsThe concept of magnetic domains, MaQnetic anisotropy, -mechanism ofmagnetostriction, mechanism of technical magnetisation, raw of approach

241

theoreticalinterpret-functionmagnetic

Calendar

Phy 6003 Magnetism I (General) 4 creditsThe Characteristic properties of magnetically ordered solids,.models of ordered magnetic solids, energies of interaction,ation of exchange effects, exchange interactions in solids, Waveand energies of N-electron systems, spin wave excitation,resonance, NMR, EPR, AFR.

and fa tigue,t he field of

of saturation, magnetic annealing, galvanomagnetic; effect, ...magnetothermal effect, magneto mechanical effect, techniques of investigatinginternai magnetic structure, Enginering application of magnetic material ••

Phy 6010 Physics. of Deformed Solids 2 creditsStress and: strain in metals, elasticity and plasticity, creepimperfection in metals, theory of dislocation. dislocation inmetal forming:

Phy 6011 Thermodynamics of Solids 2 creditsProperties at OoK, Gruneisen relation, heat capacities of crystals, ther-modynamics of phase transformation and chemical reactions, thermodynamicpro~'Hties of alloy systems, equilibrium between phases of variable com-position, free energy of binary systems, thermodynamics of surfaceand interfaces, thermodynamics of defects in solids. ~

Ph'f 6012 Nuclear Physics 4 cre~itsAtomic structures: Emission of characteristic and continuous X-rays~the nucleus; Radioactive decay, fundamental particles and thei r pro-perties, properties of nuclear radiation, interaction of radiation withmatter; Nuclear models, nuclear reactions, artificial radioactivity,activation analysis, radiation detection, accelerators. fission andfusion.

Phy 6013 Nu.clear Reaction I 3 creditsCompound nucleus; Compound nucleus and statistical theory, Breit-Wigner dispersion formula, Level density, Angula.r distribution-Energyspectra, optical model. Kapur-Peierls dispersion formula,giant-resonance-lane. Thomas and Wigner model-I, isobaric spin-Isobaric analogue statesand analogue resonance.

Phy 6015 Nuclear Model I 3 creditsShell model: Introduction; Infinite square well. potential. Harmonicoscillator potential, . radial density distribution, magic numbers and spin

• orbit potential, single particle model. independent. pa rticle model, L.S .andj-j coupling, transformation between L-S and j- j coupling, Co-efficient of fractional parentage.

Phy 6014 Nuclear Reaction II 3 creditsDirect reaction, inelastic scattering, stripping andButler theory, Blair's . inelastic diffraction model,atrong absorption model, analysis of experimentalof J-values of nuclear levels.

242

pick- up reaction-the DWBA theory,results, assignments

SUET

4 creditszonally averagedradiative process

Phy 6016 Nuclea r Model II 3 cred itsCollect iva Model-", collective oscillation and the liquid drop model,models of even.even nuclei (with and without axial symmetry)-Odd A and odd odd nuclei-energy spectrum and wave function, collec-tive vibrational excitation. Coupling between modes of excitation, coreexcitation, Optical model: Introduction, development, form factor, shapeof the potential well.

Phy 6017 Basic Atmospheric Physics 3 creditsStructure and Composition of the Atmosphere. Atmospheric Parameters,Physical properties of atmospheric gases. Solar and Terrestrial Radia-tion. Radiative Transfer, Heat Balance of the Terrestrial. Atmosphere.Thermodynamics of the atmosphere. T-4» diagram. Elements of cloud phy-sics. Cloud formatiof' and precipitation. Atmospheric ozone. atmosphericinstruments. Meteorological analysis; Synoptic cha rt, Air masses, frontsetc. Analysis of 500, 300 and 200 mb charts, combined analysis usingconventional data and sate" ite imageries.

Phy 6018 Dynamical and Tropical Meteorology 3 creditsGeophysical fluid-dynamics- Navie r stoke's Equation, rotating and strati-fied' flow. Scale analvsis, hydrostatic approximation, Geopotential, co-riolis force, geostropic, cyclostropic, gradient and thermal wind. Vor-ticity and circulation theorems. Proudman-Taylo r theorem, Boussinesqapproximation, atmospheric turbulence, Atmospher ic waves. Barotropicand baroclinic instabilities. General circulation of the atmosphere. Nu-merical weather forecasting. Quasi-geostropic approximation, baro.trophic verticity equation. Primit ive equation, multilayered models, Tropi-cal cyclones. norwesters and tornadoes. The monsoons, dynamicalclimatology, physcis of upper . atmosphere geomagnetism, Neutralatmosphere, ionosphere and magnetosphere.

Phy 6019 Monsoon Meteorology and ModelingSurvey of tropical disturbance, monsoon clionatology,tropical circulation, meridinal and zonal Asymmetries,in the tropics, tropical cloud physics.Tropical boundary layer, parameterization of tropical cloud Kue andArakawa- Schbort parameterization schemes, tropical cyclone theories,monsoon modelling-monsoon depressions and monsoon rainfall.

MetE 6301 Met 7-Metal Technolagy 2 creditsStructurre and properties of metals and alloys, forming of metals,Casting, metal working, m9tal joining, powder metallurgy, heat-treatmentof metal surface, treatments of ~etals.

Ca lendar 243

I

IIL.

Department of Physics

UNDERGRADUATE COURSES

Phy 101 Physics3 hours per week 200 marksFor First "year CE, EEE, ME and NAME

PART AHeat and Thermodynam icsKinetic theory of gases: Deduction of gas laws, principle of equi.partitiOn of energy. Equation of State: Andrew's experiment, VanderWaals' equation, Critical constants. Transmission of' Heat: Conduction,Convection and Radiation.Laws of Thermodynamic: First law of thermodynamics,-Internal energy,specific heats of gaoes, work done by expanding gas, elasticities ofa perfect gas; Second law of thermodynamics, Carnot's cycle, efti-cieney of heat engines, Absolute scale of temperature, Entropy andits physical concept, Maxwell's thermodynamic relations, Statisticalmechanics.

OpticsCombination of Lenses: Equivatent lens and equivalent focal length.-Defects of images formed by lenses: Sphe.rical aberration, astigmatism,Coma, distortion, curvature of the image, chromatic aberration. The-ries of Light: Huygen's principle and construction. Interference..., oflight: Young's double slit experiment, biprism, Newton's rings, inter-ferometers, interferenc by mUltiple reflection. Diffraction of light: Fresneland Fraunhofer diffraction, diffractipn by single slit. diffraction bydouble slit, diffraction gratings. Polarization: Production and analysisof polarized" light, optical activi-ty. Optics of Crystals.

Waves and OscillationsOscilla tions : Simple harmonic motion, Combination of S. H. M. andLissajous figures, Damped Osciliations, Forced Oscillations, Resonance,Vibrations of membranes and columns.Waves: Travelling waves, the principle of superposition, Wave velocity,group velocity and phase velocity, power and intensity in wave motion,Interferenc of waves, diffraction of waves, Reflection and transmissionof waves at a boundary, standing waveS.Sound Waves:_ Audible, Ultrasonic, infrasonic and . Supersonic waves;Propagation and speed of longitudinal waves, travelling longitudinal waves,Standing longitudinal waves, Vibrating systems and sources of sound,beats, The Doppler effect.

Calendar 235

Architectura I Accoustics: Reverberation,. Noise insula tion and .reduction.Sound absorption. Sound distribution, Room accoustics. Recording.PART B

Properties of Matter

Atomic Structure of Matter Atoms, ions and molecules. States ofmatter; Solids. Liquids and gases. Interparticle Forces. Elasticity: StressStrain, Elastic Constants. Viscosi ty: Critical velocity and Reynold'snumber, Poiseul/i's equation Stoke's law. Hyd rodyamics : Equation ofcontinuity, Bernoulli's equation and its Applications. Surface Tension:Surface effects, free surface energy. Molecular The::>ry of surfacetension, excess-pressure theorem, contact angle, capillarity. Crystallo-graphy : Types of bonds, / Types of Crystals, X-ray diffraction and Bragg'slaw, Plasticity and crystal defects. metals, Insulators and semiconductor,elementary band theory, Superconductors and plasma:

Modern Physics

Relativity: Michelson- Morley experiment., Loren tz-Einstein transformation,Mass energy relation.' Quantum effect.: Photo electric effect, Comptoneffect. Wave Mechanics de-Broglie wave. Correspondence principle,Uncertainty principle, Sch rodinger's wave equation. Atom modE!l:Bohr's theory of ana electron atoms, vector atom model. Radio-:".activity: Radio active decay, Half. life, mean life, laws of successivedisintegration, radioactive .equilibrium. The Nucleus Properties of aNucleus.....,..bindingenergy, Nuc lear reactions-nuclear reactors.

Electricity and magnetism

Electrostatics:- Charge and m3tter, Coulomb's law. the electric field,Gauss's law, . electric potent'ial, capacitors and dielectrics.

Current Electricity: Current and resistance, Ohmic and non-ohmic mater-ial, variation of resistance with temperature-resistance thermometer;Thermo-electricity- thermoelectr ic thermometer.

Electromagnetism: Magnetic fields, Ampere's /"aw; Faraday's law,Lenz's law, inductance-Self and mutual inductan.ce.

Magnetic Properties of matter: Magnetomotive force, magnetic fieldintensity,. Permeability and susceptibility, classification of magneticmaterial,' magnetization - curves of Ferromagnetic materials, magneticcircuits, magnetostriction.

236SUET

1..~

1

I

Phy 102 Physics Sessional3 hours every a !tarnate week 50 rnarksExperiments based on Phy 101

Phy 103 Physics3 hours per week 200 marksFor First year ChE and MetE

~,

, .

. .

PART AHeat and Thermodynam icsKinetic Theory of Gases: Deduction of gas laws, Principle of' 'eqJip,~rtition'energy, Conductivity, Viscosity, Diffusivity. Equatio'n '.of StJt~: Andre-w's experiment, Vanderwaals' equation, Critical constants. Transmission. . .

of. Heat : Conduction, Convection and radiation.Law$, of Thermodynamics: First law of the'rmodynamlcs, Internal energYIs:pecific''heats of gases~ work done by expanding gas. Elasticiti'es ,of a 'perfectgas; Second law of thermodynamics, Carnot's Cycle, Efficie.ncy of heat,engines" Absolute scale of temperature, Entropy and its physical co.nc.pt.Maxw~lI's, thermodynamic. relations, Surface tension and. surface energy,

Statistical mechanics.

OpticsCombination of Lenses: Equivalent lens and. etluivalent focal length.

. ' . .Defects of images formed by lenses: Spher.i.cal.. aberration, Astigmatism,Coma, Distortion, Curvature of the Image, Chroma.tic aberration. Optical

• I

Instruments: Compound Microscope, Polarizing Microscope, Resolvingpower of Microscopes, Camera and photographic techniques. Theories ofLight: Huygen',s principle and construction. Inte'rference of L.ight : Vounglsdouble slit experiment. Biprism. Newton's rings. Interferom3ters Interferenceby multiple reflection. Diffract ion of Light: Fresnel and Fraunhofer diffrac-tion, Diffraction by single slit, Diffraction by double slit, Diffraction gratings.Polarisation: Production and ~nalysis of polarized light, Optical activity,

Optics of crysta Is.

Waves an.d OscillationsOscillations: Simple harmonic motion. Combination of S. H. M. andLissajous figures, Damped oscillations, Forced ocillations. Resonance,Vibrations of membrances and columns.Waves: Travelling waves. The principle ot'. Superposition, Wave velocity,Group velocity and phase velocity, Power and intensity in wave motion,Interference of waves, Diffraction of waves. Reflection and transmhsion ofwaves at a boundary, Standing waves.Sound Waves: Audible

lUltrasonic, Infrasonic and Superson ic waves,; pro-

pagation and speed of LQ.ngitudilal waves, : T,a~8I'1jn,g ..~o.ngit~din~1 waves,

Calendar 237

",j

!i

Standing Longitudinal waves. Vibrating systems and source of sound, Bea-ts,The Doppler effect, Architectural Accoustics.

PART BStructure of Matter and Modern PhysicsAtomic Structure: Determination of elm ofi#8 electron. Determination.of charge on the electron- Millikan's oil-drop method. Atoms, ions andmolecules, States of matter; Solids. liquids and' gases, Interparticle forces .

. Mass Spectroscopy: Isotropic constitution of elements, Spectroscopic analy-sis of Isotopes, Mass Spectrographs. Q!Jantum Effects: Photo-electriceffect, Compton effect. Wave Mechanics: de-Broglie wave, Correspondenceprinciple, Uncertainty principle, Schrodinger's wave equation. Atom Models:Bohr's theory of one eleGtron atom, vector atom model. Relativity: Rela-tive velocity, Galilean-Newtonian transformation# Special theory of relativity-lorentz-Einstein transformation. Radio-activity: Radio-active decay, Half-life, Mean life, laws of success ive disintegration, Radioactive equilibriumThe Nucleus: Properties of a Nucleus-Binding anergy, Nuclear reactions;Nuclear reactors. Crystallography: Types of bonds, Types of crystals, X-raydiffraction aad Bragg's law, Plasticity' and crystal defects, Metals, Il)sula-tors and semi-conductors, Elementary band theory, Superconductors andplasma.Electricity and magnetism

Electrostatics: Charge and matteJ. Coulomb's law. The electric field. Gauss'law. Electric potent ial, Capacitors and dielectrics.Current Electricity: Current and' resistance. Ohmic and non-ohmic materials.Variation of resistance with temperature, Resistance thermometer; Thermo-electricity- Thermoelectric thermometer.

Electromagnetism: Magnetic fields. Lornetz force. Cyclotron, Ampere's law,Faraday#s law, Lenz's law, Inductance- Self ,and mutual inductance, electriccircuits ..

Magnetic Properties of Matter; Magnetomotive force, Magnetic field inten-sity, Permeability and, susceptibility, Classification of magnetic materials,Magnetization. curves of Ferromagentic materials, Magnetic, Circuits, Magne.tostricti on.

.Phy 123 Physics2 hours per week 150 marksFor First year Arch

PART A

Heat

Conductivity: Introduction. Definition of thermal conductivity, thermal'dUfusivity, Ingen Hausz's method for comparing the conductivities of

".

238 BUET

~...-"

II

, \!

, .'

l

, ,

different metals, determination of thermal conductivity Clf metals by Searle~s,,'method, determ ination of thermal conductivity of bad conductors by LeesMethod, Under~round temperature-age of the' earth.Convection: Definition. Newton's law of cooling. Domestic and Industrialapplication-Ventilation, dom3stic hot watst supply and central heating.Radiation: Introduction, blackbody. instruments for detecting and measur-ing thermal radiation-Leslie's differe'.ltial air thermometer, thermopile,Emission and absorption of radiation, Prevost theory of exchange.Humidity: Definition, Absolute humidity. Relative humidity. Dew point,the control of humidity.

SoundWave motion: Periodic motion, vibratory motion, Simple harmonic motion,meaning of (a) amplitude (b) Period (c) Frequen,cy (d) Phase ( e) Phasedi'fference and Epoch,,<'Equation of simple harmonic motion, velocity, accele-

/ '

ration. kinetic and potential energies of a partieale executing simpleharmonic motion.Sound Waves: Progressive and Stationary Waves, interference and beats.Doppler~s principle, raflection, refraction, absorption and diffraction ofsound. Sound insulation ,in building. Dacibel and other units. Musicalscale.Architectural acoustics: Analytical treatment of reverberation-Growth ofintensity and decay of intensity.

PART B

LightNature of Light: Theories regarding the nature of light, Corpuscular theoryand wa,ve theory, Huygen~sprinciple.Interference of Light: Meanjngof' the term and the, condition ofinterference, Width of fringes produced by two co-he rent sources,formation of interference fringes by Fresnel -Biprism end determinationof the wavelength of monochromat ic light, explanation of the, formationof Newton's ring and their application ..Diffraction: Meani ng and its difference with interference, Fraunhoferand Fresnel diffracti on.Polarization oj Light: Meaning of polarization, Double"" refraction andand Nicol's prism, specific rotation, the polarimeter.Illumination' and Photometry: Luminous Intensity, illumination andpractical iIlLJ~ination, their units and measurement, phosphoroscence,flu'oresence, electrical and discharge lamps, reflecting powers of diff.erent sources, principles of lighting, illumination of home, street, factoryetc., "architectural Lighting systems, floodlighting.

Calendar ,239

; ,,

/'

ElectricityCurrent and Resistance: Electric current and e.m.f., Ohm's law, Kirchhoff'slaw, analysis of simple circuits. Magnetic field and Ampere's law: Am-pere's law for magnetic field of a current, force on a current element dueto magnetic field, magnetic fiei ds of. simple circuits. Faraday's law andInductance: Faraday's law of electromagnetic induction~ self and mutualinductance. Alternating current: Alternating currrent circuits, electronicinstruments.

Modern PhysicsAtomic Structure: Bohr's model of hydrogen atom, atomic spectra. Radio-acti vity: RBdioactivity~ law of exponent ial decay, half life, mean life, Lawof successive disintegration. Relativity: Theory of spe,cial relativity, pos-tulates, varia tion of mass with velocity, mass-energy relation. The Nucleus:Binding energy, Fission and' Fusion proccesses, 'AtomfJc Reactor. Gravity:

- Laws of gravity, esca;:>8velocity.

POSTGRADUATE COURSESPhy 6001 Quantum Meehan ics 2 credits

. General forma.tion of Wave Mechanics, Eigen value problems, Per-.turbation th-eory for non-degenerate case and degenerate case; Scatteringth~ory, angular momentum, Relativistic wave equatio ns, representations,.transformat ions and symmetries. ,-

Phy 6002 Low T.emperature Physics-and Vacuum Techniques2 credits

prod.uction of low temperature, low temperature measurement, - Cryo-stat design, Heat transfer, temperature control, adiabatic demagnetization,vacuum techniques, low temperature haurds, superconductivity.

Phy 6003 Radiation B io-physics 4 credit s

The nucleus, Ionizing radiations, Radioactivity, Backg'round radiation,Natural and artificial radioactivity, Cosmic rays-Fal/out, Alpha, beta,gamma, radiation, Neutron emitters, units. of radioactiv ity and radiationdoses, Earlier units, S. I. units~ Maximum permissible levels ofradioactivity and radiation doses, interaction of radiation with matter,radiation detection, radiation dosim3try-radiation effects in homogeneousindependent systems, chemical effec'ts of radiation, bio-Iogicaleffectsof radiation (radiation effects .in living beings particularly man), radiationhealth protection.

240 SUET "I~....p....qoi

,'}.1

.••_.1

Phy 6007 Opti.cai Crystallography . 4 creditsThe optical properties. of .crystals, the polarizing- Microscopy, themicroscopic examination of crystals, prepararion,. mounting. and mani..-puJ.at+onof the material, theories of bonding.

Phy 6005 Solid State Physics «(;ener.al) 4 creditsBasic-many-body theory, latt ice dynamics and eJectron-phonon interaction~Thermai behavIour of solids, Basic electron-transport theory, Semicon-. ducters, materials and devices, thin films, space' groups, basic propertiesof .superfluids, properties of amorphous sol ids.

\

Phy 6008 Magnetism I (General) 4 credits'The Character istic properties of magnet icaHy ordered solids, t~eoreticalmodels of ordered magnetic solids, energies of. i nteraction,interpret-ation of exchange effects, exchange interactions in solids~ Wave- functionand energies' of N-electron systems, spin wave excit ation, magneticresonance, NMR,EPR, AFR.'

Phy 6009 Magnetism (Special) 4 creditsThe concept of magnetic' domains, MaJ:me.tic anisotropy I mechanism ofmagnetostriction, mechanism of technicar magnetisation, law of approach

I'II

I,i!

-'space lattice, inteflsity of reflectionof diffraction methods, analysis of

4 creditsPhy 6004,. Medical Physics

Phy 6006 X-ray 4 cred'itsGeometrical theory' of diffraction byof X- rays by crystals, classificationamorphous solids, crystal t~xture.

Introduction, Interaction of particulate radiation, X. rays and gammaradiatro1s with living beings, radiation fields within a patient-X-rays,teletherapl and high energy X-rays, radiation intensity, exposure dose,therapy with moving sources of radiation, X-ray apparatus, constructionand maintenance, implant radiation therapy, measurement of internalradio.activity with an external detector, radiology and radiographictechniques, photographic action of radiation, characteristic curves ofphotographic materials, density, contrast, speed and sharpness, 'Roent-genography, radiologic diagnosis, s3intography, image modification,image intensification, quality, of radiologic image, contrast medIa,grid, Streography, Kymography, Tomography, medical application ofradiolysls in diagnosis and therapy, whole body counter, gamma camera,external and internalc~ources of radiation. International radiation protectionrecommendations. .

Calendar 241

, '.

I

!"

of saturation, magnetic annealing, galvanomagnetic effect, magnetothermal effect, magneto mechanical effect, techniques of investigatinginternai magnetic structure, Enginering application of magnetic materials.

Phy 6010 Physics of Deformed Solids 2 creditsStress and strain in metals, elasticity and plasticity, creep and fa tigue,imperfection in metals, theory of dislocation. dislocati9n in the field ofmetal forming:

Phy 6011 Thermodynamics of Solids 2 creditsProperties at OoK, Gruneisen relation, heat capacities of crystals, ther-modynamics of phase transformation and chemical reactions, ther~odynamicpr~'Hties of alloy systems, equilibrium between phases of variable com-posiNon, free en9rgy of binary systems, thermodynamics of surfaceand interfaces, thermodynamics of defects in solids. ,.

Phy 6012 Nuclear Physics 4 creditsAtomic structures: Emission of characteristic and continuous X-rays.the nucleus; Radioactive decay, fundamental particles and their pro-perties, properties of nuclear radiation, .interaction of radiation withmatter; Nuclear models, nuclear reactions, artificial radioactivity,activation analy~is, radiation detection, aceellirators. fission andfusion.

Phy 6013 Nuclear Reaction I 3 creditsCompound nucleus; C'ompound nucleus and statistical theory, Breit-Wigner disper~ion formula, Level density, Angular distribution-Energyspectra, optical modal, Kapur-Peierls dispersion formula, giant-resonanc.-lane, Thomas' and Wigner model-I, isobaric spin-Isobaric analogue states.and analogue resonance.

Phy. 6014 Nuclear Reaction II 3 creditsDirect reaction, inelastic scattering, stripping and pick-up reacHon-Butler theory, Blair's inelastic diffraction. model, the DWBA theory,atrong absorption model, analysis of experimental results, assignmentsof J-values of nuclear levels.

Phy 6015 Nuclear Model I 3 cred itsShell model: Introduction; Infinite square well-potential. Harmonicoscillator potential, radial density distribution, magic numbers and spinorbit potential, single particle modell independent particle model, L.S~nd j-j coupling, transformation between L-S and j. j coupling, Co-efficient of. fractional parentage.

lI

IL

242 BUET

4 creditszonally averagedradiative proce35

ti

i

f..~.•......"..-.• _ -l< •••• r

Phy 6016 Nuclear Model II 3 ered itsCollective Madei .11, collective oscillation and the liquid drop model,models of even-even nuclei (with and without axial symmetry)-Odd A and odd odd nuclei-energy spectrum and wave function, collec-tive vibrational excitation. Coupling between- modes of excitation, coreexcitation, Optical model: Introduction, development, form factor, shapeof the potential well.

Phy 6017 Basic Atmospheric Physics 3 creditsStructure and Composition of the Atmosphere. Atmospheric Parameters,Physical properties of atmospheric gases. Sol.ar and Terrestrial Radia-tion. Radiative Transfer, Heat Balance of the Terrestrial. Atmosphere.Thermodynamics of the atmosphere. T-~ diagram. Elements of cloud phy-sics. Cloud formation and precipitation. Atmospheric ozone. atmosphericinstruments. M9teofological analysis; Synoptic cha rt, Air masses, frontsetc. Analysis of 500, 300 and 200 mb charts, combined analysis usingconventional data and satell ite image ries.

Phy 6018 Dynamical and Tropical Meteorology 3 creditsGeophysical fluid-dynamics-Navier stoke's Equation, rotating and strati-fied flow. Scale analysis, hydrostatic approximation, Geopotential, co-riolis force, geostropic, cyclostropic, gradient and thermal wind. Vor-ticity and circulation theorems. Proudman -Taylo r theorem, Boussinesqapproximation, atmospheric turbulence, Atmospheric waves. Barotropicand baroclinic instabilities. General circula"tion of the atmosph.ere. Nu-merical weather forecasting. Quasi-geostropic approximation, baro-trophic verticity equation. Primit iva equation, multilayered models, Tropi-cal cyclones, norwesters and tornadoes. The monsoons, dynamicalclimatology, physcis of. upper atmosphere geomagnetism, Neutralatmosphere, ionosphere and magnetosphere.

Phy 6019 Monsoon Meteorology and ModelingSurvey of tropical disturbance, monsoon clionatology,

. tropical circulation, meridinal and zonal Asymmetries,in the tropics, tropical cloud physics.Tropical boundary layer, parameterization of tropical cloud Kue andArakawa- Schbort parameterization schemes, tropical cyclone theories.monsoon modelling-monsoon depressions. and monsoon rainfall.

MetE 6301 Met 7-Metal Technolagy 2 creditsStructurre and properties of metals and alloys, forming of metals,Casting, metal working, m9tal joining, powder metallurgy, heat-treatmentof metal surface, treatments of metals.

Calendar 243

II.1

~-,;'1"~

~~

.,.i;~

Uf\lDERGRADUATE COURSES

Depsrtment of Mechanical Etrigineering

PART AStudy of sources of energy, introduction to renewable energy sources, studyof steam generating units with accessories and mountings, performance studyof steam generators; 'reciprocat ing steam eng ines and steam tUfbin~s-their study and performance; study of pumps, blowers and compressors.

PART B. Introduction to inte mal combustion engines and their cycles, study ofpetrol engines, diesel engines. and gas turbines with their acc~.ssories,performance study of internal .combustion 'engi nes, Study of refrigeration,and air.conditioning systems.

Engineering200 rnarks

1'~AME

ME 101 Therrnal3' hours per weekFor first year ME and

!ViE 102 Thermal Engineering Sessional'3 hours every alternate week 50 marksFor First year ME and NAMESessional classes basad on ME 101

ME 103 Basic Mechanical Engineering2 hours per week 150 marks

'For First year EEE

•

PART AStudy of fuels, steam generating units with accessories and mountings,performance study of steam generator, steam turbine, their study and per-formance ; study of pumps and compressors.PART BIntroduction to internal combustion engines and their cycles: study ofpetrol engines, diesel eng ines and gas turbines with their accessories;performance study of internal combustion engines, study of refrigerationsyatern.

ME 104 Basic Mechanical Engineering Sessional3 hours every alte'rnate week 50 rnarksFor First year EEESessional olasses based on ME 103

Calendar 255

ME 105 Engineer,ing Mechanics3 hours per week 200 marksFor First year ChE

PART A

Introduction, resultant and component of forcesFriction-belt fric'tioo, pivot friction; Non-coplana rpara lIel forces Centroids; Moments of inertia

Freebodv diagramsforces; Non-coplanarof area and mass.

PART B

Kinematics of p.lane motion: Recti linear motion, Curvilinear motion,Trajectory; Simple Harmon ic Motion, Centro, Relative Motion.Kinetics: Newton's laws, Inertia force. Conservation of energy, K.E..of a rotational body, Bodies in plane rolling, work, power. linpulse,'conservation of momentum, Impact; Basic mechanisms.

-.ME 107 Basic Thermal Engineering and Engjneering Mechanics3 hours per week 200 marksFor First year MetE

PART ASources of Energy. Boilers and their accessories and mountings; Study ofsteam turbines. Introduction to Internal combustion engines; study ofpetrol engines, diesel engines and gas turbines. Introduct ion to pumps,blowers and compressors. Introduction to Refrigeration and Air-Conditio"ning.

PART B-Introduction to engineering machanics : Resultant and components offorces; Free-body' diagram>. Moments and coplanar forces; Trusses;Friction. Centroid, Moments of inertia. Application of Work-Energyprinciples 01 rigid bodies. impulse aud Momentum.

ME 108. Basic Thermal Engineer ing and Engineering MechanicsSessional

3 hours every alternate week 50 marksFor First year MetESessional work based on ME 107

ME 112 Basic Mechanical Engineering Drawing3 hours every alternate week 50 marksIntroduction, Scale drawing, Sectional views, Isometric views.line. Auxiliary view.

256

Missing

SUET

~.

!\liE 201' Basic Thermodynamics3 hours per week 250 rnarksFor Second year ME and NAME

PART AFundamental concepts and definition. Laws of thermodynamics and their.corollaries, non flow process and flow process; ideal gases and their cycles,

thermodynamic cycles and processes.

PART BProperties of pure substances, mixtures of gas and vapour, fuels and com

G

bustion, principles of refrigeration, reciprocating compressors.

ME 202 Basic Thermodynamics Sessional3 hours every alternate week 50 marksFor Second year ME and NAMEExperiments based oN ME 201

IfI

II

1

ME 203 Engineering Mechanics3 hours per week 250 marks

PART AIntroduction and basic concepts. Resultant and components of forces; Freebody diagrams. Equilibrium of coplanar forces. CentrOids. Moment of interiaof area and mass. Kinematics of absolute motions, Kinematics of -relative

motions.

PART BFriction.. Maximum and Minimum forces. Equilibrium of spatialforcesys-tems. Basic mechanisms. Kinetics of recti linear and curvilinear motion ofparticles. Kinetics of Plane motion of rigid bodies. Principles of work and

energy. Principles of impulse and momentum.

.. '

',~

. ~.:;;;to ~

I ..

257, 'Calendar

ME. 205 Mechanics of So'ids3 hours per week 250 marksFor Second year ME and MetE

PART AIntroduction; Analysis of axially loaded members, Thermal stress; centri-fugal stress, statica \ly indeterminate axially loaded members stresses, in thinwalled cylinders and spheres; riveted and welded joints.Beams, shear force and ,bending moment diagrams. various types of stressesin beams, Flexure formula. Deflection of beams. Integration and area

moment methods.Reinforced concrete beams and slabs.

258

PART B

Torsion formula, Angle of Twist. Modulus of Rupture, Helical Springs.Combined stresses, Principal stresses and princ ipa I planes~ Mohr's Circle.:Columns, Fuler's formu la, Intermediate column formu Ias, the Secant formula.Flexure formula for curved beams. Thick walled cylinders. Introduction toexperimental stress analysis techniques, Strain Energy, Failure Theories.

ME 206 Mechanics of Solids Sessional3 hours every alternate week 50 marksSolution of problems and experiments based on ME 205

ME 207 Thermofluid Mechanics'3 hours per week 250 marksFo r second year EI:E

PART A

System, properties and prOC9353S,equation of state, properties and lawsof perfect gases, and ideal gas cycles. Pure substance, laws of ther-modynamics and their corollaries.

Fluid properties and statics, principles of conservation of mass, pressureon curved surface, energy and, momentum and thei r application, flowmeasurements, laminar and turbulent flow in pipes.

PART B

Thermodynamics of steam generation, boilers, steam cycles and internalcombustion engine cycles.

Tu-rbomachineries, pelton wheel; Reaction turbines. Cantrifugal and axialflow pumps and fans; Reciprocating pumps.

ME 208 Thermofluid Mechnics ,Sessional3 hours every alternate week 50 m3rksFor Second year EEEExperiments based on ME 207

ME 209 Mechanics of Materials3.hours per week 250 marksFor Second year ChEPART' A

Introduction, Stress, Strain, thermal stress, statica l1y indeterminate axiallyloaded members, stresses in thin walled cylinders •. Riveted and weldedjoints, Thereaded Fasteners.

Beams, shear force and bending moment diag a I t' b t S F dr mSt re a Ion e ween •• @n

SUET

momentumreciprocating

B.M., various types of stresses in beams; Flexure formula, deflection ofbeams, Integration and area moment method ..Reinforced concrete beams and slabs.

PART BTorsion of shafts and springs. Combined stress, principa I planes, Mohr'scircle, Columns, Euler's formula, Intermediate column formula. Th ick walledcylinder and spheres.- Power transmission elements.

ME 212 Mechanical Engineering Drawing3 hours every alternate week 50 marksIntJoduction, fasteners and gears. Working drawing of machine elements withsectional views, detail drawing, sub-assembly drawing ,assembly drawing.

ME 217 Elements of Fluid mechanics and machinery(i)

2 hours per week 150 marksFor Second year MetESubject to approval of Academic Council

PART AFluid properties, Fluid static, Manometry, Forces on submerged planes andcurved surfaces, buoyancy a;}d floatation.Ona dimensional flow of fluids: the equation of continuity. Euler's equa-tion. Flow of fluids in pipes. Bernoulli's equation. Flow through venturimeter,Head losses.

'PART BOpen chnnel flow, flow through weir, notches, Impuls aridprinciple, fans blowe rs study of centrifugal compressors .andpumps,

ME 300 Computer Programming3 hours every alternate week 50 marks

Introduction to FORTRAN language. Concept of an algorithm., Developmentof flow charts to solve engineering problems and to.complete the com~uta-tional task.. Conversion of flow chart to computer programme i.n FORTRAN.Computer programming for solution of algebraic and transcendehtal equations

I .

by different'iteration techniques, linear equations, matrices, interpolation,diff.erentlation, integration, finite differences, linear ordinary and partialdifferentia I equations. Curve fitting. ,

Calendar 259' -

!!,

II~

~

~1JI

II!

I1

ME 301 Heat and Mass Transfer3 hours per . week 300 marks

PART AIntroduction to the basic modes of heat transfer. Conduction: Law ofconduction, genera I conduction equation; Steady state one-dimensionalconduction-plane wall, cylinder, sphere, composite structures, fins of uniformcross section; Consideration of variable thermal conductivity and systemswith heat sources. Two-dimensional steady state conduction-analytical andnumerica I solution. Unsteady state conduction, transient heat flow withnegligible internal resistance and with internal and surface resistance, useof charts for plates, cylinders and spheres.Radiation: Electromagnetic wave spectrum and thermal radiation, black-body radiation, radiation properties, Angle factor, net heat transfer ratebetween two radiating surfaces, infinite parallel pi anes. concentric spheres

"and long cylinders, simple enclousure problems; Temparature correction andradiation shield; Solar radiation.PART BConvecti on: Different types of flow and convection, dimensional analysis offorced and natural convection: Forced convection inside tubes and ducts-laminar -and turbulent flow, analogy between heat and momentum transfer,empirical equations; Forced convection over a flat plate, hydrodynamic andthermal boundary layer, approximate analysis by intergral method. Naturalconvection from exterier surfaces-vertical plates and cyl inders, horizontalplates and cylinders, spheres and inclined plates.Heat transfer with change of phase: .Condensation, types of condensation,- laminar film condensation of flat pia tes and horizontal cylinders, analysis byNusselt method, effect of correlations -of boiling and heat transfer data.Heat Exchangers : Basic type of heat exchangers, logarithmic mean tempera-ture difference, exchanger effectiveness, fouling and scaling of exchangersurface.Mass Transfer ': Introduction, mass transfer by molecular diffusion, convec-tion and change of phase, simulataneous heat and mass transfer, mass. transfer equipments.

ME .302 Heat Transfer Sessional3 hours every alternate week 50 marksExperiments based on ME 301

ME 303 Mechanics of Machinery3 hours per week 300 marksPART ATurning moment, inertia and kinetic energy of reciprocating parts and connec-ting rods-design of wheels.

260'. BUET

~ I

261

PART BStudy of cams and cam followers, di fferent types of follower motions, camprofiles to impart definite motion to followers, cam with spec ified contours.Power transmission by belts, ropes and chains. Friction clutches-conical andplate brakes and dynamometer~. Geometry of gear tooth profiles-involute andcycloidal tooth profiles in different types of gears. Study of gear trains-

simple, compound and epicyciic.Governors--spring and gravity control types, inertia types.Precession and gyroscopic acce! eration, gyroscopic coupl e3, gyroscopic

stabilisation and directional' control.

Balancing-static and dynamic applied to rotating and reciprocating parts,partial balance of locomotives, opposed ,engines, multi ~cylinder in-lineengines, V-engines, radial engines, conce~t of direct and' reverse crank s,

ba lancing machines.Undamped free vibrations of simple mechanical systems with one and twodegrees of freedom, longitudinal, transverse, torsional and vibration. Dampedfree and steady state forced vi brations with single degree of. freedom. Whir-ling of shafts and rotors. vibaration geared system. vibration absorption of

disolation, vibration measuring instruments;

Calendar

ME 304 Mechanics of Mechinery Sessional3 hours every alternate week 50 rnarksExperiments and solution of problems based on ME 303

ME 307 Fluid Mechanics3 hours per week 300 marks

PART AFundamental concept and fluid as a continuum. Fluid statics-the basichydrostatic equation, pressure variation in static incompress ible and com-pressible fluid, manometers, pressure distribution of a fluid in a roratingsystem. Stabi lity of floating and submerged bodies .

.Continuity .equation fqr a control volume, relation between system approchand contro I vo lume approach. Control volume form of the energy .equation,speCial forms of energy equation. Application of energy equation. Flowthrough orifice, mouthpiece, venturimeter and notch. Control volume formof the momentum equation, special forms and approximation of the momentumequation. Application of momentum equations.

PART BSimilitude and Dimensional analysis. Cmpressible flo,,¥, the speed ofsound, speed of wave propagation when the pressure rise is very high.Energy equation for isentropic and isothermal flow. Stagnation states

,\

Ii

j

,1II.I•J

.~

I

j"

j

1I1tit

.jIj,I

for the flow of an ideal, gas. Flow through converging-diverging nozzle,normal shock. Real fluid f fow, frictional losses in pipes, and fittings,Introduction to open channel flow.

ME 310 Machine Design Se,ssional3 hours every alternate week 50 marksDesign of individual machine elements; Small design projects relating to fluidmachines, engines and machine tools.

ME 400 Project and Thesis9 hours per week 300 marksIn this course students are re'quired to' undertake a major project in engin~e-ring analysis, design development of research. The objective is to providean _opportunity to develop initiative" se'lf reliance, creative ability and engi-neering judgement. The results must be submitted in a compre~ensive reportwith appropriate drawings, charts, bibliography, etc. along with' the productsif any. Use of locally available materials in manufacturing and feasibilitystudy 0; local industrial units will be emphasised.

ME 308 Fluid Mechanics Sessional3 hou rs every alterilate, we ek 50 marksExperiments based on fVIE 307

ME 309 Machine Design3 hours per week 300 marks.,

PART A

Approach to design, stress analysis: Design factors, desi gn of simple.machine 'elements, material specifications; Stress concentration, notch sen-sitivity and fatigue, combined stresses, column with axial and transverseloadings, power' screws, screw fastenings and other joints; Pressure. vessels,boilers and combustion chambers; Springs; Journal cfndplane bearings andlubrication; Roller bearings. '-'

PART BShafts; Rope, Belt and chain drives; Spur, heli.cal, bevel and warm gearings;Couplings and keys; Brakes and clutches.(Note: Design based on the locally available materials will be stressed.)

\

BUET

Reheat, rage-Flow through

ME 401 Applied Thermodynamics.3 hours per week 300 marks

PART AProperties of steam; Steam tu rbine eyeles; Vapour cycles ( Le.nerative, surperposed binary cycles); Flow through nozzles;blades.

262

"

jI!i~i,1.:~f~Ii

'l~,ij'

.j.. ',

/.'lfI

ft!/ .I

,I,•

III

1

Combustion charts, fuel. air and real cycle; Combustion phenomena in sparkignition engine, compression ignition engine a"d ga"s turbine, mixture requi-

.rements; Carburation -and fuel injection; Volumetric efficiency of2 and 4strokes engines including scavenging; Performance of supercharged and un-supercharged engines; Principles of similitude in design of IC Engines.

PART BPower plant economics; Fuels and combustion; Combustion equipments;Gas loop ; Water loops; Piping; Economise'r; Evaporators; Governingequipments, etc. Gas turbine Cycles ; Wankle rotary engine, jet and rocketpropulsion. Compress process, volumetric efficiency, multistage compression,i ntercooling; Types of compressors for gas turbine and for superchargingin Ie Engines.

ME 402 Applied Tbermodynamics Sessional3 hours every alternate week 50 marksFor Fourth year ME and NAMEExperiments based on ME 401

ME 407 Fluid Mechanics and Machinery3 hours per week - 300 marks

PART ATypes of fluid machinery; Rotodynamic and positive displacement machinery.Velocity diagram and Euler pump turbine equation, Impulse ...and reactionturbines-Pelton wheel, Francis turbine and Kaplan turbine. Dimensional ana-lysis applied to turbines-specific speed, unit power, unit speed. Performancetests and characteristic curves of turbines. Introduction to inviscid incom-pressible flow to include" two dimensional bas ic flows and Kutta-Joukowskirelation.

PART BCentrifugal and axial flow machines-Pumps, fans, blowers and compressors.Deep well turbine pumps ; Specific speed. Performancp, tests and characte-ristic curves. Cavitation. Reciprocation pump. Hydraulic transmission, torqueconverter and fluid coupling. Introduction to boundary layer theory-esti-mation of boundary layer thickness, skin friction and drag of a flat plate.

I1

I~I

, . ,,'

ME 408 Fluid Mechanics and Machine~y Sessional3 hours every alten~ate week 50 marksExperiments based on ME 407

Calendar 263

function, stream function,theorem. Aerofoil theory

.:1:1

Optionai Subjects

ME 421 Aerodynamics2 hours per week 200 marks

PART AInviscid incompressible flow to include potentialcirculation and basic flows. Kutta-Joukowskiand win!'J theory.

PART BDrag, aircraft propulsion and propeller. Static performance problem;Special performanceproblem~ Introduction to stability. and control ; Longi:-tudinal stability and control; Lateral and directional stability and controL

ME 425 Automobile Engineering2 hours per week 200 marks

PART A..Component of an automobile; Engine types and classification; Engineconstruction. Reducing engine friction: Automotive engine fuels includingpreignition, detonat ion and knocking; Measurement of antiknock val ves.Fuel system including carburation and carburator ci rcuits; Diesel enginefuel system. Exhaust system; Engine cooling; ignition system.

PART BCranking motor system; Clutch system and functions. Transmission propellershaft and differential function; Rear axles, tyres.Electric system: Steering system; Braka system; Automotive springs andsuspension, Atutomotive performances and efficiencies.

ME 429 Control Enginee1-ing2 hours per week 200 marks

Theory of control systems including open loop aud closed loop withemphasis on mechanical, hydraulic, thermal and pneumatic systems.Representation of control systems, block diag"rams. Frequency, stepfunction and system responses, transfer functions, characteristic functions.System analysi~ using polar plots (Nyquist diagram), logarith"!"ic plot (Boded~agrm), root locus plots: System compensation. Analogues of controlsystems. Application of servo mechanism in mechanical engineering. Hydr.a-ulic control systems, Servo control valve arrangements and analysis,hydraulic pump motor -analysis. Pneumatic control systems. Elements Dfelectro-mechanical and hydraulic controls.

264 BUET

.1.•

I.~

1

l1

ME 431 Plastics Process Technology.2 hours per week 200 marks

.PART AIntroduction. Testing of properties, Assessment of flow behaviour; New-tQ.nian fluids; Processing parameters; degradation, decomposition. Fillers,additives used in some common plastics. Common methods of identifyingplastics. Mixing and compounding; Mills: internal and continuous

mixers.

PART BExtrusion: machanical construction and operation, screw design, temper-ature controls, cooling, hauling' and guillotin units, wire coating, dies.Cal.endering: roll configuration, process of making sheets, laminating.Compression and transfer moulding, different types of moulds. Injectionmoulding, mechanical construction and operation, moulding cycle.w . . .Blow moulding : Vacuum formin_g, reinforcement of plastics. Instrumentation

and controls.

ME 451 Refrigeration and Air Conditioning

. 2 hours per week 200 marks

PART 'AReview of basic cone epts and definitions. Applications of refrigeration andair~conditioning: Vapour compression refrigeration. Analysis of vapourcompression cycle. Absorption re frigeration. Air-Cycle refrigeration •Steam-jet refrigeration. Vortex-tube refrigeration. Properties and numericeldesignations of commonly used refrigerants, Eutectic sulutions of brines.Refrigeration equipments. Refrigeration control systems. Multipressuresystems of refr igeration. low-temperature refrigeration.

PART BCooling load calculations for various applications viz. air-conditioning, coldstorage, Cooling; Dehumidifying end clearing aquipmments; Control system.

265Calendar

POSTGRADUATE COURSES

ME 6003 Problem 3 creditsSelected subjects related to .mechanical engineering,Assigned read ing and special problems arranged onconsultation with the teacher.

No formal lectures;.an individual basis in

ME 6101 Classical Thermodynamics 3 creditsFundamentals of G:lassical thermodynamic, first and second Jaw; Concept ofproperties. Reversible and irreversible prooesses, entropy and other charac-teristic functions. Maxwell;s relations. Equation of state and generalizedco-ordinates;- Equilibrium and stability.

ME 6103 Statistical Thermodynamics '3 creditsKinetic theory of gases; Thermodynamic theory of radiation; Maxwell-Boltzman distribution, equipartition theorem; Mean fr~e path. Bose-Einsteinand Farmi-Dirac statistics; Entropy transport properties; Fluctuation.Thermodynamics of noise.

ME 6111 Solar Energy 3 credits.•

Energy demand and conventional sources; Alternative sourC9S; Solar energy,solar . radiation-extraterrestrial and terrestrial; measurments, data andesti-mation; Direct utilization or s()lar energy, collection. devices, storage; Solarwater heaters, solar stills, solar refrigeration and other special topics.

ME 6125 Mechanics of Viscous. Fluid 3 creditsEquations of motion for viscous fluid; Boundary layer analysis for laminarand turbulent flow; Theories of turbulence; Jets, wakes and separated flows.

S.urvey of principal concepts and methods of. continum fluid. mechanics;conservation equations for mass,. momentum and energy for control volume;Eulerian and Lagrangian viewpoints; Governing equations of motion of fluidin non-accelerating and accelerating co 'ordinate system. Introducti on tohydrodynamics and boundary layer theory.

\.

ME 6123 Mechanics of I nviscid Incompressi ble Fluid 3 creditsKinematics of a fluid medium, the fundamental hydrodynamic equations foran ideal fluid; The simplest cases of motion of an ideal fluid: Vortex motionof an ideal fluid; The plane motion of a body in an ideal fluid; The threedimensional motion of a body)n an ideal fluid.

1

Ii

I

I11

III

~

IlJ(I

f.f

t

ME 6121 Survey of ,Fluid Mechanics

266

3 credits

SUET

ME 6127 Mechanics of Inviscid Compressible Flow 3 creditsShock waves; Analysis of subsonic, supersonic and hyperson ic flow fields,characteristic method and perturbation technique ; Compressible flow inclosed conduit.

ME 6141 Advanced Heat Transfer 3 creditsModes of heat flow and basic laws of heat transfer General conduction. equations, steady and unsteady heat conductions; Analytical and numericalanalysis. Thermal radiation phenomena and heat exchange by radiation,convection; Forced and natural, external and internal flows, analytical andexperimental results, condensation and evaporation, combined heat transfer.

ME 6143 Advanced Conduction and Radiation Heat Transfer 3 creditsSteady and unsteady state conduction, solutio.ns by analytical, numerical andanalogue methods. Thermal radiation proce:;ses and evaluation of heat

@

exchange by differe.nt methods.

ME 6145 Advanced Convection Heat Transfer 3 creditsConvection fundamentals. Forced convection, natural convection, trans.port equations, differential similarity, boundary layer and pipe flowsolutions. Transport in rarefied gases. Condensation and evaporation,convective mass transfer.

ME 6147 Design of Heat Transfer Equipment 3 creditsForced convection, natural convection, heat exchange theories; App-lication to the design of heat transfer devices. Different typ3S of heatexchangers, analysis and design .

.•..

ME 6161 Thermal Environmental Engineering 3 creditsRefrigerants; Mechanical vapour compression refrigeration systems anddetails of thei r components; Absorption refrigeration system and cycleanalysis; Miscell aneous refrigeration processes; Cryogenics; Refrigera-tion applications with special reference to food preservation; Psychro-metry; Direct contact transfer processes between moist all' end water in-cluding evaporative cooling; Heating and~cooling of moist air by extendedsurfaces; Condensation. of vapour within walls; Heat transmission in buil-dings and solar radiation effects upon structures; Air conditioning appli.cations: Air conveying and distribution systems.

ME 6149 Heat Transfer SeminarDiscussion of current topics in heatmarization of major recent works.

Calendar

3 credits-transfer, consideration and sum.

367

1,

: I

\

• .:.t~.-'

ME 6171 Advanced Dynamics 3 creditsLagrange's equations; Small oscillation; Dynamics of rigid bodies inthree dimensions; Gyroscopic motion; Introduction to Hamiltonianmechanics.

M'E 6173 Mechanical Vibrations 3 creditsSingle degree of freedom system Coupled two mass systems. Energy

" methods. Forced vibrations. Different types of damping. Polar plots.Vibration isolation. Effects of coupled modes. M;Jltidegree of freedomsystems. Shock loading. Normal modes of. continuous systems.

ME 6175 Applied Elasticity 3 creditsThree dimensional stress system : Governing equations. Assumptions toreduce three dimensional to two dimensional stress system; Stressfunctions; Stress concentrations; St. Venant's principle'. Concentrated and

fj..line loads. Superposition. Composite bodies. Energy methods for solution.Principle of stationary potential energy. The reciprocal theorems of "-Maxwell and Betti.

ME 6177 TheoryClassical theory oftheory of shells;cylindrical shells.

of Plates and Shells 3 cred itsplates: Large deflection theory of plates; MembraneBending theory of shells applied to shells of and

rI

ME 6179 Elastic Stability of Structures 3 creditsGeneral stabili.ty theory: Discrete and continuous systems. Introductionto calculus of variations. Approximate methods. Buckling of columnframes, flexure elements, plates and shells.

ME 6181 Experimental Stress Analysis 3 creditsResistance strain gauges and associated circuits: Strain gauge rosettes.Semiconductor strain gauges. Other electrical, mechanical, pneumatic' andoptical strain measuring devjces. Recordi ng of dynamic strain measure-ments. Stress probing. Residual stress. Principles of photoelasticity.

'Isoclinic and isochromatic fringes. Compensation techniques. Stress freezingObligue incidence and scattered light methods, Photoelastic coating tech-niques. Brittle I'acquer techniclue. Analysis of experimental results.

ME 6183 Finite Element Methods 3 creditsA review of variational methods and energy theorems. The displacementmethod. The design of elements for plane strass and plane strain. Threedimensional and axisymmetic elements. Plates and shell s. Vibrat ing elements.The development of a finite element program.

!I

268 SUET

•(

.1,

j,

),f

I

I.

ME 6185 Advanced Numeric!il Analysis 3 credotsComputer programming; Components of a digital computer and their .func.

tions ; Computer programming in FORTRAN.Numerica I AnalVsis : Evaluations of determinants, matrix operations; Eigen-value and eigen-vectors; Solution of algebra ic and transcendental equations.Ordinary differential equations: .Initial va lue problems of linea r and non-linear system of equations; Finite-difference technique of solving ordinarydifferential equations; Multisegment method of solving unstable system ofequations. Partial differential equations, finite difference method of so Iv ingof both the linear and non-linear partial differential equations .

ME 6187 Computer and Programming 3 credits'.Schematic diagram and components of a computer. Peripheral units of acomputer. Modes o1:"storagein computers, com puter memory. Access time fordifferent data .stoJage system. Softwa re of. a computer: Executiv~,macros, library system, monitoring and editing of. a program. Batch pro-

. cessing, time sharing, paging. Computer languages.

ME 6201 Mecbanicat Behaviour of Engineering Materials 3 creditsDeformation, elastic behaviour. plastic behaviour, creep and creeprupfureAnelastic behaviour, fatigue fracture, brittle fracture, ductile .fracture .

.M E 6203 Structure and Properties of Engineering Materials 3 creditsAtomic forces, atomic bonding, diffusion, dislocation, motion of dislO-caton, kinetics of dislocation, mechanical behaviour of single crystal,mechanical behaviour of polycrystals: St rain hardening, alloy hardening,solution. hardening; Precipitation hardening, cracks, nucleation and

propagation; Plastic wave propagation.

ME 6205 Theory of Plasticity 3 creditsPhenomenological nature, stess analysis, strain analysis, yield criteria ofmetals, stress-strain reba tions, strain hardening characteristics, plasticityconditions, deformation equations, buckling, necking, some methods ofsolving forming problems, extrusions, drawing, slip-line solution.

ME 6207 Dislocation Theory 3 creditsConcept of dislocations.,. structures. nature and types of dislocations, stressfields and energy, tine ,tension, multiplica~ion, elastic interaction, super-dislocations, partial dislocation, stacking- fault; separation of partials,

recombination energy, ,ME 6221 Principles of Engineering Production I 3 creditsMetallurgical fundamentals of marerials and their properties; Effectivestress and strain; Yield conditions; Plastic, potential; .Shape of yieldsurfaee ; Mechanics of chip formation work; Three. dimensional machining

269Calendar

.~i

operations; Build-up ejge formation; Tool wear; Crater and wear land,tool wear geometry. mathematical derivat10n of crater and wear landgrowth; Tool life and machinability.

ME 6223 Principles of Engineering Production II 3 creditsTheory of metal forming operations; Surface finish; Unconvent!onalmachining operations; Mach ining economics; Variables, cr iteria and res-trictions for selecting economic conditions, economic lot size, multiple toolcost ana!ysis; Machine tool vibration.

ME 6225 Industrial Engineering Analysis 3 CreditsAnalysis and development of analytical techniques for the solution of pro-blems in Industrial Engineering viz, application of statistical methods touncertainty problems; Linear programming, Queueing theory and theirapplications to maintenance, inventories and other fields. Case study ofdifferent Industries. (

ME 6227 Industrial Management Planning 3 CreditsThe significance of industrial Production and Management; Problems ofmanagement in underdeveloped countries.; The aconomic environment;Capital financing and budgeting ; Investment decision making; Applicationof operations research; Planning•Development Problems: The strategy of . industrial development; Capitalintensity vs. labour intensity in industries; The making of feasibilitystudies.

ME 6229 Linear Programming 3 creditslinear Algebra related to linear programming; An overview of simplex

'.algorithm- Theoretical fundamenta Is; Dual ity; Dual simplex and postoptimality analysis; Transportation; PrimaI and dual algorithms, Revisedsimplex; Decomposition principle; Network flows; An introduction toMPSX programs.

ME 6235 Econometric Methods 3 cred itslinear normar regression model; Two variable model, Ieast square esti-mators, correlation co. efficient. Analysis of variance, extensions of twovariable linear m:>del; General linear model. least square estimators,significance test and confidence interval. Errors in variables; Autocorrel-ation; Miscellaneous single. equation problems: Heteroscadisticity,lagged variable, dummy variables.

Simultaneous equation problems: Systems, estimation method;, limitedinformation single equation two stage least square, full information maxi-mum likelihOOd, three stage least square, Monte Carlo studies.

!.,

'I, f"

f270 SUET

(1

!I

,IjI

-'f,

Department of Naval Architecture & Marine Engineering

UNDERGRADUATE COURSES

NAME 201 Strength of Materia!s2 hours per week 150 marksPART A

Introduction; Analysis of st.ress and strain.; Mechanical properties of mata~rials; Riveted and welded joints; Pressure vessels; Bending moment andshearing force ; Beam the'ory.PART BTorsion; Deflection of statically determinate beams; Theory of columnsCombined stresses: Strain energy and impact.

NAME 203 Flu idMechan ics2 hours per week 150' marks

PAR~ A / \Flu id properties; Static pressure of a fluid; Buoyancy of a fluid, Flow of afluid; Orifices and mouthpieces; Notches and weirs; Impact of jets; Fric-tion and flow through open channel.

PART BDimensional analysis; Dynamical similarity and model testing; Compressiblefluids; The aerofoil and its application; The boundary layer; Hydraulicmachines, reciprocating pumps and centrifugal pumps; Cavitation.

NAME 205 Welding Engineering for Ship Constructions2 hours per week 150 marksDevelopment of Ship welding; Methods and Principl e~ of cutting; Met-hods of welding, physics and me tallurgy of welding; Weldabilitv of steel;Standard welding symbols, Shielded metal arc welding; Gas shielded arcwelding; Electro-slag welding.

PART BResistance welding; Spot and stud welding, electron beam welding, laserwelding; Residual stress and distortion in welding, welding inspection andnon-destructive testing. of welds; Brittle fracture of ships and other weldedstructures, sound welding design for ship constru.ction.

NAME 207 Elements of Merchant Ships and Ship Calculation2 hours per week 150 marks

PART AIntroduction ; Kinds of ships, structure of ships, calculation of area, volumeand coefficients related to ship, centra of gravity, centre of buoyancy:

Calendar 271

, .Theones

singularities and Chauchy.Application of conformal

1 .

i

Displacement sheet; Wetted surface, stability of ships; MetacGntres andmetacentric diagrams; Centre of froatation, mom~nt of inertia.PART B

Metacentric height by experiment; Stability of wall-sided vessel, Free-surface effect on stability; Longitudinal metacentre and effect of loading;unloading and flooding ,on trim ; Hydrostatic curves; Statical stability atlarge- angles and dynamical stability; Launching calculations.

NAME 208 Elements of Ship Drawing Ses$ional3 hours per week 100 marksElem.entary ship drawings based on NAME 207

NAME 301 Strength of Materials II2 hours per week 200 marks

PART A f'

Bending moment and shearing force of continuous beams; combined strs-sses ; Unsymmetrical bending; Thick cylinders; Curved beams.

PART B

Torsion of thin walled sections; Bea!l1s on elastic foundationsof failure; Introduction to plate and shell; Stress concentration.

NAME 303 Hydrodynamics2 hours per week 200 marks

PART A-

Flow of an ideal fluid-equation of continuity; concepts of streamlines;Streaklines and pathlines; Two dimensiona' flow patterns, rational andirrational flow. Stream functions, velocity potential functions. Euler'sequation of motion; Bernou/l i's equation; veloeity and pressure distri-butions.Standard patterns of flow-uniform flow; concepts of source, sink and-doub-let. Graphical addition- of flow patterns, source and uniform flow, doubletand uniform flow, doublet, vortex and uniform flow.

PART BConformal transformation':-analyt ic functions,Riemann equations. The complex potential.transformation to some simple flow cases.Aerofoifs-:-circulation about a circular cylinder. Magnus effects. Joukowski'shypothesis-the theorem of Kutta and Joukowski. The lift on an aerofoil ina uniform stream.Flow of a real fluid-Boudary layer; 'Laminar and Turbulent flow. Boundarylaver separation; Navier-Stokes equations, exact solutions, approximate

.1

- I

272 SUET

,"J

l

jIjj

~.J

'I!I!

1"!•t

J.

l

;:1,,,

solutions for flo.NS at low a:1.:l at hlgh Reynolds number. Bernoulli'sequa-tion in real fluid flow.Tidal waves and surface waves.

NAM E 304 Hydrodynamics Sessionsl3 hours every alternate week . 50 mar ksExperiments based on NAM E 303

NAME 305 Details of Ship Construction2 hours per week 200 marks

PART ADevelopment of shio's structure; Classification Societies; Framing systems,Details of stuctural members and. fittings; Hull. materials, Pipi ng systemFRP and Ferro-Cemer>4 boat bu ilding.

PARt BDetailed process of ship construction; Network anal ysis ; Numerical control.systems used in shipbuilding ; Process contro I and quality cont rol in shipconstruct ion.

NAME 307 Ship Design3 hours per week 300 marks

PART AIntroduction. Ship types; Hull weight, cargo capacity, preliminarycalculations of principal dimensions, freeboard and tonnage, the generalarrangement; Hydrostatic curves, the design of shi.p's lines. Introductionto computer progrmming. Schematic diagr:Jm and companents of a computer.Periphera I units of a computer. Modes of storage in computers; Computermemory. Acceess time for different data storage systems. Software of acomputer. Computer languages. Computer programmming in FORTRAN.

PART BTheweight equation in ship. design ; Effects of metacentric height due tosmall changes in dimensions; Ship specifications; Cost estimation; Crewand passenger accomodation, scantlings; Preliminary design considerati onsof fittings; Cargo-handling arrangements, mooring and towing arrange.•ments. Introduction to the application of electronic co.niputers in shipdesign. Numerical methods for calculating the area of. a ship section.-trape-zoidalrule, Simpson's rule, Tchebycheffrule, Romberg's rule etc.Progra"mming for hyd(ostatic calculations. Strength calculations. Computer methodsfor ship hull vibrations, stability and dynamics of ship motions. Powerestimation.

Calendar

j,',

NAME 308 Ship Dravving Sessional3 hours per week 100 marksShip drawings based on NAME. 307

NAME 311 Marine Engineering2 hours per week 200 marksPART A

Heat Transfer: Steady and u"nsteady state conduction Natural and forced ._convection; Radiation.

Power Generation: Boilers and fuels.; The steam engines, Steam turb'in es,Gas turbines, Nuclear power plants, Turbine and steam.engine auxiliaries;Heat balance -;Lubricat ing and fuel 0 iI systems.PART B

Jnternal Combustion Engines; Gasoline engines, Diselengines ; Horse power,Fuel consumpt iQll,. Weight- Powe, ,atio. Ai, sta'ti ng' system ; fuel 0 iI injee.tion system; CQoling water system; lUbricating oil system; Exahust piping;Materials for diesel engi ne3 ; Thurst bearings; Installations, Diesel engineauxiliaries; Muffler ; Waste~heat boilers; Superchargers, Oil coolers.

NAME 316 Shipyard Practice I Practical3 hours every alternate week 50 marksPractical work Concentrat.ed in 3 weeks

Ship construction: Mold loft, Gas cutting, welding, fabrication, sub-assembly, assembly. Field assembly, erection, launching, outfi tting, deliverytrial.

NAME 401 Strength of Ships2 hours per week 200 marksPART A

The forces acting upon a ship at sea; longitudinal b9nding; The buoyancyand the weight curves; the load Shearing force and bending moment curves;Approximations to maximum bending moment and maximum shearing force; "Dynamic effects, calculation of the section modulus; Experiments on long;-tudinal strel1gth of ships, deflection of ship hull girder, Submarine preSSurehull design.

PART B

Transverse st rength, Methods of analysis, Torsional problems, Strength ofplating~ Bulkheads, decks and tank.tops, Foundations; Grillages, Compo.site construction, Sup3rstructu reB,

274eUET

NAME 402 Strength of Ships Sessional3 hours every alternate week 50 marksSessional work based on NAM E 401

NAME 403 Resistance and Propulsion of Ships2 hours per week 200 rna rksPART A

. The resistance problem, Wave- making resistance, Wave ini:erference pheno-mena, Analysis of wave phenomena and wave-making resistance of somebodies with simple forms; Some approximation methods of determining theposition of humps and hollows, frictional resistance; The work of WilliamFroude; Power estimation.PART B

Effect of form and principal dimensions on wave-making and frictional resis-c.tance ; Resistance at restrictod water depth and width. I ntraduction to thetheory of propulsion, propeller types, design of screw propellers; The velo-city field behind the ship; Nominal and effective wake; Cavitation; Screwde,ign according to, the Circuf ation theory for a uniform wake; Screw seriesdiagrams calculated with the aid of the Circulation theory; Trial and servicepredictions.

NAME 404 Resistance and Propulsion of Ships Sessional3 hours every alternate week 50 marksSessional work based on NAME 403

NAME 407 Ship Design II2 hours per week 200 marks

,\PART A

Design of special ships like tug boats, tankers, fishing boats, fightingvesse Is.PART B

Design of special ships' like ferry boats, dredgers, river steamers. coasters;research vessel, training vess'eJ, container ship.

NAME 408 Ship Design II3 hours every alternate weekShip drawings based on NAME

Sessional50 marks

407\

NAME 409 Ship Vibrations and Ship Motion3 hours per week 300 marksPART A

Theory of Ship Motions

Hi.storical development of the study of ship motions. Fundamental conceptsCalendar-)

275

~iI,

i II

of rolling, pitching, yawing, swaying, surging and heaving motions; Motionsin quiet water without consideration of resistance forces.

Motion of a vessel in quiet water with resitance. linear theory of rollingand heaving in a regular seaway. The effect of irregularity of a sea uponrolling.

Theory of coupled pitching and heaving motions of a vessel in a seaway.The effect of added mass, course' and forward veiocity of the vesse! onShip motions.

Nonlineer theory of ship motions,. Active means of reducing rolling.Methods of measuring angles of roll. Experimental methods of studying shipmotions.

PART 8

Ship Vibrations ~

Introduction to ship vibration. Mathemat ical basis of natura I, forced anddamped vibrations. History of ship vibration problems. Hydrodynamic inertiacoefficients and added virtual weight. Calcul3tions of natural frequen-c ies of a ship's hu II. Measurement of ship vibration.

,.Comparison between observed and calculatad frequencies. Matrixcomputer' methods of vibration analysis. Empirical formulae forcalculating hull frequencies, Calculation of hull response to exciting forces.Propeller excited vibration; whirling of rotating shaft; static and dynamicbalance. Machinery excited vibration. Prevention and cure of ship vibration.Some case histories of ship hull vibrations.

NAME 411 Marine engineering II3 hours per week 300 marks

PART A

Outline of navigation and shipping laws, fire fighting equipment. Deckmachinery: Steering gears. Rudder, steam and electric windlasses, Chainand chain stoppers, Wildcats, Steam and electric winches, Capstans andgypsies, towing machines, Marine pumps, Marine refrigeration.PART B

Marine electricity: D. C. generators and motors, A. C. generators' and-motors. Transformers, Synchronous converter, Electric drives, Rectifiers,Switchboards, Electron tube and radio, Automatic contra', Marine radar,Wireless equipment.

Marine airconditioning: Control, twin duct and reheat aircondltioningsystems, Airconditioning with direct expansion refrigeration, Heating. andventilating systems, Air treatment in carg.Q spaces.

276aUET

277

NAME 400 Project and Thesis6 hours .per week 200 marksMajor fields of Project and Thesis are as folloWs. :

(a) Ship design

(b) Ship. construction

(e) Strength of ship(d) Materia' Testing and Fracture Problems

(e) Ship Motion(f) Resistance and propulsion of Ships

(g) Marine Engines an d Ship Vibration

-(h) Marine Transportation System

(0 Marine Engineering

ca,lendar

PART BMarine Structures: Marine ports, BreaKwaters, Wharves, Piers, BulKhe-ads,Dolphins, Moorings, 011 drilling rigs and other offshore marine

structures; Nagivational aids.

;NAME 416 Shipyard Practice Sessional'3 hours every alternate week 50 marks• Practical work Concentrated in 3 weeksShip De3ign : Basic design. Estimation, Hull design, Piping and equipment

design. Shell expansion, Detailed construction design,

PART AShipyard Facilities: layout of a shipyard, Mold loft floor, Material stOCK.Fabrication and assembly shop, Field assembly; Building berth and building, !docK ; Fitting shop and quay facilities; Repairing facllitios. Ship Ropairing :Causes of wear and damage of a ship; determination of wear and defects ofparts; ,Repair of ship's hull ; Repair of ship's boiler ; Repair of main engineand auxiliary machillery : Repa ir of shapting and Propeller; Repeir of ship'.

electrical installations.

NAM E 415 Shipyard Facilities, Ship Rep" iring and Mari "e

Structures2 hOUfS pet week 200 marks

NAME 412 Marine Engineering sessional

3 h,ours every alternate. week 50 marksExperiments based on NAME 311 and NAME 411

Itt _ .

I

\I

.-L:

t

\iiiI

IIII

iI!1,

i ~. _:.--:r-: i III. . ! I I I I

I 1 ii' ; II I "\ II.: ; : i ! t I;----:_---;--~-_:--r i I ! I, : ! \' I I '; . ; , , . i j i II L---i-.- ........J-..:.--:---i--r--l'I . I ; I I I, I I l I II l' . IIi -:-! : t I . \! ; \ i : ' I l' \ I I! . ! ; 'I ! I--.,-----.-.---.J....--r- . I. I ) r I

,I . i • i1 ' ' , ' I ' ' ,

, -r--~-" -L-..I_J~ Ii rt 1.1

~ \ ;

\ 1--,;'" ! +-1.- I

\ I : _ ;I

\,\ .. i i~ I i~l..h-t\l I -~. :!l I'I . I I ! -+-III I .1 \ Ii, -1 I

w~!i'I' i I ! i I. \ I I I I

'i i .1, I I; :! f

\ I I I I i

I

T!L.lC 11~"'1111«:D (IT. 1.-' ...,.rK v-tli"""'. •

-•.•...

III

III .,

J •

17.11.56 .

16.6.64

List of Authorities

Authorities

55% (Subject to changeby A/C)

Deleted

Marine Engineering II

EEE 413

Hum 207

WRE 312

. Head of the deptt.

if after ..• Part B

'16.6.54

18.11.56

List of Committee

eight Statutory Committee

55%.

Hum 203

\/VHE 321

Dean of th,~ faculty

EEE 412

Maring Engineering II

. 1.;'

I Fage LinG

tf. e 5,12 7(

!, 21 17. "

I

21 18,.

~j~. 23 201

16-21

15

4

18

2422I.

II,I