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DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page2
Vision[(To be drafted individually at institution level)]
TobeapremierdepartmentforeducationinMechanicalEngineeringinKarnatakaState,moulding
studentsintoprofessionaldiplomatswithethicalvaluesaspertheneedofstakeholders
Mission
(To be drafted individually at institution level)
(ThemissionoftheMechanicalEngineeringProgramistobenefitthesocietyatlargeby)
M1: To provide teaching/learning facilities in Mechanical Engineering for easy adaptation toindustryandhigherlearning
M2: Provide a platform for self-learning to meet the challenges of changing technology andinculcateEthicalvalues,teamspiritandleadershipqualitiestosucceedinprofessionalcareer.
M3: Comprehend the societal needs and environmental concerns in the field of Mechanicalengineering
ProgrammeEducationalObjectives(PEOs)
(To be drafted individually at institution level) (After2/3yearsofgraduation,thestudentswillhavetheabilityto)
1. Analyze,designandsolveproblemsrelatedtoMechanicalEngineeringandadapttochangesintechnologybyself-learning.
2. Workeffectivelyasindividualsandinateam,exhibitingleadershipqualitiestomeetthegoalsofaprojectortheorganization.
3. Workwithprofessionalismandconcernforenvironmenttomeetthesocietalneeds.4. Engageinhigherlearningleadingtodegreesorcertifications.
PROGRAMOUTCOMES(POs)
1. BasicandDisciplinespecificknowledge:Applyknowledgeofbasicmathematics,scienceandengineeringfundamentalsandengineeringspecializationtosolvetheengineeringproblems.
2. Problem analysis: Identify and analyze well-defined engineering problems using codifiedstandardmethods.
3. Design/developmentofsolutions:Designsolutionsforwell-definedtechnicalproblemsandassistwiththedesignofsystemscomponentsorprocessestomeetspecifiedneeds.
4. Engineering Tools, Experimentation and Testing: Apply modern engineering tools andappropriatetechniquetoconductstandardtestsandmeasurements.
5. Engineering practices for society, sustainability and environment: Apply appropriatetechnologyincontextofsociety,sustainability,environmentandethicalpractices.
6. ProjectManagement:Useengineeringmanagementprinciplesindividually,asateammemberor a leader tomanage projects and effectively communicate about well-defined engineering
activities.
7. Life-longlearning:Abilitytoanalyzeindividualneedsandengageinupdatinginthecontextoftechnologicalchanges.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page3
CONSISTENCYMATRIXOFPEO’SWITHMISSION
PEOstatements
Adaptto
Industry
Higher
Learning
Team
Spirit
Self-Learning
Leadership
Qualities
SocietalNeeds
Environm
ental
Concern
1
Analyze,designandsolveproblemsrelatedto
MechanicalEngineeringandadapttochanges
intechnologybyself-learning3 3 3
2
Workeffectivelyasindividualsandinateam,
exhibiting leadership qualities to meet the
goalsofaprojectortheorganization
3 3
3Work with professionalism and concern for
environmenttomeetthesocietalneeds 3
3
4Engageinhigherlearningleadingtodegrees
orcertifications3 3
PROGRAMSPECIFICOUTCOMES(PSOs)
Programshallspecify2-4ProgramSpecificOutcomes(Tobedraftedindividuallyatinstitutionlevel)
1. Apply concepts in core areas of Mechanical engineering – Hydraulics and fluid power,
managementSystems,MechanicsofmachinesandthermalEngineeringtosolvetechnicalissues.
2. DevelopandoptimizesolutionsinComputeraidedmanufacturingplatforms.
1.0GENERALPROGRAMMESTRUCTUREANDCREDITDISTRIBUTION
1. DefinitionofCredit: Credit is a kindofweightage given to the contacthours to teach the
prescribedsyllabus,whichisinamodularform.Forcourses,onecreditisallocatedtoonecontact
hourfortheory/tutorialperweekandonecreditisallocatedto02contacthoursforpractical.
2. Choice-Based Credit System (CBCS):CBCS is a flexible system of learning that permits
studentstolearnattheirownpace,chooseelectivesfromawiderangeofelectivecoursesand
adoptaninter-disciplinaryapproachinlearningandmakebestuseoftheexpertiseofavailable
faculty.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page4
3. RangeofCredits1Hr.Lecture(L)perweek 1credit
1Hr.Practical(P)perweek 0.5credit
1Hr.Tutorial(T)perweek 1credit
4Hrs.Theory(T)perweek 4credit
3Hrs.Practical(P)perweek
[1Hr.Tutorial+2Hrs.Practical]
2credit
4. Programme:ProgrammemeansDiplomaProgrammethatisDiplomainMechanicalEngineering,whichisofthreeyearsduration.
2.0PROGRAMMESTRUCTURE
1. Course:ACourseisacomponent(apaper)ofaProgramme.Allthecoursesneednotcarrysame
weightage.ThecourseshoulddefineCourseobjectives.Acoursemaybedesignedtoinvolvelectures
/tutorials/laboratorywork/seminar/projectwork/Internships/seminaroracombinationof
these,tomeeteffectivelytheteachingandlearningneedsandthecreditsmaybeassignedsuitably.
2. CourseCode:Eachcourseshallhaveanalphanumericcode,whichincludeslasttwodigitsofyear
of introduction such as 20 subject code ME (ME for Mechanical engineering, CH for Chemical
Engineering etc.), then first two digits for example 12 (where 1 represents first semester and 2
represents thecoursenumber in incrementalorder)and the lastalphabet representTheory (T),
Practical/Internship/Project(P),Drawing(D),Programme/OpenElectives(A,B,C,E,F,G…).
3. ProgrammeCourses:EachProgrammewillconsistofCommunicationskillsandSocialSciences
(HS),EngineeringMathematics,StatisticsandAnalytics(BS),EngineeringSciences(ES),Professional
Core (PC), Professional Electives (PE),OpenElectives (OE), Employability Enhancement Courses
(EEC)andInternships.
1. Communication Skills and Social Sciences: Communication Skills and Social Science
coursesareincorporatedinthecurriculumtomeetthedesiredneedsofcommunicationand
lifeskillsamongststudents.
2. Engineering Mathematics, Statistics and Analytics: Common to all Engineering
Programmetodevelopreasoningandanalyticalskillsamongststudents.
3. Engineering Sciences: Engineering Science shall create awareness on different
specializationsofengineeringstudies.Thegoalofthesecoursesaretocreateengineersof
tomorrow,whopossesstheknowledgeofalldisciplinesandcanapplytheirinterdisciplinary
knowledgeineveryaspect.Itcouldbeanybranchofengineering-Civil,ComputerScience
andEngineering,Electrical,Mechanical,etc.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page5
4. ProfessionalCore:CoreCoursesdesignedintheprogrammewhicharemajorcoursesof
the discipline, required to attain desired outcomes and to ignite critical thinking skills
amongststudents.
5. ProfessionalElective:Generally,acoursecanbechosenfromapoolofcoursesandwhich
maybeveryspecificorspecializedoradvancedorsupportivetothedisciplineornurtures
thecandidate'sproficiency/skilliscalledProfessionalElectiveCourse.
6. OpenElectives:Anelectivecoursechosengenerallyfromotherdiscipline/subject,withan
intentiontoseekinterdisciplinaryexposureiscalledanopenelective.Whilechoosingthe
electives,studentsshallensurethattheydonotoptforthecourseswithsyllabuscontentsof
whicharesimilartothatoftheirdepartmentalcore/electivecourses.
7. Audit/Non-CoreCourses:Anaudit/Non-corecourseisoneinwhichthestudentattends
classes,doesthenecessaryassignments,andtakesexams.TheInstituteencouragesstudents
towardsextra learningbyauditing foradditionalnumberofcourses.Theresultsofaudit
coursesshallnotbeconsideredforprescribed“carryovercourses”limit,howeverstudents
needtopassauditcoursesforawardingthediploma.
8. EmployabilityEnhancementCourses:Itcontainsthefollowingcourses:
a. MiniProject:MiniProjectisalaboratory-orientedcoursewhichwillprovideaplatform
to students to enhance their practical knowledge and skills by development of small
systems/application.
b. Seminar:Seminarshouldbebasedonthrustareasinstateofarttechnologies.Students
should identify the topic of seminar and finalize in consultationwithGuide. Students
shouldunderstandthetopicandcompilethereportinstandardformatandpresentin
frontofPanelofExaminersrespectiveProgramme.
c. Major Project: Every student must do one major project in the Final year of their
program.Theminimumdurationof project is 6months. Students cando theirmajor
projectinIndustryorR&DLaborinhouseorcombinationofanytwo.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page6
3.0COURSECODEANDDEFINITION:Coursecode
DefinitionsTeachingDept.Code
NameoftheTeachingDepartment
TeachingDept.Code
NameoftheTeachingDepartment
L Lecture SC Science MIMechanicalEngineering
[Instrumentation]
T Tutorial CPCommercialPractice
/EnglishCR CeramicEngineering
P Practical MEMechanical
EngineeringEN
CivilEnvironmental
Engg.
HSHumanities&Social
SciencesCoursesEE
Electrical&
ElectronicsEngg.AN AeronauticalEngg.
BS BasicScienceCourses CE CivilEngineering MNMining&Mine
Surveying
ESEngineeringScience
CoursesEC
Electronics&Commn.
Engg.MM
ModernOffice
Management
PC ProgramCoreCourses CS CompScience&Engg. LILibraryandInformation
Science
PEProgramElective
CoursesIS InfoScience&Engg. FT
ApparelDesignand
FabricationTechnology
OE OpenElectiveCourses AT AutomobileEngg. CH ChemicalEngineering
AU AuditCourses MC Mechatronics PO PolymerTechnology
SI SummerInternship MT MetallurgicalEngg. PT PrintingTechnology
PR Project HPMechanical
Engineering[HPT]TX TextileTechnology
SE Seminar WS
Mechanical
Engineering
[Welding&Sheet
Metal]
EI
Electronic
Instrumentation&
ControlEngg.
CIEContinuousInternal
EvaluationCN Cinematography LT
Leather&Fashion
Technology
SEESemesterEnd
ExaminationSR
SoundRecording
&Engg.WH
WaterTechnology&
HealthScience
PHCivil(PublicHealth&
Environment)Engg.MY
MechanicalEngineering
[MachineTools]
TD Tool&DieMaking AR Architecture
ID InteriorDecoration EG English
4.0INDUCTIONPROGRAMME
TheEssenceandDetailsofInductionprogramcanalsobeunderstoodfromthe“DetailedGuideon
StudentInductionprogram’,asavailableonAICTEPortal,althoughthatisforDiplomastudentsof
Engineering&Technology.Suggestivescheduleforinductionprogramisgivenbelow
(Link:https://www.aicteindia.org/sites/default/files/Detailed%20Guide%20on%20Studen
t%20Induction%20program.pdf)
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page7
InductionProgramSchedule(Suggestiveonly)
(Inductionprogramforstudentstobeofferedrightatthestartofthefirstyear)
SLNO DAY TIME ACTIVITY VENUE
1 1
09.30-
12.30
Registration,FormationofMentor-menteegroups–Introduction
ofmentorswith-ingroup.
Classroomsof
respective
programs
01.30-
04.30
Screeningof Institutevideoclipsofvariousfunctionsheldand
Photosofvariousevents,InstitutionExcursion Seminarhall
2 2
09.30-
12.30
Prayer- Physical activities such as yoga; Presentation cum
Interactive Session with: Important Institution Functionaries
likePrincipal,HOD’setc.
Playground
andseminar
hall
01.30-
04.30
Visit to Central facilities such as Reading room,library,Sport
center, computer center, hostel, NSS/NCC cell, community
developmentcellfunctioninginpolytechnic
Tour
01.30-
04.30
LecturersessionsaboutimportanceofNSS/NCC/Youthredcross
activitiesandtheircontribution towardsnationalbuildingand
personalityandcharacterdevelopment
Seminarhall
4 4
09.30-
12.30PersonalitydevelopmenttalkonHumanvalues
Seminarhall
01.30-
04.30
Interaction with Alumni students of polytechnic of different
programs and interactionwith few alumina and sharing their
experiences
Seminarhall
5 5
09.30-
12.30
Introduction to Swatch Bharath Abhiyan-Importance of
Abhiyan-Cleandriveinaroundcollege
Campus
01.30-
04.30
Talent hunt-Music/Antyakshri/Instrument play/ Dance/Team
ActivityCollege
Auditorium
6 6
09.30-
12.30
TalenthuntActivity:Essay/Debate/BestoutofWaste/Pickand
speak,otherSeminarhall
01.30-
04.30
ScreeningofMovierelated:personalitydevelopment,character
building, motivational, Environmental concern, Public health,
ruralsanitation
College
Auditorium
7 7
09.30-
12.30
Exchange of views between students and faculty about their
Institute/program/carrieropportunitiesSeminarhall
01.30-
04.30Games/SportsActivity Sportsground
8 8
09.30-
12.30
Talk by training and placement cell: Carrier opportunities for
diploma students, placement activities in college; placement
process
Trainingand
placementcell
01.30-
04.30
Talents hunt Activity: (Street Play/Mime/Acting/Stand Up
Comedy/Danceetc.)Seminarhall
9 9
09.30-
12.30
Personality development talks by eminent speakers on -
Leadershipstyles/Howtohandlefailures/stressmanagementSeminarhall
01.30-
04.30
Importance of student union, student union activities, Student
insurance, how tomake student insuranceby Studentwelfare
officerofcollege
Seminarhall
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page8
10 10
09.30-
12.30
Awarenesson:Studentscholarship-introductiontoSSPportal–e-passportal-Authenticateddocuments,howtoapplyinportal:
TalkbyTaluk/Districtsocialwelfareofficer
Seminarhall
01.30-
04.30Localvisitstosurroundingplaces/Industry Tour
11 11
09.30-
12.30
Talk on Respective Program scheme of studies and detail ofcourses, Diploma examination pattern, Passing and eligibility
criteria, attendance requirements by respective program
coordinator
Department
Classrooms
01.30-
04.30Visittorespectiveprogramslab/workshopsofinstitution Tour
12 12
09.30-
12.30
Awarenesscamponhumanhealth,Communityhealth,Personal
hygiene-By Local Taluk medical officer/Community medical
officerSeminarhall
01.30-
04.30
Collection of student feedback on induction program-Make a
reportValedictoryoftwoweeksInductionprogrambycollecting
studentfeedback
Seminarhall
InductionProgram(mandatory) Two-weekDurationInductionprogramforstudentstobe
offered right at the start of the first
year.
• Physicalactivity
• Creativearts
• Universalhumanvalues
• Literacy
• Proficiencymodules
• LecturesbyEminentPeople
• VisitstoLocalAreas
• FamiliarizationtoDept./Branch&Innovations
5.0MANDATORYVISITS/WORKSHOP/EXPERTLECTURES:
1. Itismandatorytoarrangeoneindustrialvisiteverysemesterforthestudentsofeachbranch.2. ItismandatorytoconductaOne-weekworkshopduringthewinterbreakafterfifthsemesteron
professional/industry/entrepreneurialorientation.
3. Itismandatorytoorganizeatleastoneexpertlecturepersemesterforeachbranchbyinvitingresourcepersonsfromdomainspecificindustry.
6.0EVALUATIONSCHEME:A.ForTheoryCourses:TheweightageofContinuousInternalEvaluation(CIE)is50%andforSemesterEndExam(SEE)is
50%.Thestudenthastoobtainminimumof40%marksindividuallybothinCIEandSEEtopass.
TheorySemesterEndExam(SEE)isconductedfor100marks(3Hoursduration). Basedonthis
gradingwillbeawarded
B.ForPracticalCourses:TheweightageofContinuousInternalEvaluation(CIE)is60%andforSemesterEndExam(SEE)is
40%.Thestudenthastoobtainminimumof40%marksindividuallybothCIEandSEEtopass.The
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page9
practicalSemesterEndExam(SEE)isconductedfor100marks(3Hoursdurationexams).Basedon
thisgradingwillbeawarded.
C.ForSummerInternship/Projects/Seminaretc.1. Evaluation is based on work done, quality of report, performance in viva-voce,
presentationetc.
Note:A. The Continuous Internal Evaluation (CIE) is based on the student’s performance in
InternalAssessmenttests,studentactivity,miniproject,quizzes,assignments,seminars,
viva-voceinpractical,labrecordetc.asspecifiedinrespectivecoursecurriculum.
B. MajorProject/MiniProject:Studentscando theirmajorproject in IndustryorR&D
Labor in house. Mini Project is a laboratory-oriented course which will provide a
platformtostudentstoenhancetheirpracticalknowledgeandskillsbydevelopmentof
smallsystems/application.
C. Personality and character development: It is mandatory for the students from 1s semestertoenrollinanyoneofthepersonalityandcharacterdevelopmentprogrammes
(NCC/NSS/YRC/Yoga/Technical Club) and undergo training for their Personality and
characterdevelopment.
• NationalCadetCorps(NCC).
• NationalServiceScheme(NSS)willhavesocialserviceactivitiesinand
aroundtheInstitution.
• YouthRedCross(YRC)willhaveactivitiesinandaroundtheinstitution.• Yoga• TechnicalClubs.
D. Internship:Aminimumof10credits(400Hours)ofInternship/Entrepreneurialactivities/Projectwork/SeminarandInter/ Intra InstitutionalTrainingmaybecountedtoward
three-yeardiplomaprogramme.
E. MappingofMarks toGrades: Each course (Theory/Practical) is to be assigned 100marks,irrespectiveofthenumberofcredits,andthemappingofmarkstogradesmaybe
doneasperthefollowingtable:
RangeofMarks Level AssignedGrade GradePoint
91-100 Outstanding A+ 10
81-90 Excellent A 09
71-80 VeryGood B+ 08
61-70 Good B 07
51-60 AboveAverage C+ 06
45-50 Average C 05
40-44 Satisfactory D 04
<40 Fail F 00
Failduetoshortageofattendanceandtherefore,to
repeatthecourse/semester.F* 00
FailinContinuousinternalEvaluation(CIE). F** 00
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page10
Note:ThoseCandidateswhohavenotobtainedrequisiteminimumpassmarksinCIEarenoteligibleto
takeupSEEinthatcourseuntiltheygetrequisiteminimumpassmarksintheCIE.Theymayre-register
fortheCIEinthesubsequentregularsemestersbypayingprescribedexaminationfee.
SGPAandCGPACalculations
SemesterGradePointAverage(SGPA)=
∑[(CourseCreditsearned)X(GradePoints)]forallthe
coursesinthatsemester∑[TotalCoursecreditsapplied]forallthecoursesinthat
semester
CumulativeGradePointAverage(CGPA)=
∑[(CourseCreditsearned)X(GradePoints)forallcourses,
excludingthosewithF*/F**gradesuntilthatsemester
∑[TotalCourseCreditsearned]forallCoursesexcluding
thosewithF*/F**gradesuntilthatsemester
Note:TheSGPAandCGPAshallberoundedoffto2decimalpointsandreportedinthesemesterDiploma
marks/gradecard.
A. SGPAandCGPACalculations:Anillustrativeexampleforoneacademicyear
Semester
CourseCode
CreditsApplied(CA)
ResultGrade
GradePoints(GP)
CreditsEarned(CE)
Creditpoints(CP=CExGP)
SGPA,CGPA
I Course1 4 B 7 4 4x7=28
SGPA=CP/CA
=110/22
=5.00
I Course2 4 F 0 0 0x0=00
I Course3 4 Absent(F) 0 0 0x0=00
I Course4 4 A 9 4 4x9=36
I Course5 2 A+ 10 2 2x10=20
I Course6 2 D 4 2 2x4=08
I Course7 2 A 9 2 2x9=18
Total 22 14 110 SGPA=5.00Note:In1s semestergrade/markscardonlySGPAisreported.From2 dsemesteronwardsbothSGPA&
CGPAwillbereportedinthegrade/markscard.
Semester
CourseCode
CreditsApplied(CA)
ResultGrade
GradePoints(GP)
CreditsEarned(CE)
Creditpoints(CP=CExGP)
SGPA,CGPA
II Course1 4 B 7 4 4x7=28 SGPA=CP/CA
=100/19
=5.26
II Course2 4 A 9 4 4x9=36
II Course3 3 D 4 3 3x4=12
II Course4 3 Absent(F) 0 0 0x0=00
II Course5 2 A+ 10 2 2x10=20 CGPA
=CP/CE
=(110+136)/
(14+22)
=246/36
=6.83
II Course6 1 D 4 1 1x4=04
II Course7 2 F 0 0 0x0=00
19 14 100
ISemesterBacklogcourses
I Course2 4 C 5 4 4x5=20
I Course3 4 D 4 4 4x4=16
Total 27 22 136
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page11
• Total credits of the semester excluding the credits of the courses under F/F*/F** grade are
consideredforthecalculationofCGPAofthetwoconsecutivesemestersunderconsideration.
B. CGPACalculationoftheentireprogramme:AnIllustrativeExample.Semester I II III IV V VI Total
CreditsoftheSemester 22 19 24 24 24 24 137
∑CP 110 136 184 155 191 188 964
CGPA=
[110+136+184+155+191+18]=
964
=7.04
22+19+22+24+24+24 137
P=PercentageConversion=(CGPA-0.75)X10
ClassDeclaration:
AftertheconversionoffinalCGPAintopercentageofmarks(P),agraduatingstudentisdeclaredto
havepassedin:
(i)FirstClasswithDistinction(FCD)ifP≥70%
(ii)FirstClass(FC)ifP≥60%but<70%and
(iii)SecondClass(SC)ifP<60%.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page12
SCHEME OF STUDIES DIPLOMA IN MECHANICAL
ENGINEERING (C-20)
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page15
GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20SC01T Semester I/II
CourseTitle ENGINEERINGMATHEMATICS CourseGroup Core
No.ofCredits 4 TypeofCourse Lecture
CourseCategory Theory TotalContactHours4HrsPerWeek
52HrsPerSemester
Prerequisites 10 LevelMathematics TeachingScheme (L:T:P)=4:0:0
CIEMarks 50 SEEMarks 50
RATIONALE
EngineeringMathematics specification provides studentswith access to importantmathematicalideastodevelopthemathematicalknowledgeandskillsthattheywilldrawonintheirpersonalandwork lives. The course enable students to develop mathematical conceptualization, inquiry,reasoning, and communication skills and the ability to use mathematics to formulate and solveproblems in everyday life, as well as in mathematical contexts. At this level, the mathematicscurriculumfurther integratesthethreecontentareastaught inthehighergrades intothreemainlearningareas:Algebra;MeasurementofanglesandTrigonometryandCalculus. 1.COURSESKILLSET
Studentwillbeableto:1. Solve system of linear equations arise in different engineering fields 2. Incorporate the knowledge of calculus to support their concurrent and subsequent
engineering studies 3. Adept at solving quantitative problems 4. Ability to understand both concrete and abstract problems 5. Proficient in communicating mathematical ideas 6. Detail-oriented
2.COURSEOUTCOMES
Attheendofthecourse,studentwillbeableto
CO1Determine the inverse of a square matrix using matrix algebra. Apply the concepts of matrices and determinants to solve system of linear equations and find eigen values associated with the square matrix.
CO2 Find the equation of straight line in different forms. Determine the parallelism and perpendicularity of lines.
CO3 Calculate trigonometric ratios of allied angles and compound angles. Transform sum or difference of trigonometric ratios into product and vice versa.
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page16
CO4 Differentiate various continuous functions and apply the concept in real life situations.
CO5 Integrate various continuous functions and apply the concept in evaluating the area and volume through definite integrals.
3.SUGGESTEDSPECIFICATIONTABLEWITHHOURS&MARKS
UNITNO UNITTITLE TEACHING
HOURS
DISTRIBUTION(THEORY)R
LEVELU
LEVELA
LEVEL TOTAL
1 MatricesandDeterminants 10 8 20 12 402 Straightlines 10 8 20 12 403 Trigonometry 10 8 20 12 40
4DifferentialCalculusandapplications 11 8 20 12 40
5IntegralCalculusandapplications 11 8 20 12 40
Total 52 40 100 60 200
Legends: R = Remember; U = Understand; A = Apply and above levels (Bloom’s revisedtaxonomy)
4.DETAILSOFCOURSECONTENT
The following topics/subtopics is to be taught and assessed in order to develop Unit Skill sets forachievingCOtoattainidentifiedskillsets.
UNITNO
Unitskillset(Incognitivedomain) Topics/Subtopics Hours
L-T-P
UNIT-1
MATRICESAN
DDETERMINAN
TS
Ø Use algebraic skills which are essential for the study of systems of linear equations, matrix algebra and eigen values
1.1 Matrix and types 1.2 Algebra of Matrices (addition,
subtraction, scalar multiplication and multiplication)
1.3 Evaluation of determinants of a square matrix of order 2 and 3. Singular matrices
1.4 Cramer’s rule for solving system of linear equations involving 2 and 3 variables
1.5 Adjoint and Inverse of the non-singular matrices of order 2 and 3
1.6 Characteristic equation and Eigen values of a square matrix of order 2
10-0-0
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page17
UNIT-2
STRAIGHTLINES
Ø Able to find the equation of a straight line in different forms
Ø Determine whether the lines are parallel or perpendicular
2.1 Slope of a straight line 2.2 Intercepts of a straight line 2.3 Intercept form of a straight line 2.4 Slope-intercept form of a straight line 2.5 Slope-point form of a straight line 2.6 Two-point form of a straight line 2.7 General form of a straight line 2.8 Angle between two lines and conditions
for lines to be parallel and perpendicular 2.9 Equation of a straight line parallel to the
given line 2.10 Equation of a straight line perpendicular
to the given line
10-0-0
UNIT-3
TRIGONOMETRY Ø Use basic trigonometric
skills in finding the trigonometric ratios of allied and compound angles
Ø Able to find all the measurable dimensions of a triangle
3.1 Concept of angles, their measurement, Radian measure and related conversions.
3.2 Signs of trigonometric ratios in different quadrants (ASTC rule)
3.3 Trigonometric ratios of allied angles (definition and the table of trigonometric ratios of standard
allied angles say 900±Ɵ, 1800±Ɵ, 2700±Ɵ and 3600±Ɵ) 3.4 Trigonometric ratios of compound
angles (without proof) 3.5 Trigonometric ratios of multiple angles 3.6 Transformation formulae
10-0-0
UNIT-4
DIFFERENTIALCALCULUS
ANDAPPLICATIONS
Ø Able to differentiate algebraic, exponential, trigonometric, logarithmic and composite functions
Ø Able to find higher order derivatives
Ø Understand and work with derivatives as rates of change in mathematical models
Ø Find local maxima and minima of a function
4.1 Derivatives of continuous functions in an interval (List of formulae)
4.2 Rules of differentiation 4.3 Successive differentiation (up to second
order) 4.4 Applications of differentiation
11-0-0
UNIT-5
INTEGRALCALCULUSAN
D
APPLICATIONS
Ø Understand the basic rules of integration and Evaluate integrals with basic integrands.
Ø Identify the methods to evaluate integrands
Ø Apply the skills to evaluate integrals representing areas and volumes
5.1 List of standard integrals and Basic rules of integration
5.2 Evaluation of integrals of simple function and their combination
5.3 Methods of integration 5.4 Concept of definite integrals 5.5 Applications of definite integrals
11-0-0
DiplomainMechanicalEngineering 2020-21C20
DepartmentofCollegiate&TechnicalEducationBengaluru-560001 Page18
5.MAPPINGOFCOWITHPO
CO CourseOutcomePO
MappedUNITLinked
CLR/U/A
TheoryinHrs
TOTAL
CO1
Determine the inverse of a square matrix using matrix algebra. Apply the concepts of matrices and determinants to solve system of linear equations and find eigen values associated with the square matrix.
1, 7 1 R/U/A 10 40
CO2Find the equation of straight line in different forms. Determine the parallelism and perpendicularity of lines.
1, 7 2 R/U/A 10 40
CO3
Calculate trigonometric ratios of allied angles and compound angles. Transform sum (difference) of trigonometric ratios into product and vice versa.
1, 7 3 R/U/A 10 40
CO4Differentiate various continuous functions and apply the concept in real life situations.
1, 3, 7 4 R/U/A 11 40
CO5Integrate various continuous functions and apply the concept in evaluating the area and volume through definite integrals.
1, 3, 7 5 R/U/A 11 40
52 200
Course CO’s ProgrammeOutcomes(PO’s)1 2 3 4 5 6 7
ENGINEERINGMATHEMATICS
CO1 3 1 0 0 0 0 3CO2 3 1 0 0 0 0 3CO3 3 1 0 0 0 0 3CO4 3 1 3 0 0 0 3CO5 3 1 3 0 0 0 3
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level0-NotMapped
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7.INSTRUCTIONALSTRATEGY
ThesearesampleStrategies,whichteachercanusetoacceleratetheattainmentofthevariouscourseoutcomes1. Explicitinstructionwillbeprovidedininterventionclassesorbyusingdifferentdifferentiation
strategiesinthemainclassroom.2. Lecturermethod(L)doesnotmeanonlytraditionallecturemethod,butdifferenttypeofteaching
methodandmediathatareemployedtodeveloptheoutcomes.3. Observingthewaytheirmoreproficientpeersusepriorknowledgetosolvecurrentchallenges
andpersevere inproblem solvingwill help struggling students to improve their approach toengagingwithrichcontextualproblems.
4. Tenminutesadayinhomeroom,attheendofclass,orasastationinaseriesofmathactivitieswillhelpstudentsbuildspeedandconfidence.
5. Topicswillbeintroducedinamultiplerepresentation.6. Theteacherisabletoshowdifferentwaystosolvethesameproblemandencouragethestudents
tocomeupwiththeirowncreativewaystosolvethem.7. In a perfectworld, teacherwould always be able to demonstrate how every concept can be
appliedtotherealworld-andwhenthat'spossible,ithelpsimprovethestudents'understanding.Whenaconceptcannotbeapplied inthatmanner,wecanstillsharehowitmightbeappliedwithinmathematics.
8.SUGGESTEDLEARNINGRESOURCES:
Sl.No. Author TitleofBooks Publication/Year
1 B.S.GrewalHigherEngineeringMathematics
KhannaPublishers,NewDelhi,40thEdition,2007
2 G.B.Thomas,R.L.Finney
CalculusandAnalyticGeometry
AddisonWesley,9thEdition,1995
3 S.S.Sabharwal,SunitaJain,EagleParkashan
AppliedMathematics,Vol.I&II
Jalandhar.
4 ComprehensiveMathematics
ComprehensiveMathematicsVol.I&II
LaxmiPublications,Delhi
5 ReenaGarg&ChandrikaPrasad
AdvancedEngineeringMathematics
KhannaPublishingHouse,NewDelhi
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9.COURSEASSESSMENTANDEVALUATIONCHART
Sl.No. Assessment Duration Maxmarks Conversion
1CIEAssessment1(WrittenTest-1)Attheendof3 dweek
80minutes 30 Averageofthreewrittentests
30
2CIEAssessment2(WrittenTest-2)Attheendof7 week
80minutes 30
3CIEAssessment3(WrittenTest-3)Attheendof13 week
80minutes 30
4CIEAssessment4(MCQ/Quiz)Attheendof5 week
60minutes 20
Averageofthree
205
CIEAssessment5(OpenbookTest)Attheendof9 week
60minutes 20
6
CIEAssessment6(Studentactivity/Assignment)Attheendof11 week
60minutes 20
TotalContinuousInternalEvaluation(CIE)Assessment 50
8SemesterEndExamination(SEE)Assessment(WrittenTest)
3Hours 100 50
TotalMarks 100Note:
1. SEE (Semester End Examination) is conducted for 100 Marks theory courses for a time
durationof3Hours.
2. Three CIE (written test), each of 30 marks for a time duration of 80 minutes shall be
conducted.Also, threeCIE (MCQorQuiz/Openbook test/student activity or assignment)
eachof20marksforthetimedurationof60minutesshallbeconducted.Anyfractionatany
stageduringevaluationwillberoundedofftothenexthigherdigit
3. Assessmentofassignmentandstudentactivityisevaluatedthroughappropriaterubricsby
therespectivecoursecoordinator.Thesecuredmarkineachcaseisroundedofftothenext
higherdigit.
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10DETAILEDCOURSECONTENT
UNITNOANDNAME
DETAILEDCOURSECONTENT CO PO CONTACTHRS TOTAL
1MATRICESAN
DDETERMINAN
TS
Definitionandtypesofmatrices 1 1,7 1
10
AlgebraofMatrices(addition,subtractionandscalarmultiplication)problems
1 1,7 1
MultiplicationofMatrices(problems) 1 1,7 1Evaluationof2x2,3x3determinantsandSingularmatricesandproblemsinfindingunknownvariable
1 1,7 1
Cramer’sruletosolvesystemoflinearequationwith2and3variables
1 1,7 1
Cramer’sruletosolvesystemoflinearequationwith2and3variables.problems
1 1,7 1
Minors,Cofactorsofelementsofsquarematricesoforder2and3 1 1,7 1
Adjointofasquarematrix(2x2and3x3),Inverseofanonsingularsquarematrix
1 1,7 1
Adjointofasquarematrix(2x2and3x3),Inverseofanonsingularsquarematrixandproblems
1 1,7 1
Characteristicequationandeigenvaluesofa2x2matirxandproblems
1 1,7 1
2STRA
IGHTLINES
Slopeofthestraightline(providedwithinclinationandtwopointsonthelineaswell)andproblems
2 1,7 1
10
Interceptsofastraightlineandproblems 2 1,7 1
Interceptformofastraightlineandproblems 2 1,7 1Slope-interceptformofastraightlineandproblems 2 1,7 1Slope-pointformofthestraightlineandproblems 2 1,7 1Two-pointformofastraightlineandproblems 2 1,7 1Generalformofastraightline.problemsonfindingslopeandintercepts.
2 1,7 1
Anglebetweentwostraightlinesandconditionsforthelinestobeparallelandperpendicularandproblems
2 1,7 1
Equationofalineparelleltothegivenlineandproblems 2 1,7 1
Equationofalineperpendiculartothegivenline.problems
2 1,7 1
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3TRIGONOMETRY
Conceptofanglesandtheirmeasurement.Radianmeasuresandrelatedconversions(degreetoradianandvice-versa)andproblems
3 1,7 1
10
Signsoftrigonometricratiosindifferentquadrants(ASTCrule)
3 1,7 1
Trigonometricratiosofalliedangles(definitionandthetableoftrigonometricratiosofstandardalliedanglessay900±Ɵ,1800±Ɵ,2700±Ɵand3600±Ɵ)
3 1,7 1
Problemsonalliedangles.(provingidentities) 3 1,7 1Problemsonalliedangles.(Findingvaluesofxinanidentity)
3 1,7 1
Trigonometricratiosofcompoundangles(withoutproof)
3 1,7 1
Trigonometricratiosofmultipleangles(sin2A,cos2A,tan2A,sin3A,cos3Aandtan3A) 3 1,7 1
Problemsonmultipleanglessin2A,cos2A,tan2A,sin3A,cos3Aandtan3A 3 1,7 1
Transformationformulae(withoutproof)assumtoproduct.(Simpleproblems)
3 1,7 1
Transformationformulae(withoutproof)asproducttosum.(Simpleproblems)
3 1,7 1
4
DIFFERENTIALCALCULUSAN
D
APPLICATIONS
Definitionofaderivativeofafunction.Listingthederivativesofstandardfunctions.(Algebraic,trigonometric,exponential,logarithmicandinversetrigonometricfunctions)
4 1,3,7 1
11
Additionandsubtractionruleofdifferentiationandproblems
4 1,3,7 1
Productruleandquotientruleofdifferentiationandproblems
4 1,3,7 1
Productruleandquotientruleofdifferentiationandproblems
4 1,3,7 1
Compositefunctionsandtheirderivatives.(CHAINRULE)
4 1,3,7 1
Compositefunctionsandtheirderivatives.(CHAINRULE).Problems 4 1,3,7 1
Successivedifferentiationuptosecondorder 4 1,3,7 1Slopeofthetangentandnormaltothegivencurveandtheirequationsandproblems
4 1,3,7 1
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Ratemeasure:velocityandaccelerationatapointoftimeandproblems
4 1,3,7 1
LocalMaximaandMinimaofafunction 4 1,3,7 1LocalMaximaandMinimaofafunction.Problems 4 1,3,7 1
5INTEGRALCALCULUSAN
DAPPLICATIONS Definitionofanindefiniteintegral.Listingthe
Integralsofstandardfunctions.(Algebraic,trigonometric,exponential,logarithmicandinversetrigonometricfunctions)
5 1,3,7 1
11
RulesofIntegration.Evaluationofintegralswithsimpleintegrandsandtheircombinations
5 1,3,7 1
RulesofIntegration.Evaluationofintegralswithsimpleintegrandsandtheircombinations.Problems
5 1,3,7 1
Evaluationofintegralswithsimpleintegrandsandtheircombinations.Problems
5 1,3,7 1
EvaluationofintegralsbySubstitutionmethod 5 1,3,7 1EvaluationofintegralsbyIntegrationbyparts 5 1,3,7 1EvaluationofintegralsbyIntegrationbyparts.Problems
5 1,3,7 1
Definitionofdefiniteintegralsandtheirevaluation 5 1,3,7 1EvaluationofDefiniteintegrals.Problems 5 1,3,7 1
Areaenclosedbythecurvesbyintegralmethod 5 1,3,7 1
Volumegeneratedbythecurverotatedaboutanaxisbyintegralmethod 5 1,3,7 1
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First Semester Examination, Model Question Paper – 2020
Engineering Mathematics Duration: 3Hours] Subject Code: 20SC01T [ Max. Marks:100 Instruction: Answer one full question from each section. One full question carries 20 marks.
SECTION – 1
1 a If the matrix is singular then find . 4
b Find the A2 for the matrix . 5
c Solve and by using determinant method. 5
d Find the inverse ofthe matrix . 6
2 a If and then find ( )T. 4
b Verify whether AB=BA for the matrices and
.
5
c Find the Adjoint of the matrix . 5
d Find the charcteristic equation and eigen values for the matrix . 6
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SECTION – 2
3 a
If the straight line is passing through the points (1, 2) and (3, 5) then find the slope of the line.
4
b
Write the standard intercept form of the straight line and hence find the
equation of the straight line whose x and y intercepts are 2 and 3
respectively.
5
c
Write the standard slope-intercept form of a straight line. Find the equation
of the straight line passing through the point (3, 5) and slope 4 units. 5
d
Find the equation of the straight line parallel to the line passing through the
points (1, 3) and (4, 6). 6
4 a
i) If a line inclined at with x-axis find its slope. ii) Write
the x and y intercept of the line 2x+3y=10. 2+2
b
Find the equation of the straight line whose angle of inclination is 450 and
passingthrough the origin. 5
c
Find the equation of the straight line perpendicular to the line 2x+6y=3 and
with the y intercept 2 units. 5
d Find the acute angle between the lines 7x-4y=0 and 3x-11y +5=0. 6
SECTION – 3
5 a Express in radian measure and 3π/2 in degree. 4 b Prove that . 5 c Show that . 5
45!
75!
2 2cos( ) cos( ) cos sinA B A B A B+ - = -
1cos22cos 2 -= qq
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d Find the value of without using
calculator. 6
6 a Find the value of . 4
b Simplify . 5
c Prove that . 5
d Prove that . 6
SECTION – 4
7 a Find the derivative of with respect to . 4 b Find dy/dx of . 5
c Find dy/dx of . 5
d If the repersents the displacement of the particle in motion at time x, then find the velocity of the particle at secs and acceleration at
secs.
6
8 a Find of . 4
b If then find . 5
c Find if at . 5
d
Find the equation of tangent and normal to the curve at the point
(1, 1). 6
sin120 cos330 sin 240 cos390× - ×! ! ! !
sin15!
cos(360 ) tan(360 )cot(270 )sin(90 )
A AA A
- +- +
! !
! !
qqq 3sin43sin3sin -=
3sin 20 sin 40 sin808
× × =! ! !
xxexy x log22cos22 -++= x
xxxxy
tansectansec
-+
=
÷øö
çèæ-+
= -
xxy
11tan 1
432 3 ++= xxs2=x
3=x
dydx
xexxy x 134 tan2log43 -+++=
2 sin 3xy e x= dydx
2
2
d ydx
3sin 4cosy x x= + 1=x
2xy =
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SECTION – 5
9 a Evaluate . 4
b Evaluate 5
c Evaluate . 5
d
Find the area bounded by the curve , x-axis and ordinates
and . 6
10 a Evaluate . 4
b Evaluate . 5
c Evaluate . 5
d
Find the volume of the solid generated by revolving the curve
between and .
6
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( 1)( 1)x x dx- +ò
ò2/
0
2sinp
dxx
sinx xdxò
24 3y x x= - -
1x = 3x =2
0
xe dxò
4cos(log )x dxxò
ò dxex x
xxy 52 +=
1=x 2=x
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20ME11T Semester I
CourseTitle MATERIALSFORENGINEERING CourseGroup Core
No.ofCredits 4 TypeofCourse Lecturing&Practice
CourseCategory PC TotalContactHours4HrsPerWeek
52HrsPerSemester
Prerequisites Basicsciencesatmatriculationlevel TeachingScheme (L:T:P)=4:0:0
CIEMarks 50 SEEMarks 50
1.COURSERATIONALE
Materialsforengineeringplayanimportantroleasthevitaltoolforsolvingtheproblemsofmaterialselection and application in the production andmanufacturing of equipment/machines, devices,tools, etc. Therefore, an engineering diploma student must be conversant with the properties,composition andbehavior ofmaterials from thepoint of view of reliability, sustainability andperformance of the product.The study of basic concepts of materials will help the studentsunderstandingengineeringsubjectswheretheemphasisislaidontheapplicationofthesematerials.
2.COURSESKILLSETThe aim of the course is to help the student to attain the following industry identified competencythroughvariousteaching–learningexperiences
1. Select Engineeringmaterials based on properties, behavior and environmental effect forgivenengineeringapplication.
2. Identify microstructure and alloying elements of given alternative materials for suitableapplication
3.COURSEOUTCOMESCO1 Abletounderstandthevariouspropertiesofmaterialsuinengineering
CO2 Able to Select relevant ferrous materials and cast iron, non-ferrous metals andadvancedmaterialsforEngineeringapplications
CO3 AdoptInternationalpracticeofmaterialdesignationandcodingsystem
CO4 Abletofindrelevantheattreatmentprocessforalteringthepropertiesofmetals
CO5 Able to Suggest relevant Surface treatment process for protecting the surface ofmaterials
4.SUGGESTEDSPECIFICATIONTABLEWITHHOURS&MARKS(THEORY)
Unit
UnitTitle
TeachingHours
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No.I. BasicofEngineeringMaterials. 06
II. Steelandalloys 10
III. NonferrousMetalsandalloys 08
IV. NonmetallicandAdvancedmaterials. 10
V. Heattreatmentprocess. 10
VI SurfacetreatmentforMaterials 08
Total 52
5.DETAILSOFCOURSECONTENTThe following topics/subtopics is to be taught and assessed in order to develop Unit Skill sets forachievingCOtoattainidentifiedskillsets
UNITNO UnitLearningoutcomes(Incognitivedomain) Topics/Subtopics Hours
L-T-P
UNIT-1
BASICSOF
ENGINEERING
MATERIALS
1. Identifythecrystalstructureofthegivenmaterial
2. Explain specimen preparationprocedure
3. Distinguish various engineeringpropertiesofmaterials
1.1 ClassificationofEngineeringMaterial1.2 Structureofmetal-unit cell,BCC,FCCandHCP
structures1.3 Typesofmicroscopes1.4 Specimenpreparationprocedure1.5 Properties of metals-Physical-mechanical-
Thermalproperties
06-0-0
UNIT-2
STEELSANDALLOYS
1. Select relevant cast iron for thegivenjobwithjustification
2. Select relevant steel for the givenapplication
3. Able to designate different plainand alloy steel, cast ironasperBIS,ASME
2.1 Types of cast iron-White-grey-Nodular-malleable-Selectionofappropriatecastironforengineeringapplication
2.2 BroadclassificationofsteelsI. Plain carbon steels-Definition-types-
properties-composition and applicationsoflow-medium-highcarbonsteels
II. Alloy steels-definition-effect of alloyingelementsonpropertiesofalloysteel
III. Tool steel-cold worked-Hot work toolsteel-Highspeedsteel(HSS)
IV. Stainlesssteel-TypesandapplicationV. Springsteel-compositionandapplication
2.3 Steels for following-shaft -axles-bolts-nuts-Agriculture Equipment’s-household utensils-Antifrictionbearings.
2.4 Designationandcoding(asperBIS,ASME) ofplain&alloysteelandcastiron.
10-0-0
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UNIT-3
NONFERRO
USMETALSAN
D
ALLOYS
1. Describe the properties andapplication of the given copperalloy
2. Describe the properties andapplicationofthegivenAluminumalloy
3. Describe the properties andapplication of the given Nickelalloy
4. Describe the properties andapplication of the given Bearingmaterial
5. Select relevant non ferrousmaterial for specified applicationwithjustification
3.1 Copper and its alloys-Brasses-Bronzes-Chemical composition-Properties andapplications
3.2 Aluminum and its alloys-Y-Alloy-Hindalium-duralium with their -Chemical composition-Propertiesandapplications.
3.3 Nickel and its alloys with their -ChemicalComposition-Propertiesandapplications
3.4 Bearingmaterials likeWhitemetal(Snbased),AluminumBronzes-Self-lubricatingBearings
08-0-0
UNIT-4
NONMETALICANDADVANCED
MATERIALS
1. Distinguish between metallic andnonmetallicmaterialsonthebasisofgivencomposition
2. Select relevant non metallicmaterial for the given job withjustification
3. SelectrelevantCompositematerialforthegivenjobwithjustification
4. Select relevant Alternativematerial for the given job withjustification
4.1 Polymeric materials-Polymer-types-characteristics
4.2 Classification of Polymers on basis ofThermal behavior -Thermo plastics andthermosettingplastics-Properties–uses
4.3 Ceramics-types of ceramics-properties andapplications
4.4 Composite materials-properties andapplicationoflaminatedandfiberreinforcedmaterials
4.5 Advanced engineering materials-propertiesand application of, Biomaterials, nanomaterialsandsmartmaterials
4.6 Designation and coding of important nonmetallicmaterialsasperBIS
10-0-0
UNIT-5
HEATTREATM
ENTPROCESSES
1. InterpretIron–carbonequilibriumdiagramofMildsteel
2. Identify the given phase diagramandreactionswithjustification
3. Conceptualize with sketches thespecifiedheattreatmentprocess
4. Select relevant Heat treatmentprocessforthegivenmaterialwithjustification
5.0 Concept of phase-pure metal-alloy –Solidsolution
5.1 Iron–carbon equilibrium diagram indicatingvarious phases-Critical temperature and itssignificance-Reactions on Iron carbonequilibriumdiagramofMildsteel
5.2 Heat treatment-Definition- purpose of heattreatment-–MechanismofheattreatmentTypesofheattreatmentprocess
5.3 Annealing-purposes of annealing-Annealingtemperaturerange-applications.
5.4 Normalizing- purposes of Normalizing-temperaturerange-Broadapplications
5.5 Tempering-Purposes of tempering-Types oftempering-Applications
5.6 Hardening -purposes of hardening -temperature range- Broad applications ofhardening
5.7 Case hardening- Carburizing-Nitriding-Cyaniding
10-0-0
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UNIT-6
SURFACETREATM
ENT
FORMATERIALS
1. Describe corrosion and itsprevention
2. Select proper electrolysisprocessforsurfacecoating
6.1 Corrosion-types and reasons forcorrosion,protectionfromcorrosion
6.2 Surface protection treatments-Methods ofSurfacetreatments.
6.3 Electrolytes and Non-electrolytes –definition-Typesofelectrolytes
6.4 Construction and working of electrochemicalcell
6.5 Electro-chemicalseries,galvanicseries.6.6 Surface coating through electrolysis-
setupandworking.
08-0-0
TOTAL 52-0-0
6. SUGGESTEDPRACTICALSKILLEXERCISES(DEMONSTRATIVE)The suggested practical activities (TABLE-I) in this section are demonstrated for the attainment of thecompetency. These practical activities can also be used for the student assessment in portfolio mode forawardingCIEmarks.
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NOTES:1. Itiscompulsorytopreparelogbookofexercises.Itisalsorequiredtogeteachexerciserecordedin
logbook,checkedanddulydatedsignedbytheteacher2. Studentactivitiesarecompulsoryandarealsorequiredtobeperformedandnotedinlogbook.3. Termworkreportincludestermwork,objectstakenforidentificationforlaboratorywork,student
activity;partsexperimentedasstudentactivityandlogbookalongwithstudentactivities.4. Term work report is compulsory part to be submitted at the time of practical end semester
examination.5. Termworkreportmustnotincludeanyphotocopy/printedmanual/pages,lithos,etc.Itmustbe
handwritten/handdrawnbystudentonly.6. ForCIE,studentsaretobeassessedforSkills/competenciesachieved.Studentsaretobeaskedto
identifymaterials,selectpropermaterials,etc.
7. MAPPINGOFCOWITHPO(Suggestiveonly)
8. INSTRUCTIONALSTRATEGY
ThesearesampleStrategies,whichteachercanusetoacceleratetheattainmentofthevariouscourseoutcomes1. MassiveOpenonlinecourses(MOOCS)maybeusedtoteachvarioustopics/subtopics.2. Lecturer method(L) does not mean only traditional lecture method, but different type of
teachingmethodandmediathatareemployedtodeveloptheoutcomes
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3. About15to20%ofthetopics/subtopicswhichisrelativesimplerordescriptiveinnatureistobegiventothestudentsforself-directedlearning
4. ArrangevisitstonearbyMetallurgicallabs/Industries/Academicinstitutionhavingresearchcentre facility /Research labs for various understanding of metallurgical microscopicexaminationofmaterialsandvariousheattreatmentprocess
5. Show Video/animation films to explain functioning of various application of materials inEngineeringdomain
6. Usedifferentinstructionalstrategiesinclassroomteaching.9.SUGGESTEDLEARNINGRESOURCES:
Sl.No.
Author TitleofBooks Publication/Year
1 J.W.Martin MaterialsforengineeringWOODHEADPUBLISHINGLIMITEDCambridgeEngland
2 GBSNarang Materialsscience KhannaPublishers,NewDelhi.
3 R.K.Rajput MaterialsscienceLaxmiPublication,Dariyaganj,NewDelhi.
4R.S.Khurmi&R.S.Sedha Materialsscience S.Chand
5 D.S.NuttMaterialsscienceandmetallurgy S.K.Katariyaandsons,Delhi.
6 V.RaghavanMaterialsscienceandEngineering
EEEEdition,PrenticeHill,NewDelhi.
7 SidneyAvner PhysicalMetallurgy TataMcGraw-HillEducation(2011).ListofMajorEquipment/Instrument
1. MetallurgicalMicroscope.2. Standardspecimens.
3. Furnacestoperformheattreatmentprocess.
4. Sorted/requiredquenchingmediums.
5. Hardnesstester-tocheckRockwellhardness-scalesA,BandC.
6. Otherhardnesstesterslikesceleroscope,etc.
7. Polishingmachinetopreparespecimenswithnecessaryconsumables.
8. Handgrinder–specificallytopreparespecimensandforsparktesting.
9. Otherconsumables.C.ListofSoftware/LearningWebsites
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1. http://vimeo.com/322240022. http://www.substech.com/dokuwiki/doku.php?id=iron-carbon phase diagram3. http://www-g.eng.cam.ac.uk/mmg/teaching/typd/4. http://www.ironcarbondiagram.com/5. http://www.youtube.com/watch?v=fHt0bOfj3T0&feature=related6. http://www.youtube.com/watch?v=cN5YH0iEvTo7. http://www.youtube.com/watch?v=m9l1tVXyFp88. http://www.youtube.com/watch?v=98lh5Q0M0cg9. http://www.youtube.com/watch?v=KIyGr-1snMY10. http://en.wikipedia.org/wiki/Materials science11. http://www.studyvilla.com/electrochem.aspx
10.SUGGESTEDLISTOFPROPOSEDSTUDENTSACTIVITYSNote:thefollowingactivitiesorsimilaractivitiesforassessingCIE(IA)
1. Selectanyfiveobjects(3metallicand2nonmetallic)whichwillbeusedinlaboratoryandlistthematerialofselectedobjects.
2. Preparethemateriallistofgiventoolsandcommonlyuseditemssuchasrazorblade,knife,scissor,hacksawblade, carpentry chisel, fix spanner, etc. Also give reason(s) for using suchmaterial and discuss youranswerswiththeteacher.
3. Takediluteacidwhichiscommonlyusedatourhomeforcleaningpurposeandputonescrapironpieceandonenonferrousmetalpieceinitforminimum12hours.Takeoutthesetwopiecesbyfollowingallsafetynorms/steps(withouttouchingacid)andobservethechanges.Discusswithyourteacher.
4. Groupof3-5studentswillvisitLOCALAUTOMOBILEREPAIRSHOPandwillidentifyatleast5nonmetalliccomponents for a given AUTOMOBILE / assembly. Also list the material of identified machine /assemblycomponents.
5. Listatleastthreequestionsindividuallywhichyouwouldliketoaskforfollowings:i. Comparisonofironandfiberreinforcedplastic.ii. Comparisonforstrengthofwoodandcast-iron.iii. Annealing-heattreatmentprocess.iv. Materialsusedforconstructionofanybike.v. Materialsusedforconstructionofanyhomeappliance,likemixer,washingmachine,iron,etc.vi. Anyotherrelevantactivityaddedbyteacherincludingpreparingindustrialvisitreport.
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11.COURSEASSESSMENTSANDEVALUATIONCHART
Sl.No Assessment TypeTimeframeinsemester
DurationMaxmarks
Conversion
1.CIEAssessment1
Writtentest-1-Attheendof3 dweek
80minutes
30Averageofthreewrittentests-1,2,3for30
2CIEAssessment2
Writtentest-2-Attheendof7 week
80minutes
30
3CIEAssessment3
Writtentest-3-Attheendof13 week
80minutes
30
4CIEAssessment4
MCQ/Quiz-Attheendof5 week
60minutes
20 Averageofthree
Assessment4,5,6For20
5CIEAssessment5
Openbooktest-Attheendof9 week
60minutes
20
6CIEAssessment6
Studentactivity&presentation
-Attheendof11 week
60minutes
20
TotalContinuousInternalEvaluation(CIE)Assessment 50
SemesterEndExamination(SEE)Assessment(WrittenTest-Pen-paperMode),conductionfor100marksandconvertedfor50
3Hours 100 50
TotalMarks 100
Note:
1. SEEisconductedfor100Marks.2. I.A.testshallbeconductedasshownintheabovetable.3. Assessmentofassignmentandstudentactivityisevaluatedthroughappropriaterubricsbythe
respectivecoursecoordinator.RUBRICSFORACTIVITYAppropriaterubricstobedevelopedbythefacultyaspertheactivity
Dimension Beginning Developing Satisfactory Good Exemplary StudentScore2 4 6 8 10
Descriptor Descriptor Descriptor Descriptor Descriptor 8
Descriptor Descriptor Descriptor Descriptor Descriptor 6
Descriptor Descriptor Descriptor Descriptor Descriptor 8 Descriptor Descriptor Descriptor Descriptor Descriptor 8
Average/TotalMarks:(8+6+8+8)/4 7.5=8marks
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ModelQuestionPaper
IATest(CIE)Programme:Semester:ICourse:MaxMarks:30CourseCode:Duration:1Hr20minutesNameofthecoursecoordinator:Test:I/II/III
Note:Answeronefullquestionfromeachsection.Onefullquestioncarries10marks.
Qn.No Question CL CO PO Marks
Section-11.a)
b)
c)
2.a)
b)
c)
Section-23.a)
b)
c)
4.a)
b)
c)
Section-35.a)
b)
c)
6.a)
b)
c)
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ModelQuestionPaper
SemesterEndExamination
Programme: Semester:ICourse:MaxMarks:100CourseCode: Duration:3Hrs
InstructiontotheCandidate:Answeronefullquestionfromeachsection.Onefullquestioncarries20marks.
Qn.No Question CL CO MarksSection-1
1.a) b) 2.a)
b) Section-2
3.a) b) 4.a)
b) Section-3
5.a) b) 6.a)
b) Section-4
7.a) b) 8.a) b)
Section-59.a)
b) 10.a) b)
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20EG01P Semester I/II
CourseTitle COMMUNICATIONSKILLS
CourseGroup Core
No.ofCredits 4 TypeofCourse Tutorial+Practice
CourseCategoryWorkplaceSkills/Humanities&SocialSciences
TotalContactHours6HrsPerWeek
78HrsPerSemester
Prerequisites Nil TeachingScheme (L:T:P)=0:1:2
CIEMarks 60 SEEMarks 40
PreambleToday, Communication is a very important skill for the success of every millennial student.Millennialsaffinitytousedigitalmediaforcommunication,changingcareerandworkinglandscapes,andgreatercompetitionincollegesandworkplacesmakesenhancingstudentcommunicationskillsbeyond language a must. Rote learning a few tips or tricks the night before an interview orperformance review won’t do the job if students are trying to make an impression in highlycollaborativeworkplacesofthefuture.Expectationsfromstudentsaspiringtobepartofsuchfutureworkplacesarethattheyhavenotjustgoodverbalandnon-verbalcommunicationskillsbutalsoagoodunderstandingofhowtousemoderntoolsforeffectivecommunication.
ScopeToenablestudentstocommunicateclearlyandeffectively,byimprovingtheirverbalandnon-verbalcommunicationskills,aswellasenhancinginterpersonalskillsandknowledgeofappropriatetoolsforspecificcommunicationstrategies.
CourseObjectivesTheobjectivesofcommunicationskillscourseare:
• Buildbettercommunicationskills:oralandwrittenexpressionsandbodylanguage• Enablecriticalthinking• Empowerwithactivelisteningskills• Enableteamwork/collaboration
InstructionalStrategyToachievecourseobjectives,itisimportanttoprovidetheblendedmodeofinstructionforeachoftheconcepts.Thisblendedmodeofinstructionenablesandempowersstudentswith:
• UnderstandingofConcept(Theory):o Throughdefinitions,discussions,explanation,conclusions.
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o Throughdemonstrations:Showfilmsorotherworkplaceclipsthatmodelvariousconversationskills.Thisprovidesgreaterclarityoftheconceptby
§ Enablingobservationskills§ Helpinginexpressionofgesture§ buildingconfidence
• ApplicationofConcept(Learningbydoing):Itisimperativethattobecomeagoodcommunicator,theskillshavetobebuiltbyapplyingtheconceptinthehypotheticallycreatedreallifesituations.Studentsareencouragedtoparticipateineachoftheseactivitiesduringlabsessiontohelpbuildtheeffectivecommunicationskills.
o Useoftechnologytoolslikeaudiobooks,appslikevoicethreadorpapertelephone,etc.
§ Tohelpinworkplaceconversions.§ Toincreaseactivelistening,pronunciation§ Tohelpinvoicemodulation
o Groupdiscussion§ Reinforceactivelistening§ Enablegroupdebatetoimbibehealthycommunicationstrategies§ Sharpentheskillsof“Askingclarifyingquestions”§ SharpenFeedback/Responseskills§ Timemanagementskills
o Grouppresentations/peerreviews§ Enableteamwork§ Assessconceptunderstanding§ Sharpenbothoralandwrittencommunicationskills
o Groupactivities:§ fostercriticalthinking§ enablereflectivelearning
o Toolsusage:§ UnderstandthedifferencebetweenaDictionaryandaThesaurus§ Understand“When”and“How”tousethesetoolsforcommunication
CourseOutcomesAftercompletionofthiscourse,thestudentshallbeableto;
• Communicateo Identifyaudience(colleagues,management,customers/vendors)andusetheright
methodologiesforcommunicationusingtherightterminology,names,gradesandothernomenclaturepertainingtothetrade,toolsandspecificequipment.
• Writeo inatleastonelanguagecorrectlyo basiclevelnotesandobservationso jobcards,worksheets,basicreportwritingandrespondingtoemails,simple
presentations,jobapplications,resume• Read
o Technicalmanuals,tasksheets/joborders,policiesandregulationspertinenttothejob,includingOEMguidelines.
o allinstructionsgiveninmemos,manuals,documentsorthoseputupaspostersacrossthepremises
o safetyprecautionsmentionedinequipmentmanualsandpanelstounderstandthepotentialrisksassociated
• Questiono Askrightquestions
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o Usedifferentwaysofaskingquestions§ Clarifying/Openended(What,Why,When,Who,Where,How)§ Closeended
• Presento WithrightPosture&Gestureo Withgreaterconcept/contentclarityo Withhighconfidenceo Withvoicemodulationtocapturetheattentionofaudience
• Usetechnologytools
o Officeproductivity§ Word:Reportwriting§ PowerPoint:Creatingeffectivepresentations§ Excel:Datahandling/Charts
CourseContentThefollowingarethevariousunitstobetaughtandassessedinordertoensurethestudentisabletodemonstratetheCourseOutcomesmentionedintheCourseOutcomesection.
Pre-assessment:
Teachersarerequiredtoadministerpre-assessmentbeforestartingtheactualinstruction.Thishelpsingatheringinformationaboutstudents’liketheirattitude,beliefs,interests,andlearningabilities.
Preassessmentexpectations:
• Toassesscurrentlanguageskill(Pronunciation,usage,sentenceformation)• Toassesstheirabilitytocomprehendandrespondtotheinstruction• Toassesstheirinteresttowardsacceptingideasandlearning• Toassesstheircurrentcommunicationskills:askingquestions,listening,communicating
withconfidenceUNIT1:English–IntroductionLearningoutcome:LearnEnglishpronunciation,functionalgrammarconcepts&Reading.TogainconfidenceinspokenEnglish.Thissectionalsocoversphonemicawareness,grammarrulestosetastrongbaseforapplicationmodeofcommunication.PhonemicawarenessFunctionalGrammarConcepts
Goingover42soundsRevisionofGrammarconcepts
ExaminingtheunderstandingofsoundsSpellingpatterns(ConsonantandVowelblending:CVCwords)Pronunciationo Listofwordsgivenabove(Commonly
usedwords)o Diction(speech)PartsofspeechSentencestructure
ExamplesofrightsentencesGender,Singular,Plural
0:2:22:0:00:1:00:1:0
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Comprehensionactivities
Readingconversations(checktheunitwiseactivitytable)
Usageofvoice(activeandpassive)andtensesWrittentestforeachcomprehension
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UNIT2:CommunicationLessonoutcome:Attheendofthesession:
• Studentsshouldbeabletoo Understandthecommunicationprocess,influenceofvoice/tone,logical
organizationofthought,comprehension,listeningskills.o Understandthebasicbuildingblocksofcommunicationandstrategiesforworking
witheachoftheseblocks.o Learnaboutcarryingself,etiquettesofcommunication.o Buildpositiveattitudeaboutselfandtowardshandlingcommunication.o Learntheprocessforeffectivecommunication,problemsolvingtechniques,tobe
confidentcommunicator.INTRODUCTION:
Whatiscommunication?Whycommunication?Howdowecommunicate?CommunicationTheoryandProcess
Barrierstocommunication
Howcommunicationhappens?
• Pictorialrepresentationofcommunicationframework
• Elementsofcommunication:sender,receiver,message
• RefertoactivityinUnitactivitysection.
Language
• Lackoflinguisticability• Grammar
Context
• Psychology• Physiology
Systematic
• inefficientorinappropriateinformationsystems
1:2:00:2:20:2:2(videoclipplay,contenttutorial,roleplay)
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• Lackofcommunicationchannel• lackofunderstandingoftheroles
andresponsibilitiesAttitude
• Perceptions• Preconceivednotions
Buildingblocksofcommunication
PeopleMessageContextListening
People:• Empathisingwithsender’sor
receiver’sperception• Intent&Impactonthe
sender/receiver• Think–Feel–Domodel
Message:Messagechannels:
o Inperson,email,memo,reportBeawareofMentalFilters
o Levelofunderstanding/knowledge
o Personalconcernso Preconceivednotions
Organizemessage:o Criticalthinking:organizeyour
thoughts?Usefollowingstrategy:
§ Who§ What§ When§ Why§ How
o BundlePrimaryandSecondary
informationo Mindfulaboutnon-verbal
messageo Toneofvoice
ExamplesofTypesofmessages:o Informo Persuadeo Cyclical
AvoidingMiscommunication:• Evaluate(Checkingfor)
understandingoftheintentofthemessagewiththereceiver–byaskingclarifyingquestions?
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Context:DefinecontextImportanceofcontextTuneintocontext
• Timing• Location• Relationship
Listening:ImportanceoflisteningBarriertolistening:
• Mentalfilters• Multitasking• Informationoverload
Strategiesforlistening:• Recall• Acknowledge• Summarize• Listenwitheyesforconnectingto
non-verbalconnection• Empathize• Payattention• Askclarifyingquestions
EffectiveListeningBehaviors:•Maintainingrelaxedbodyposture•Leaningslightlyforwardifsitting•Facingpersonsquarelyateyelevel•Maintaininganopenposture•Maintainingappropriatedistance•Offeringsimpleacknowledgements•Reflectingmeaning(paraphrase)•Reflectingemotions•Usingeyecontact•Providingnon-distractingenvironmentBehaviorsthathindereffectivelistening•Actingdistracted•Autobiographical(Tellingyourownstorywithoutacknowledgingtheirsfirst)•Noresponse•Invalidatingresponse,putdowns•Interrupting•Criticizing•Judging•Givingadvice/solutions•Changingthesubject•Reassuringwithoutacknowledgment
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UNIT3:VerbalCommunicationLessonoutcome:Attheendofthissession,Studentsshouldbeableto:
• Understandanddefinethecommunicationframeworkstructureforeachoftheverbalcommunication(inperson/telephonic/videoconference).
• Understandandapplytheverbalcommunicationtechniques.• Usetechnicaljargonsincommunication.• Userightbodylanguageduringverbalcommunication• UnderstandandpracticetheActiveListeningtechniques• Confidentlyarticulateorpresentthecontent
Differenttypesofverbalcommunication:ListeningSkills
InpersonTelephonicVideoconferenceEffectiveListeningbehavioursBehavioursthathindereffectivelistening
UseABC’s:Accuracy,Brevity,Clarityo Introductiono Mainbodyofthecontento Summary
• Usevoice/toneeffectively• ReinforcementofListeningskills:
ActiveandEmpatheticlisteningskills
• Bodylanguageo Eyecontacto Bodypostureo Gestureo Facialexpressiono Space
EffectiveListeningBehaviours:•Maintainingrelaxedbodyposture•Leaningslightlyforwardifsitting•Facingpersonsquarelyateyelevel•Maintaininganopenposture•Maintainingappropriatedistance•Offeringsimpleacknowledgements•Reflectingmeaning(paraphrase)•Reflectingemotions•Usingeyecontact•Providingnon-distractingenvironmentBehavioursthathindereffectivelistening•Actingdistracted•Autobiographical(Tellingyourownstorywithoutacknowledgingtheirsfirst)•Noresponse•Invalidatingresponse,putdowns•Interrupting
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UsingtechnicalJargons:
Assignmentbasedprojectencouragingpupiltousethetechnicaltermsinthewrittenandverbalcommunication.Thisrequiresunderstandingofthecoreconcepts(fromsubjectteacher)andintegratingtheconceptwithcommunicationconceptstogaintherealtimeapplicationknowledge.
•Criticizing•Judging•Givingadvice/solutions•Changingthesubject•Reassuringwithoutacknowledgment
UNIT4:Non-VerbalCommunication:Lessonoutcome:Attheendofthisunit,studentsshouldbeableto:
• UnderstandtheimportanceofBodylanguageanditsimpact.• Usethestrategiesforeffectivebodylanguage.• Understandtherelevanceofdifferentelementsofemailsandhowtousethem.• Developtheconfidenceinpresentingwrittencontentinlogicalandorganizedmannerwith
adefinitiveemailframework.• Writedifferentemailformatsconfidently:Jobapplication,Requestemail,apologyemail,
emailresponses/feedback.• ConfidentlywriteResume/Curriculum-vitae,Reports,Formallettersandportfolio.• Confidentlycommunicateusingtechnicaljargonsandwithincreasedvocabulary.
BodyLanguage
Strategies
Bodylanguagetips:• Keepappropriatedistance• Takecareofyourappearance• Maintaineyecontact• Smilegenuinely
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ArtofProfessionalwriting:
WrittencommunicationEmails:
• StructuredframeworkforwritingformalemailstoemphasizeonprofessionalcommunicationinEnglish
Do’sandDon’ts:dos:
• smile• standupconfidentandstraight• useappropriatehandgestures• Makeeyecontactwithaudience• Holdneatnotecardswhile
presentingcontentDon’ts
• pointatanyone• rockbackwardsandforwards• paceacrossfrontofroom• readoffslides
readoffnotes
Differenttypesofemails:Jobapplication,requestletter,letterwritingandquicknotesStructureofemailtext:
• Introduction–Beginningoftheletterandthisplayscrucialroleasitprovidesfirstimpressiontothereader.
o Who:author(name+positionandorganisation)
o what:purpose-controllingidea(whatauthordoesorfeels)
• Development:Expandonthe
ControllingIdea/purposeoftheemailbyansweringrelevantWHquestions
o what,when,where,who,whom,which,whose,why,andhow
• Conclusion:Positivewordso Verb:thank,appreciate,
hope,wisho Phrases:begladabout,look
forwardtoEmailwritingsamplesandpracticecontentintheactivitysection.
0:2:4
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Additionalessentialwritingskills–Frameworkwillbeprovidedandassignmentswillbeadvised:
• Resumewriting/CurriculumVitae• ReportWriting• Portfoliowriting• Formalletters
UNIT5:English-ReadingSkills,Grammar&VocabularyLessonOutcome:Attheendofthesession,studentshouldbeableto:
• Readsentenceswithpunctuation.• Understandthetechniquesofreadingcomplexwords.• Understandandapplythereadingtechniquesforefficientreading.• UnderstandtheusageofcommunicationtoolslikeThesaurusandDictionarythataidsin
improvingvocabularyandreading.• Understandandapplythefunctionalgrammaraspectsindaytodaycommunication.
ReadingskillsFunctionalGrammarVocabulary
ComprehensionactivitiesTechniquesforsmartreadingListofCommonlyconfusedwordsandhowtouse/avoidthemSentences:
o Declarativesentence
o Imperativesentence
o Interrogativesentence
o Exclamatorysentence
PassagecomprehensionConversationcomprehensionStrategiesforsmartreading:
• Skimmingandscanningthroughthetext,inferringthemeaning
• Questioning,summarizingSetofwordstoacceleratetheEnglishlanguagelearningandusage.StrategiestousethesewordseffectivelyTechniquesofcategorizingsentences,understandinghowtobuildwithpunctuationandeffectivelyuseintheverbalandnon-verbalcommunication.Thisinvolvesmoreofhandsonactivities.
0:2:20:1:20:1:2
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Punctuation,ContentorganizationandComprehensionTechniques:
• Learningnewwordsfromcomprehensionbywayofrepetitionandusageofthesewordsincommunication
• Listingtechnicaljargonsandrepeatedlyusinginthecommunicationwithpeersandteachers
• Chunkingandreadingwords
Tools• Understandthe
differencebetweenaDictionaryandaThesaurus
• Understand“When”and“How”tousethesetoolsforcommunication
ComprehensionremainsasamainactivitytoacceleratethelearningofspokenandwrittenEnglishlanguageIncreasesvocabulary,buildsconfidenceandhelpsinbecomingagoodcommunicator.Activitiesaredone,tipsareprovidedtoefficientlyimplementthesestrategies.
0:1:20:1:0
Unit6-CommunicationToolsLessonOutcome:Attheendofthesession,studentshouldbeableto:
• UseEmailtechnologyefficientlyforcommunication• PresentcontentinthePPTformatefficiently• Understanddifferentplatformsavailableforwebconferencingandefficientlyworkwith
them.• Createreportsanddatamanagement.
Introduction
Evolutionofcommunicationtools
Traditionalvs.moderncommunicationtoolsAdvantagesandDisadvantages
1:0:0
EmailusingGmail Howtousethetoolseffectively?Formatting,layout
0:1:1
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CourseClassActivityList(Unit-wise)
Thefollowingarethevariousactivitiesthatfacultycouldconductforeachunitarepresentedbelow;
One-to-One IncludingattachmentWorkingwith“To,CC,BCC”andSubjectfieldseffectivelyUsingsignature
One-to-Many
PresentationusingPowerPoint
Creating,Editing,SavingslidesUsingAnimationFormattingoptions
0:1:2
Webinar/WebPresentation(zoom,Googlemeet,Skype)
HostingonlinemeetingusingonlinemeetingtoolsInvitingpeopleSharingscreen
0:1:1
Other ReportsusingMSWord
Open,close,EditandSaveusagewithdocumentsLayoutandstrategiesforcreatingreportSamplereportcreationdemowithfollowonassignmentCoresubjectprojectreportsubmissionassignment
0:1:2
Data&GraphsusingMSExcel
Open,close,saveandedittheexceldocumentCreatingdataUsingbasicmathsoperationinExcelforworkingwithdataCreatingsimplegraphsAssignment:Forexample,creatingstatisticsofsubjectwiseactivitiescompletedfor6monthsinthecreditcourse
0:1:2
4:34:40
UnitNo. UnitTitle UnitActivities
UNIT1:Activities:
English–Introduction
1. 42soundsrevision:
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• Thishelpsinreducingthenativelanguageimpact• HelpsinunderstandingShortandLongvowel
words• Helpsinspelling• Helpsinpronunciation
2. Readingcommonlyusedwordsloudfromthelist(listwillbeprovidedintheworkbook):• Thishelpsingettingfamiliaritywiththeword
pronunciationandhelpsinreading.3. Blendingwordsactivity:
• Writesimplethreeletterwords(CVC/CVCC/CVCV)patternwords:Can,Cap,Snap,cape(listwillbeprovidedintheworkbook)
• Showhowtoblendwiththesound.• Startingwith3letterwordsandcontinuingto6to
8letterwords.Note:Rememberbeforegoingthroughbigwords,itisalwaysimportanttoassessandensurethestudentisawareofallthe42soundsandarecomfortablemakingsmallwords.
PartsofSpeech:
buildingsentenceusingpartsofspeech:Demonstrationbyteacher:(Willbeexplainedinthebookasanexample)
Jumbledpartsofspeech:Studentshouldpicktherightordertobuildmeaningfulsentence:
(Moresampleswillbeprovidedintheworkbook)
• Collegegotoyoueveryday.• Makesspiderwebthea
Gender,SingularandPlurals:
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• Matchthefollowingactivityforsingularandplural
• FillintheblanksactivityforgendersReading&Comprehension:Conversation
• Conversationatthebank(providedintheworkbookalongwithfewmoreconversationsamples)
• Questionsbasedonthisconversationwillbeprovidedintheworkbook
Unit2
Communication
Oral:• Introduceyourself?
Visual:• Videocliponcommunicationetiquette• Pictures(inaddendumsection):do’sanddon’tsof
communicationGroupofstudents,oneparticipantwhispersinanotherparticipant’sear,andthismessagehastobepassedoninacircleuntilitreachesbackthesender.Makinganoteofprocessofmessageconveyedandhowitwasperceived.
o Identifythecommunicationgapifany.o Discussandconcludethecommunication
frameworkimportanceo Discuss/reiteratehowtomake
communicationframeworkstrong.
1. Roleplaytoassesstheunderstandingofbuildingblocksofcommunication:(canbetaperedtothecoreskillsofdiplomacourses,followingarejustfewoftheexamples)
a. Announcingtheresultofstudentsintheclassor
b. Announcingthejobplacementofstudents(people,context,message,formofmessage)
c. Discussingtheguidelinesofexamination(listeningskills)
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d. Listeningtotheweatherforecastwithoutseeingandmakingnoteofthelisteningability(playvideoofweatherforecast)–Assessbasedonhowmuchthestudentisabletorecall.
2. RunNationalgeography/DiscoveryVideoclip/subjectrelatedtechnicalvideocliponYouTube:Check:
o ifthestudenthasnotunderstoodwhata
speakerexpressedo aboutworkorsafetyrelatedissueso seekingclarificationoradvice
appropriatelyfromcolleague,customer,managementorvendor
Unit3
Verbalcommunication
1. Voice/tonemodulation:ShowcasevideoDiscussion:
Whatwasright?
Whatwaswrong?
Howitshouldhavebeenbetter?
2. Picturedescriptionactivity(memorytest):ClasssplitintogroupsA,BC,D:(twoorfourgroupsofatleast5peopleeach):Teachershowsdifferentpicturetoeachgroupforthreeminutes.Noweachgrouphastorememberwhatwasonthepictureanddiscusswitheachother,writedowntheelementsonapieceofsheetandshareitwiththeteacher.Groupthatremembersmorewillbethewinner.Teachertoobservethebodylanguageofastudentinthegroup,listeningskillsofastudent,presentationskill,comprehensionskill,contentdeliveryskill,confidencelevel,teamwork.Andreiteratetheconcepts,dosanddon’ts,anddiscusswhatcouldhavebeendonebetter.(detailsofpictureswillbegivenintheworkbook)
3. Telephonicconversation:
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Roleplaybyateacher:CallAirtel/Vodafonedepartmentandaskingforthephonenumberportabilityprocess.Afterteacherdemonstrates,teacherdividestheclassintosmallgroupsofthreepeople.
• Eachgroupwillbegivenadifferenttelephoneconversationassignment(sampleswillbeprovidedinworkbook).
• Twopeopleinthegrouppretendtoconverseoverthephone,andthethirdpersonmakesanoteofrightandwrongapproachesduringthecommunication.
Unit4:
Non-verbalcommunication
Bodylanguage
SimonSays:
Instructionsandsetup:
1.Seriesofinstructionstothegroupthataretobecopied/reproduced.Startslowlyandincreasethepace
2.StatethefollowingactionsasYOUdothem:
o Putyourhandtoyournoseo Clapyourhandso Standupo Turnaroundo Touchyourshouldero Sitdowno Stampyourfooto Crossyourarmso Putyourhandtoyourforehead–BUTWHILE
SAYINGTHISPUTYOURHANDTOYOURNOSE
3.Observethenumberofgroupmemberswhocopywhatyoudidratherthanwhatyousaid.
Outcomeofthisactivity:
Discusshowbodylanguagecanreinforce/influenceverbalcommunicationanddrivetheimportanceofbodylanguageandhowtoworkonit
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CourseAssessmentStrategies
AssessmentMethodologya. Observation(roleplayactivities,teamactivities,demonstration)b. Questions&Answer–PeriodicAssessment
AssessmentGradingRUBRICSLanguageBasics Beginner Doesn’tknow/understandIntermediate canreadandidentifycommonlyusedwordsGood Confident,abletocommunicatewellwithknownpeopleAdvanced Confident,abletocommunicatewellwithanyoneusingaEnglish
• Emailcommunication&Usingtechnicaljargons:
Sampleletterwritingasassignmenttostudents.(listwillbeprovidedinthetextbook–Request,apology,jobapplicationandrelevantemailformatsthatareusefulforstudentspostdiplomacourse)
• Therewillbeatleastoneassignmentthatutilizestechnicaljargonsinemailcommunication.
UNIT5:
English-ReadingSkills,Grammar&Vocabulary
• Readingpassage(Providedinworkbook)• Readingpassagefromthetextbook• Comprehension:Passage&Conversation(willbe
providedinworkbook)• Chunkingwordsandreadingactivities
Unit6:Communicationtools
• Emailwritingactivities:Writingemailsusingemailprovider.Themebasedemailwriting
• Reportwritingassignment
Writingaboutamachinerytool/interiordesigningplan?Relatedtothediplomastream.
• Resumewritingassignment• Datahandling:Collectingdataabout
machines/numberofstudentspassedoutofcollegeforlastthreeyearsandcreatinggraphaboutit.
• Presentation:o Aboutlearninginthecommunicationclasso Conceptpresentation
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Expert Canread,understand;Alsocomprehend&cantrainothersReading
Beginner Beginningtoread,hasnativelanguageimpactIntermediate canread,identifywords,buildsimple3/4/5letterwordseasilyGood Canread,understand,buildwords,readsimplesentences;Also
comprehendAdvanced Canread,understand,buildwords,readsimplesentences;Also
comprehendExpert Confident,readsimpleandcomplexsentenceswithpunctuation,
comprehend,spellalsobuildwords
Interpersonalcommunication
Beginner isshy,doesn’ttalk/expressIntermediate hesitatestocommunicate–duetolackofconfidence/ability,cantalk
toknownpeople
Good cantalktounknownpeople,lessconfident,doesnotexpress,hashardtimeworkingasateam
Advanced cantalktounknownpeople,confident,can'texpress,hashardtimeworkingasateam
Expert confident,cantalktoanyone,expresswell,workswellintheteamBodylanguage
Beginner Isshy,notopentocommunicate,hashardtimemakingfriendsIntermediate KnowsbasicsofBodylanguage,practicessometimesGood KnowsbasicsofBodylanguage,practicesmosttimes,hasless
confidenceinpresentingcontent
Advanced Knowsandpracticesgoodbodylanguagealltimes,canpresentcontent
Expert Knowsandpracticesgoodbodylanguagealltimes,isanexample,Leadsthepacktogetbetter
ListeningSkills
Beginner Justhears,noattentionIntermediate Listens,paysattention,doesnotaskanyquestionGood Listens,paysattention,askquestionsAdvanced listens,paysattention,asksquestions,cannotempathizeExpert Listens,paysattention,asksclarifyingquestions,abletounderstand
themessagecommunicated
AcceptabilitytoLearn
Low isnotreceivingtoinformationAverage receivesinformationbutresiststoimplementGood,AboveAverage receivesinformationandimplementsperinstructionsStrong receivesinformationandproactivelyimplementsandseeksfeedbackVerbalCommunication
Beginner Doesnotcommunicate,shy,lowonconfidence:hasproblemexpressinginhis/hernativelanguageorEnglishlanguage
Intermediate Cancommunicateinnativelanguage,lowconfidence,shy,yettotryinEnglishlanguage
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Good Cancommunicateinnativelanguage,goodconfidence,triestocommunicateinEnglishlanguage
Advanced Cancommunicateinnativelanguage,expressviewpoints,goodconfidence,comfortabletalkingtopeopleintheteam,triestocommunicateinEnglishlanguageaswell
Expert Cancommunicateinnativelanguage,expressviewpoints,verygoodconfidence,cancommunicatewithanyonewithoutanyfear,asksclarifyingquestions,communicateswellinEnglish,ortrieshardtocommunicateinEnglishlanguageaswell
Non-VerbalCommunication
Beginner Strugglestounderstandthenon-verbalcues,hastoworkonbodylanguage,hashardtimeunderstandingthewrittencommunicationaspects
Intermediate Canunderstandthenon-verbalcues,hastopractice,triestoapplywrittencommunicationaspects
Good Canunderstandnon-verbalcues,practiceswell,workshardtogetholdonwrittencommunicationskills,exhibitsconfidenceinwhatevertaskisgiven
Advanced Canunderstandnon-verbalcues,canworkonwrittencommunicationaspects,exhibitsconfidence,practiceswell,helpotherstoidentifynon-verbalcues
Expert Canunderstandnon-verbalcues,trainothers,confident,exhibitsgoodnon-verbalcuesatalltimes,cantrainthepack,hasgoodholdonwrittencommunicationaswell.
Comprehension
Beginner Triestoreadthepassage,hashardtimetocomprehendIntermediate Canreadtheconversationpassage,hashardtimeunderstandingthe
regularpassage
Good Canreadtheconversationpassage,regularpassage,butstuttersinansweringquestionsiftherearetechnicaljargons
Advanced Canreadtheconversationpassage,comprehendbutregularpassagecomprehensionisgood
Expert Canreadtheconversationpassage,comprehendbutregularpassagecomprehensionisgood,explainbettertoothers,helpothers,leadthepack
WritingCommunication
Beginner HastroubleformingrightsentencesforwrittencommunicationIntermediate Canformsentences,hasproblemwiththelayout,getsconfused
betweenlayoutfordifferentformofwrittencommunication
Good Canformsentences,hasfairunderstandingofthelayouttobeusedforparticulartypeofwrittencommunication,butstuttersforwordsandexpression
Advanced Canformsentences,hasgoodunderstandingofthelayouttobeusedforparticulartypeofwrittencommunication,confident,canexpressthoughtswell
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Expert Canformsentences,hasgoodunderstandingofthelayouttobeusedforparticulartypeofwrittencommunication,confident,canexpressthoughtswellandtrainothersandleadthepack
RecommendedLearningResourceshttps://www.englishclub.com/grammar/parts-of-speech.htmWatchAmyCuddy’sTEDTalk:YourBodyLanguageShapesWhoYouAreAdditionalReading:http://money.cnn.com/2000/05/03/career/q body language/
Pre-assessment:
Activity1:Makeagroup,readrandomwordsfromthelist,buildsentenceforfewwordsfromthelist.Createagroupof3or5students.Randomlypick5words fromtheword listwritedownon theboard/showthemasachartifyouhavecreatedawordchart/makechitofwordsandaskthemtopickonechitandREADtheword.Main idea: Testing the pronunciation ability, language ability, confidence in speaking, ability tounderstandandaccepttheinstructionActivity2:Simplereadingtest–Readingpassages(Simplepassagefromthecurrentcoursebook)Showthereadingpassage,leteachoneofthemread2lines,afterfirststudentisdonewithreadingtwolines,thenthenextstudentmustpickupfromthereandreadnexttwolines.Thisprocesshastobefolloweduntiltheentireclassisdonewithreadingoratleasttenstudentsaredonewithreading.Mainidea:Testinglisteningskills,attentiveness,languageability,pronunciationabilityActivity3:Studentsgettingtoknoweachother.Createagroupof3or5students.Eachstudentgetschancetotalktoanotherstudent,introducehim/herselftothestudent,askquestion,makeanoteoftheansweragainstthenameofthestudentwhoisansweringthequestiononasheetofpaper.
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Main idea: To assess current communication level, body languagewhen students talkwith eachother,andconfidence.
CommonlyUsedWordListWhen Today For OffGive Stop There OftenAgain Little Than MyselfDo Large At OverFrom Both Like AlongHim Name Said WhyCan Few They HasGo Home Look BringBut Big Know PartOld Should Done ByNot Once High AsHer Thought So IntoTime Better Them AwayLong Many Does NoHad Get AlwaysOtherWord Please These WithVery Ask Last AnYour Say Got WhatMake Ten Next ComeDay I Those WouldEach Show Play WhoYes To Girl ThisOn Am A CouldBeen Where You NowOf Way Be FunHe Which Were OnlyIt Write Or MuchMore Goes One TellMy Great All OutAny Number That FastTheir First Cat IsWe Find His SmallShe Me Have DogDid In How SeeWent Before Water HereFull Saw And PeopleSome Never Use SchoolThen Boy Take TwoIf Right The CallNight After Will MightMade About Was MayUp Far Are Walk
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Toassesscurrentcommunicationskill:Activitybased
Activity3:
Makingagroupofstudentsandgettingtoknoweachotherwithapredefinedexpectationforexample:
Name:Ihaveperformedonstage:I’mgoodatsports:Icanspeakmorethan3languages:I’malwayscheerful:Ilikemymothertongue:
Communication Skills (20EG01P)
CourseAssessmentandEvaluation
ContinuousInternalEvaluation(CIE)
Sl.No Assessment Schedule Duration Max.Testmarks
1 SkillTest1 Attheendof3rdweekofthesem 2Hrs 202 SkillTest2 Attheendof7thweekofthesem 2Hrs 203 SkillTest3 Attheendof13thweekofthesem 2Hrs 20
Total 60Scheme of Valuation for CIE
Serial no Assessment Marks
1 Portfolio Evaluation of activities / exercises conducted upto the schedule of Skill Test. (Work Book Based)
10
2 Assessmentofanyonethroughqualitativeassessment(Rubrics)
10
TOTAL 20
RUBRICSFORASSESSMENTOFACTIVITY(10marks)(QualitativeAssessment)
Dimension Beginner Intermediate Good Advanced Expert StudentScore2 4 6 8 10
Descriptor Descriptor Descriptor Descriptor Descriptor
Descriptor Descriptor Descriptor Descriptor Descriptor
Descriptor Descriptor Descriptor Descriptor Descriptor
Descriptor Descriptor Descriptor Descriptor Descriptor
Average/TotalMarks:
Communication Skills (20EG01P)
ExampleOnlyRUBRICSFORASSESSMENTOFACTIVITY(10marks)
FacultyneedtodevelopappropriaterubricsaspertheassignedactivityforassessmentDimension Beginner Intermediate Good Advanced Expert Student
Score2 4 6 8 10LanguageBasics Doesn’tknow
/understandCanreadandidentifycommonlyusedwords
Confident,ableto
communicatewellwithknownpeople
Confident,ableto
communicatewellwith
anyoneusingaEnglish
Canread,understand;
Alsocomprehend&cantrainothers
8
Reading Beginningtoread,hasnativelanguageimpact
Canread,identify
words,buildsimple3/4/5letterwords
easily
Canread,understand,buildwords,readsimplesentences;
Alsocomprehend
Canread,understand,buildwords,readsimplesentences;
Alsocomprehend
Confident,readsimpleandcomplexsentenceswith
punctuation,comprehend,spellalsobuildwords
6
Interpersonalcommunication
Isshy,doesn’t
talk/express
Hesitatestocommunicate–duetolackofconfidence/ability,cantalktoknownpeople
Cantalktounknownpeople,lessconfident,doesnot
express,hashardtimeworkingasa
team
Cantalktounknownpeople,confident,
can'texpress,hashard
timeworkingasateam
Confident,cantalktoanyone,
expresswell,workswellintheteam
8
Bodylanguage Isshy,notopento
communicate,hashardtime
makingfriends
KnowsbasicsofBodylanguage,practicessometimes
KnowsbasicsofBodylanguage,practicesmosttimes,hasless
confidenceinpresentingcontent
Knowsandpracticesgoodbodylanguagealltimes,canpresentcontent
Knowsandpracticesgoodbodylanguagealltimes,isanexample,Leadsthepacktogetbetter
8
Average/TotalMarks:(8+6+8+8)/4 7.5=8marks
Communication Skills (20EG01P)
Scheme of Valuation for Semester End Examination (SEE)
Serial no Assessment Evidence Marks Conversion
1 Portfolio Evaluation-UNIT1:English–Introduction
Work Book 15
40 Marks
2 Portfolio Evaluation-UNIT2:Communication
Work Book 15
3 Portfolio Evaluation-UNIT3:VerbalCommunication
Work Book 15
4 Portfolio Evaluation- UNIT-4:Non-VerbalCommunication:
Work Book
15
5 Portfolio Evaluation-UNIT-5:English-ReadingSkills,Grammar&Vocabulary
Work Book 15
6 Anyoneactivitythroughcommunicationtools-Byqualitativeassessment(Rubrics).
BTE Answer scripts
25
TOTAL 100
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20ME12P Semester I/II
CourseTitle ComputerAidedEngineeringDrawing CourseGroup MechanicalandAllied
courses
No.ofCredits 4 TypeofCourse Lecture&Practice
CourseCategory PC78HrsPerSemester(L:T:P)=1:0:2
6HrsPerWeek
Prerequisites Enthusiasmtolearnthesubject/Visualizing/Creativity TeachingScheme Practical
CIEMarks 60 SEEMarks 40
1.COURSERATIONALE:
Engineering Drawing is an effective language of engineers. It is the foundation block whichstrengthenstheengineering&technologicalstructure.Moreover,itisthetransmittinglinkbetweenideasandrealization.
2.LISTOFCOMPETENCIES:
Thecoursecontentshouldbetaughtandimplementedwiththeaimtodevelopdifferenttypesofskillsleadingtotheachievementofthefollowingcompetencies:1. Prepare engineering drawings both manually and using CAD with given geometrical
dimensionsusingprevailingdrawingstandardsanddraftinginstruments.2. Visualizetheshapeofsimpleobjectfromorthographicviewsandviceversa
3.COURSEOUTCOMES:
CO1 AbletousedrawinginstrumentsandAdoptthestandards,dimensioningandconstructappropriatedrawingscales,intechnicaldrawingdevelopment.
CO2 Abletodrawtheprojectionsofobjectsinallplanesandlearndisplayingtechniquesforgraphicalcommunicationindesignprocess.
CO3 AbletoSketchorthographicprojectionsintoisometricprojectionsandviceversa.
CO4 Use computer software and Apply computer aided drafting tools to create 2D /3 Dengineeringdrawings
4.INSTRUCTIONALSTRATEGY:
1. Teacher should show model of real of the component/part whose drawing is to be made.Emphasisshouldbegivenoncleanliness,dimensioningandlayoutofsheet.
2. Focusshouldbeonproperselectionofdrawinginstrumentsandtheirproperuse.3. The institute shouldprocureAutoCADorother engineeringgraphics software forpractice in
engineeringdrawings.4. SeparatelabsforpracticeonEngineeringgraphicsSoftwareshouldbeestablished.
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5-aCONTENTS:
Thefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillsetsforachievingCOtoattainidentifiedskillsets
5-bCOURSECONTENTDETAILS:
Unit MajorLearningTopicsandSub-Topics
Outcomes(incognitivedomain)
HoursL-T-P
UNIT-1
Basicelem
entsofDrawing
1.1 Listthedifferentdrawinginstrumentsandapplication
1.2 Conventionoflinesanditsapplication(Thick,Thin,Axisetc.,)
1.3 Practiceuseofdrawinginstruments1.4 Representativefraction1.5 Scales-FullScale,ReducedScaleand
EnlargedScale1.6 Dimensioning
a. AlignedsystemandUnidirectionalsystemintheSketches
b. ChaindimensioningandParalleldimensioning
1.7 Constructdifferentpolygons
1. Drawingequipments,instrumentsandmaterials.
2. Equipments-types,specifications,methodtousethem,applications.
3. Instruments-types,specifications,methodstousethoseandapplications.
4. Pencils-grades,applications,Differenttypesoflines.
5. Scalingtechniqueusedindrawing.
6. Dimensioningmethods.-Alignedmethod.Unilateralwithchain,paralleldimensioning.
7. Constructionsofgeometricalfigures
4-0-8
UNIT-2
IntroductiontoProjections
2.1 IntroductiontoProjections-PrinciplePlanesofProjectionandPrincipleViews
2.2 IntroductiontoFirstangleandThirdanglemethod,theirsymbols
2.3 ProjectionofpointsinAll4Quadrants
1. Referenceplanes,orthographicprojections.
2. Conceptofquadrant,1stangleand3rdangleprojectionandtheirsymbols.
3. Projectionofpoints.
8-0-16
2.4 ProjectionofLinesa) Paralleltoboththeplanesb) Paralleltooneand
Perpendiculartoanotherc) ParalleltooneandInclinedto
another
1. Projectionoflinesdeterminationoftruelengthandinclinationsforfollowingcases.
(a) Lineparalleltooneorboththeplane.
(b) Lineperpendiculartooneoftheplane.
(c) Lineinclinedtooneplaneandparalleltoanother.
2.5 Projectionofplanesurfaces.a) Paralleltooneplaneand
Perpendiculartoothertwo
b) PlanesPerpendiculartooneplaneandinclinedtotheother
(RestingonEdge,Corner,InclinedtoHPAndVP)
1. ProjectionofPlanes.(a) Typesofplanes.(b) Projectionofplanesparalleltooneofthereferenceplanes.
(c) Projectionofplaneinclinedtoonereferenceplaneandperpendiculartoanother.
Note:Triangle,Square/rectangle,pentagon,hexagonandcircleshapeshouldbeincludedinvariousplaneproblems.
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2.6ProjectionofSolidsfortheaboveconditions
1. Projectionsofsolidsinvariouspositionswithrespecttothereferenceplanes.(Parallel,perpendicularandinclinedtoHPand/orVP.)
UNIT-3
EXPOSURETOCAD
3.1 Introduction to CAD- Hardwarerequirements.3.2VariousCADsoftwareavailable3.3 Familiarization of CAD window -Commands like New file, Saving thefile, Opening an existing drawing file,Creatingtemplates3.4 Setting up new drawing: Units,Limits, Grid, Snap. Standard sizes ofsheet.3.5SelectingVariousplottingparameterssuchasPapersize,paperunits,Drawingorientation, plot scale, plot offset, plotarea,printpreview
3.6DrawbasicentitieslikeLine,Circle,Arc,Polygon,Ellipse,Rectangle,Multiline,Dimensioning,InsertingtextApplyingconstraints-horizontal,vertical,parallel,concentric,perpendicular,symmetricequal,collinear3.7InserttitleblockforthedrawingandtakethePrintout
3.8 Create objects by applyingconstraints and convert the objects tofull scale , reduced scale and enlargedscale
3.9 Apply copy, mirroring, array, filletandtrimontheobjectcreated
1. Computer graphics & itsterminology.
2. CADdefinition,concept&need.3. CommandsusedinCAD4. Functional areas of CAD. -
Coordinatesystems.5. Familiarization of Cad
commands6. Draw simple Geometrical
figuresusingCAD
3-0-6
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UNIT-4
Orthographicprojections
4.1 Introduction to orthographic,Isometricprojections4.2ConversionofpictorialviewintoOrthographicViews(USINGSKETCHBOOKANDCAD)
1.Typesofprojections-orthographic,isometric projections: concept andapplications.2 Various term associated with
orthographicprojections.(a) Theoryofprojection.(b) Methodsofprojection.(c) Orthographicprojection.(d) Planesofprojection.3. Conversion of simple pictorialviews into Orthographic views.Illustrative problems onorthographicprojection.Note:(1) Problemshouldberestrictedupto-Front view/Elevation, Topview/PlanandSideviewsonly.
UseFirstAngleMethodonly.
2-0-4
UN
IT-5
Isometricprojections 5.1IntroductiontoIsometricProjections
5.2IsometricScalesandNaturalScale5.3 Isometric View and IsometricProjection5.4 Conversion of Orthographic ViewsintoIsometric(USINGSKETCHBOOKANDCAD)
1. Isometricaxis,linesandplanes.2. Isometricscales.3. Isometricviewandisometric
drawing.4. Differencebetweenisometric
projectionandisometricdrawing.5. Illustrative problems limited to
Simpleelements
2-0-4
UNIT-6
CADDrafting
6.1 Draw different types of 2D/3Dmodeling entities using viewingcommands, to view them (Problemssolved in chapter no 3 and 4 i.eOrthographic,isometricprojection).6.2 2D/3D modeling for Threadprofiles,nuts,bolts,studs,setscrews,washer,Lockingarrangements.(USINGCAD)
1Differencebetween2D&3Dmodels.
2.2D/3D modeling – concept, Simpleobjects
7-0-14
TOTAL 26-0-52
6.LISTOFPRACTICALEXERCISES:
The exercises/practical/experiments should be properly designed and implemented with an attempt to develop different types of skills leading to the achievement of the competency. Following is the list of exercises/practical/experiments for guidance.
Sl.No
UnitNo
PracticalExercises(OutcomesinPsychomotorDomain) Hours
1 1
1.Teacherwilldemonstratea:Useofa.Drawinginstruments.b.PlanningandlayoutasperIS.c:Scalingtechnique.
1-0-2
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2.Drawfollowing.Problem–1Drawinghorizontal,vertical,30degree,45degree,60&75degreeslinesusingTeeandSetsquares/drafter.(Drawingsheet)Problem–2Indicatedifferentconventionoflinesonthedrawing..(Drawingsheet)
1-0-2
Problem–3CopythesketchtotherequiredscaleanddimensioningadoptingrightsystemandpositioningofdimensionsusingTeeandSetsquares/drafter.(Drawingsheet)
1-0-2
Problem4.DrawregulargeometricconstructionsPentagon,Hexagon,Square,circle,Triangleandothershapes..(Drawingsheet)
1-0-2
2 2
FirstangleProjectionsymbolProblem5:DrawProjectionofpointsin1S ,2nd,3 dand4 Quadrants.(Drawingsheet)
2-0-4
Problem6:DrawProjectionofLinesa)Paralleltoboththeplanesb)ParalleltooneandPerpendiculartoanotherc)ParalleltooneandInclinedtoanother..(Drawingsheet)
1-0-2
Problem7:DrawProjectionofplanesurfaces.a)ParalleltooneplaneandPerpendiculartoothertwo(RestingonEdge,Corner,InclinedtoHPAndVP)
1-0-2
Problem8:PlanesPerpendiculartooneplaneandinclinedtotheother(RestingonEdge,Corner,InclinedtoHPAndVP)(Drawingsheets)
1-0-2
2 2Problem9:DrawProjectionofSolidsfortheaboveconditions(RestingonEdge,Corner,InclinedtoHPAndVP)(Drawingsheet)
3-0-6
3 3
UseofCADcommands,plottingthedrawing 1-0-2
Problem10:Drawingbasicentities:Circle,Arc,Polygon,Ellipse,Rectangle,Multiline
1-0-2
ApplyingconstrainsdrawbasicentitiesInserttitleBlock(CADDrawingsandPrintout)
1-0-2
4 4Problem11:DrawOrthographicviewsforthegivenobject.(SketchbookandCADDrawing)
2-0-4
5 5Problem12:DrawIsometricprojectionsforthegivenOrthographicviews(SketchbookandCADDrawing)
2-0-4
6 6
Problem13:ProduceOrthographic(2D)DrawingsinCAD-Chap3Problem14:ProduceIsometricand3DDrawingsinCAD–Chap4(CADDrawingsandPrintout)
5-0-10
Problem15:create3DmodelsofMechanicalElementssuchasHexagonalheadedbolt,Simpletoy,ballbearing(CADDrawingsandPrintout)
2-0-4
TOTAL 26-0-52
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Note:Usebothsidesofsheet.Forexample,drawsheetnumber2onbacksideofsheetnumber1,4onbackof3,andlikewise.
1 Theory & practice should be in first angle projections and IS codes should be followedwhereverapplicable.
2 Thedimensionsofline,axes,distances,angle,sideofpolygon,diameter,etc.mustbevariedforeachstudent inbatchsothateachstudentwillhavesameproblems,butwithdifferentdimensions.
3 The sketchbookhas to containdataof all problems, solutionsof all problemsand studentactivitiesperformed.
4 Students’ activities are compulsory to be performed. A hand out containing applicablestandardsfromIScodesincludingtitleblockasperISstandardshouldbegiventoeachstudentbyconcernedteacher.
5 EndSemesterExaminationwillbeconductedinpracticalmodefor100marksandwieghtageisreducedfor40marks.
6 Studentsaretobeassessedforcompetenciesachieved.
7.SUGGESTEDLISTOFSTUDENTACTIVITIES:
SL.NO. ACTIVITY 1 Sketch the combinations of set squares to draw angles in step of 150.( 150, 300 , 450 , 600 ,
750 ,900 , 1050 , 1200 , 1350 , 1500 , 1650 , 1800). 2 Take two simple objects. Sketch isometric of them. Also draw orthographic projections of
them (all views). 3 Take one circular shape. Assume one point on circumference and mark it. Roll that shape
on flat and circular surface. Observe the path of point. 4 List at least two questions individually which you would like to ask for followings: 5 Prepare a 2D drawing using AutoCAD and 2D parametric sketcher environment. 6 Prepare 3D solid models using AutoCAD any on e mechanical component (Four components).
8.SUGGESTEDLEARNINGRESOURCES:
1. Bureau of Indian Standards. Engineering Drawing Practice for Schools and Colleges IS: Sp-46. BIS. Government of India, Third Reprint, October 1998; ISBN: 81-7061-091-2.
2. Bhatt, N. D. Engineering Drawing. Charotar Publishing House, Anand, Gujrat 2010; ISBN: 978-93-80358-17-8.
3. Jain &Gautam, Engineering Graphics & Design, Khanna Publishing House, New Delhi (ISBN: 978- 93-86173-478)
4. Jolhe, D. A. Engineering Drawing. Tata McGraw Hill Edu. New Delhi, 2010; ISBN: 978-0-07-064837-1
5. Dhawan, R. K. Engineering Drawing. S. Chand and Company, New Delhi; ISBN: 81-219-1431-0.
6. Shah, P. J. Engineering Drawing. S. Chand and Company, New Delhi, 2008, ISBN:81-219-2964-4.
7. Kulkarni, D. M.; Rastogi, A. P.; Sarkar, A. K. Engineering Graphics with AutoCAD . PHI Learning Private Limited-New Delhi (2010); ISBN: 978-8120337831.
8. Jeyapoovan, T. Essentials of Engineering Drawing and Graphics using AutoCAD. Vikas Publishing HousePvt. Ltd, Noida, 2011; ISBN: 978-8125953005.
9. Autodesk. AutoCAD User Guide. Autodesk Press, USA, 2015.
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10. Sham, Tickoo. AutoCAD 2016 for Engineers and Designers .Dreamtech Press; Galgotia Publication, New Delhi, 2015; ISBN 978-9351199113.
9.SOFTWARE/LEARNINGWEBSITES:
1. https://www.youtube.com/watch?v=TJ4jGyDWCw2. https://www.youtube.com/watch?v=dmt6 n7Sgcg3. https://www.youtube.com/watch?v= MQScnLXL0M4. https://www.youtube.com/watch?v=3WXPanCq9LI5. https://www.youtube.com/watch?v=fvjk7PlxAuo6. http://www.me.umn.edu/coursesme2011/handouts/engg%20graphics.pdf7. https://www.machinedesignonline.com
10.MappingofCourseOutcomeswithProgrammeOutcomes(Suggestiveonly):
11.COURSEASSESSMENTANDEVALUATIONCHART:
Sl.No
Assessment Timeframeinsemester
Duration Maxmarks
Conversion
1. PortfolioEvaluationofDrawings(ManualDrawings-drawing
sheetmode)
Semester
- 20
20
2 SkillTest-1
(unit1and2-Manualbased)
Attheendof6 week 3Hrs
100
Skilltests-1istobe
reducedtowieghtageof20
3 SkillTest-2(Skilltest2isofCADbasedfromUnit4,5)
Attheendof9 week 3Hrs
100Averageoftwoskill
tests2and3(Bothskilltestsareto4 SkillTest-3 -Attheendof13
week 3Hrs100
Course CO’s ProgrammeOutcomes(PO’s)
1 2 3 4 5 6 7EngineeringGraphics CO1 3 0 0 3 0 0 0
CO2 3 0 0 3 0 0 0CO3 3 0 0 3 0 0 0CO4 3 0 0 3 0 0 0
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level0-NotMappedMethodistorelatethelevelofPOwiththenumberofhoursdevotedtotheCO swhichmapsthegivenPO.If>50%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel3If30to50%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel2If5to30%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel1If<5%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOisconsiderednot mappedi.e. Level0
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(Skilltest3isCADbased-Unit6)
bereducedto
wieghtageof20
independently)20
5 TotalContinuousInternalEvaluation(CIE)Assessment 606 SemesterEndExamination(SEE)Assessment
conductedfor100marks,finallyreducedto40markswieghtage
3Hrs 100 40
TOTAL 100
SchemeofValuationforEndExaminationSLNO QUESTIONS MARKS1. OneProblemsfromGeometricalconstructions/Projectionofpoints
(AnswerSheet)25
OR OneProblemsfromProjectionoflines
(AnswerSheet)25
2. OneProblemsfromProjectionofplanes(AnswerSheet)
25
OR OneProblemsfromProjectionofsolids
(AnswerSheet)25
3
Create3DdrawingforthegivenSketchandDimensioning(CAD) 40+10=50
TOTAL 10012.CADLaboratoryandOtherRequirementstoConductEngineeringGraphicsCourse
1. LatestConfigurationComputerswhichcanbeabletorunlatestanyComputerAidedDraftingSoftware.(AtleastOneComputerperstudentinpracticalsession.)-20no
2. AnylatestAuthorizedComputerAidedDraftingSoftware(20userlicenses)3. PlotterofsizeA2/A34. LCDProjector
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MODELQUESTIONBANK(Suggestiveonly)
1. a)Illustratetheelementsofdimensioningwiththehelpofasketch. b)Illustratethedimensioningofgivencommonfeatures:diameter,radius,chord,Arcandangle.2. a)Mentiontheusesofthefollowingdrawinginstruments. i)T-squareii)Setsquareiii)Bowcompassiv)Clinographv)Minidrafter
b)Mentiontheusesofthefollowingdrawinginstruments. i)Frenchcurvesii)Protractoriii)Clipsiv)ErasingShieldv)Draftingmachine3. DefineRF.MentionthetypesofscalesbasedonRF.4.Drawtheconventionalrepresentationoflines5Drawsixhorizontalparallellinesof50mmlongwith10mmintervals(Fig1). 6Drawsixverticalparallellinesof50mmlengthwith10mmintervals(Fig2)7Draw45°inclinedlines(Fig3).
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10DrawthepatterndrawinggivenFigure1,2,3
11a)Illustratetheelementsofdimensioningwiththehelpofasketch.
b)Illustratethedimensioningofgivencommonfeatures:diameter,radius,chord,Arc andangle.
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12Copythesketchto1:1scaleanddimensionitusingAlignedsystem.
13Copythesketchto1:1scaleanddimensionitusingunidirectionalsystemwithParalleldimensioningmethod.
14Copythesketchto1:1scaleanddimensionitusingAlignedsystemwithChaindimensioningmethod.
15Copythesketchto1:1scaleanddimensionitusingAlignedsystemwithParalleldimensioningmethod.
16Copythesketchto1:1scaleanddimensionitusingunidirectionalsystemwithChaindimensioningmethod
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17Copythesketchto1:1scaleanddimensionitusingunidirectionalsystemwithParalleldimensioningmethod.
15CopythesketchasshowninfigurebelowdimensionitinaChainandparalleldimensioning
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UNIT2PROJECTIONS
PROJECTIONSOFPOINTS
DrawthesymbolicrepresentationofFirstandThirdangleprojectionmethod.1. Drawtheprojectionsofthefollowingpoints:
i. Ais25mmabovetheHPand30mminfrontoftheVP.ii. BislyingonHPand45mminfrontofVP.iii. CislyingonVPand50mmaboveHP.iv. DliesinbothHPandVP.
2. ApointPis40mminfrontofVP;50mmaboveHPand30mminfrontofleftPP.Drawthethreeprincipalviewsofthepoint.
3. ApointQis30mminfrontofVP,40mmaboveHPand35mminfrontofrightPP.Drawthethreeprincipalviewsofthepoint.
4. Drawtheprojectionsofthefollowingpointsonacommonreferenceline:
a)PointPis25mmabovetheHPand40mmbehindtheVPb)PointQis30mmbelowtheHPand40mmbehindtheVPc)PointRis25mmabovetheHPandintheVP.d)PointSis30mmbelowtheHPandintheVPe)PointTis35mminfrontoftheVPandintheHP.
PROJECTIONSOFLINES
1. Drawthethreeviewsofaline70mmlongwhenitisparalleltobothHPandVP.Thelineis20mminfrontofVPand30mmaboveHP.
1. Drawthethreeviewsofaline80mmlongisperpendiculartoVPandparalleltoHP.TheendnearertoVPis20mmaboveHPand25mminfrontofVP.
2. Drawtheprojectionsofaline80mmlongplacedparalleltoVP,perpendiculartoHP.Thelineis70mminfrontofVPand60mminfrontofrightPP.thelowerendofthelineis30mmaboveHP.(Ref:KRGEd2018P151)
3. Drawtheprojectionsofaline80mmlongplacedparalleltoHP,perpendiculartoVPwiththerearendoftheline30mminfrontofit.Thelineis55mmaboveHPand50mminfrontoftherightPP.(Ref:KRGEd2018P152)
4. Drawthethreeprincipalviewsofaline80mmlongplacedparalleltoVPandperpendiculartoHP.Thelineis70mminfrontofVPand60mminfrontofrightPP.Thelowerendofthelineis30mmaboveHP.
5. Drawthethreeprincipalviewsofaline80mmlongwhenitisplacedparalleltobothHP&VP.Oneoftheendsofthelineis70mmaboveHP,60mminfrontofVPand30mminfrontoftherightPP.
6. AlineAB80mmlongisinclinedat30°toHPandparalleltoVP.Thelineis90mminfrontofVP.ThelowerendAis35mmaboveHP,110mminfrontoftherightPPandisawayfromitthanthehigherend.Drawthethreeprincipalviewsoftheline.
7. DrawtheprojectionsofalineAB,80mmlonginclinedat30°toHPandparalleltoVP.Thelineis40mminfrontofVP.ThelowerendAis20mmaboveHP.
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PROJECTIONSOFPLANESURFACE
1. Aregulartriangularlaminaofside30mmisplacedwithoneitscorneronHPsuchthatthesurfaceisinclinedat40°toHPandperpendiculartoVP.DrawitsTopandFrontviews.
2. Aregularsquarelaminaofside40mmisplacedwithoneitssideonHPsuchthatthesurfaceisinclinedat30°toHPandperpendiculartoVP.DrawitsTopandFrontviews.
3. Aregularpentagonallaminaofside30mmisplacedwithoneitssideonHPsuchthatthesurfaceisinclinedat45°toHPandperpendiculartoVP.DrawitsTopandFrontviews.
4. Aregularhexagonallaminaofside30mmisplacedwithoneitscorneronHPsuchthatthesurfaceisinclinedat45°toHPandperpendiculartoVP.DrawitsTopandFrontviews.
5. Acircularlaminaof40mmdiameterliesonHPsuchthatitssurfaceisinclinedat40°toHP.Drawitsfrontandtop.
6. Anequilateraltriangularlaminaofside40mmrestswithoneitssidesonHPsothatthesurfaceofthelaminaisinclinedat30°toHP.Thesideonwhichthelaminarestsisinclinedat45°toVP.Drawtheprojectionsofthelamina.
7. Anequilateral triangular laminaof sides30mm is restingwithoneof its cornersonHP.Thesurfaceofthelaminaisinclinedat45°toHPandthesideoppositetothecorneronwhichthelaminarestsisinclinedat45°toVP.Drawtheprojectionsofthelamina.
8. Asquarelaminaof40mmsiderestswithoneofitssidesonHPsothatthesurfaceofthelaminaisinclinedat30°toHP.Thesideonwhichthelaminarestsisinclinedat45°toVP.Drawthetopandfrontviewsofthesquarelaminainthisposition.
9. Asquarelaminaof40mmsidesrestswithoneofitscorneronHP.Thediagonalpassingthroughthiscornerisinclinedat45°toHPandappearstobeinclinedat45°toVP.Drawitsprojections.
PROJECTIONSOFSOLIDS
1. Atriangularprismofbaseedge40mmandheight65mmrestswithoneofitsbaseedgesonHPsothattheaxisoftheprismisinclinedat30°withHP.DrawthetopandfrontviewswhentheaxisoftheprismisparalleltoVP.
2. Asquareprismofbaseedge40mmandheight70mmrestswithoneofitsbaseedgesonHP.Theaxisoftheprismisinclinedat45 toHPandparalleltoVP.Drawthetopandthefrontviewsof
theprism.3. Apentagonalprismofbase35mmandheight60mmhasitsbaseedgeonHP.Drawthetopand
frontviews,ifthebaseoftheprismisinclinedat30°totheHP.TheaxisoftheprismisparalleltotheVP.
4. AHexagonalprismofbase35mmandheight60mmisrestingwithitsbaseedgeonHPsothattheaxisisinclinedat45°andparalleltoVP.Drawitstopandfrontviews.
5. Atriangularpyramidofbaseedge40mmandheight65mmisrestingwithoneofitsbasecorneronHPsothattheaxisofthepyramidisparalleltoVPandinclinedat45°toHP.Drawthetopandfrontviews.
6. DrawthetopandfrontviewsofahexagonalpyramidrestingwithoneofitsbasecorneronHPsuchthattheaxisofthepyramidisinclinedat30°toHP.Thehexagonalpyramidhasitsbaseedgesas30mmandaxisheightas60mm.
7. Apentagonalpyramidofbaseedge30mmandaxisheight65mmrestswithoneofitsbasecornersonHPsothatthebaseofthepyramidisinclinedat45°totheHP.DrawtheprojectionsiftheaxisofthepyramidisparalleltotheVP.
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UNIT4ISOMETRICPROJECTIONS
1. .Drawtheisometricviewofthemachinecomponentwhoseorthographicviewsaregiven
below:1.
2.
3.
4.
5.
6.
7.
8.
9.
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4. Create3DmodelusingCADofthemachinecomponentwhoseorthographicviewsaregivenbelow
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore CourseCode 20AU01T Semester I
CourseTitle ENVIRONMENTALSUSTAINABILITY CourseGroup Audit
No.ofCredits 2 TypeofCourse Lecture
CourseCategory AU TotalContactHours2HrsPerWeek
26HrsPerSemester
Prerequisites BasicEnvironmentalScience TeachingScheme (L:T:P)=2:0:0
CIEMarks 50 SEEMarks No COURSEOBJECTIVES:
Techniciansworking in industries or elsewhere essentially require the knowledge of environmentalsciencesoastoenablethemtoworkandproducemostefficient,economicalandeco-friendlyfinishedproducts.1. Solvevariousengineeringproblemsapplyingecosystemtoproduceeco–friendlyproducts.2. Userelevantairandnoisecontrolmethodstosolvedomesticandindustrialproblems.3. Userelevantwaterandsoilcontrolmethodstosolvedomesticandindustrialproblems.4. Torecognizerelevantenergysourcesrequiredfordomesticandindustrialapplications.5. Solvelocalsolidande-wasteproblems.
COURSEOUTCOMES:
Attheendofthecoursestudentwillbeabletoknow:CO1 Importanceofecosystemandterminology.
CO2 Theextentofairpollution,effects,controlmeasuresandacts.
CO3 Theextentofnoisepollution,effects,controlmeasuresandacts.
CO4 Thewaterandsoilpollution,effects,controlmeasuresandacts
CO5 Differentrenewableenergyresourcesandefficientprocessofharvesting.
CO6 SolidWasteManagementandEnvironmentalacts.
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COURSECONTENT:
Marks:15 Unit-1Ecosystem AllottedHrs:03
Structureofecosystem,Biotic&Abioticcomponents,Aquatic(LenticandLotic)andterrestrialecosystem.Global
warming-Causes,effects,GreenHouseEffect,Ozonedepletion.
Marks:20 Unit-2AirPollution AllottedHrs:03
Airpollution,Natural andmanmadesourcesof airpollution,Effectsof airpollution.AirPollutantsandTypes.
Control of air pollutants by Cyclone separator and Electrostatic Precipitator, Air (prevention and control of
pollution)act1981
Marks:10 Unit-3NoisePollution: AllottedHrs:02
Noisepollution:sourcesofpollution,measurementofpollutionlevel,EffectsandControlofNoisepollution,Noise
pollution(RegulationandControl)Rules,2000
Marks:20 Unit-4WaterandSoilPollution: AllottedHrs:06
WaterpollutionandSourcesofwaterpollution,Typesofwaterpollutants,Characteristicsofwater
pollutants,controlmeasuresofwaterpollution.
DefinitionandlistunitoperationsinwaterandWastewaterTreatmentprocess,Water(preventionandcontrolof
pollution)act1974,Waterconservation–ImportanceofRainwaterHarvesting.
Soil pollution, Causes, Effects and Preventive measures of Soil Pollution due to Excessive use of Fertilizers,
PesticidesandInsecticides
Marks:20 Unit-5RenewablesourcesofEnergy AllottedHrs:07
SolarEnergy:BasicsofSolarenergy.Definitionandadvantagesofadvancedsolarcollectors.Solarwaterheater
andSolarstillsandtheiruses.
Biomass:Overviewofbiomassasenergysource.Thermalcharacteristicsofbiomassasfuel.
Windenergy:Currentstatusandfutureprospectsofwindenergy.WindenergyinIndia.
NeedofnewEnergysources,Differenttype’snewenergysources.EnvironmentalbenefitsofNewEnergy
Sources-Hydrogenenergy,Oceanenergyresources,Tidalenergyconversion.
Marks:15 Unit-6SolidWasteManagementandEnvironmental
Acts
AllottedHrs:05
Solidwastegeneration,SourcesandcharacteristicsofMunicipalsolidwaste,SolidWasteManagementrules
2016-3RinSWM.
E-Wastegeneration,Sourcesandcharacteristics,Ewastemanagementrules2016
PlasticWastegeneration,Sourcesandcharacteristics,Recycledplasticrules2016
ImportanceofEnvironment(protection)act1986
Occupationalhealthandsafetymeasures.
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UnitNo&Name DetailedCourseContent CO PO ContactHrs
1.Ecosystem
Structureofecosystem,Biotic&Abioticcomponents,Aquatic(LenticandLotic)andterrestrialecosystem.
CO1 1,5,7 1
Globalwarming-Causes,effects. CO1 1,5,7 2GreenHouseEffect,Ozonedepletion-Causes,effects CO1 1,5,7 3
2.AirandPollution
Airpollution,Naturalsourcesofairpollution,ManMadesourcesofairpollution
CO2 1,5,7 4
AirpollutantsandTypes,EffectsofParticulatePollutantsandcontrolbyCycloneseparator
CO2 1,5,7 5
EffectsofParticulatePollutantsandcontrolbyElectrostaticPrecipitator,Air(preventionandcontrolofpollution)act1981.
CO2 1,5,7 6
3.NoisePollution
Noisepollution:sourcesofpollution,MeasurementofNoisepollutionlevel.
CO3 1,5,7 7
EffectsandControlofNoisepollution.Noisepollution(RegulationandControl)Rules,2000
CO3 1,5,7 8
4.WaterandSoilPollution:
Sourcesofwaterpollution.Typesofwaterpollutants,Characteristicsofwaterpollutants.
CO4 1,5,7 9
Controlmeasuresofwaterpollution. CO4 1,5,7 10DefinitionandlistunitoperationsinwaterandWastewaterTreatmentprocess,Water(preventionandcontrolofpollution)act1974.
CO4 1,5,7 11
Waterconservation–ImportanceofRainwaterHarvesting CO4 1,5,7 12Soilpollution,CausesandEffectsduetoFertilizers,PesticidesandInsecticides
CO4 1,5,7 13
PreventivemeasuresofSoilPollutionduetoExcessiveuseofFertilizers,PesticidesandInsecticides.
CO4 1,5,7 14
5.Renewable
sourcesofEnergy
SolarEnergy:BasicsofSolarenergy.SolarcollectorsandadvantagesofAdvancedsolarcollectors.
CO5 1,5,7 15
Solarwaterheater,Solarstillsandtheiruses. CO5 1,5,7 16Biomass:Overviewofbiomassasenergysource.Thermalcharacteristicsofbiomassasfuel. 17
Windenergy:Currentstatusandfutureprospectsofwindenergy.WindenergyinIndia.
CO5 1,5,7 18
NeedofnewEnergysources,Differenttype’snewenergysources.EnvironmentalbenefitsofNewEnergySources-Hydrogenenergy
CO5 1,5,7 19
EnvironmentalbenefitsofNewEnergySources-Oceanenergyresources
CO5 1,5,7 20
EnvironmentalbenefitsofNewEnergySources-Tidalenergyconversion.
CO5 1,5,7 21
6.SolidWaste
ManagementandEnvironmental
Acts
Solidwastegeneration,Sources,CharacteristicsofsolidwasteSolidWasteManagementrules2016
CO6 1,5,7 22
E-WastegenerationSourcesandcharacteristics,Ewastemanagementrules2016
CO6 1,5,7 23
PlasticWastegenerationSourcesandcharacteristics,PlasticWasteSourcesandcharacteristics
CO6 1,5,7 24
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Recycledplasticrules2016,ImportanceofEnvironment(protection)act1986,
CO6 1,5,7 25
Occupationalhealthandsafetymeasures. CO6 1,5,7 26Total 26
References:
(a)SuggestedLearningResources:Books:
1. S.C.Sharma&M.P.Poonia,EnvironmentalStudies,KhannaPublishingHouse,NewDelhi2. C.N.R.Rao,UnderstandingChemistry,UniversitiesPress(India)Pvt.Ltd.,2011.3. Arceivala,SoliAsolekar,Shyam,WastewaterTreatmentforPollutionControland
Reuse,Mc-GrawHillEducationIndiaPvt.Ltd.,NewYork,2007,ISBN:978-07-062099.4. Nazaroff,William,Cohen,Lisa,EnvironmentalEngineeringScience,Willy,NewYork,2000,
ISBN10:0471144940.5. O.P. Gupta, Elements of Environmental Pollution Control, Khanna PublishingHouse, New
Delhi6. Rao, C. S., Environmental Pollution Control and Engineering, New Age International
Publication,2007,ISBN:81-224-1835-X.8. Rao,M.N.Rao,H.V.N,AirPollution,TataMc-GrawHillPublication,NewDelhi,1988,ISBN:0-
07-451871-8.9. FrankKreith,JanFKreider,PrinciplesofSolarEngineering,McGraw-Hill,NewYork;1978,
ISBN:9780070354760.7. AldoVieira,DaRosa,Fundamentalsofrenewableenergyprocesses,AcademicPressOxford,
UK;2013.ISBN:9780123978257.10. Patvardhan,A.D,IndustrialSolidWaste,TeriPress,NewDelhi,2013,ISBN:978-81-7993-502-
611. Metcalf&Eddy,WastewaterEngineering,Mc-GrawHill,NewYork,2013,ISBN:077441206.12. KeshavKant,AirPollution&Control,KhannaPublishingHouse,NewDelhi(Edition2018)
(b)Opensourcesoftwareandwebsiteaddress:1)www.eco-prayer.org2)www.teriin.org3)www.cpcp.nic.in4)www.cpcp.gov.in5)www.indiaenvironmentportal.org.in6)www.whatis.techtarget.com7)www.sustainabledevelopment.un.org8)www.conserve-energy-future.com
Teachersshouldusethefollowingstrategiestoachievethevariousoutcomesofthecourse.•Differentmethodsofteachingandmediatobeusedtoattainclassroomattention.•Massiveopenonlinecourses(MOOCs)maybeusedtoteachvarioustopics/subtopics.•15-20%ofthetopicswhicharerelativelysimplerordescriptiveinnatureshouldbegiventothestudents for self-learning and assess the development of competency through classroompresentations.•Micro-projectsmaybegiventogroupofstudentsforhand-onexperiences
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•EncouragingstudentstovisitsitessuchasRailwaystationandresearchestablishmentaroundtheinstitution.
MappingofCourseOutcomeswithProgrammeOutcomes
CO CourseOutcome POMapped
CognitiveLevel
R/U/A
TheorySessionsInHrs
AllottedmarksforCIEoncognitive
levels
TOTAL
R UCO1 Importance Of ecosystem
andterminology1,5,7 R,U 03 02 02 04
CO2 The extent of air pollution,effects, control measuresandacts.
1,5,7 R,U 03 03 02 05
CO3 The extent of noisepollution, effects, controlmeasuresandacts.
1,5,7 R,U 02 03 02 05
CO4 The water and soilpollution, effects, controlmeasuresandacts
1,5,7 R,U 06 03 02 05
CO5 Differentrenewableenergyresources and efficientprocessofharvesting.
1,5,7 R,U 07 03 02 05
CO6 Solid Waste ManagementandEnvironmentalacts.
1,5,7 R,U 05 02 04 06
TotalHoursofinstruction 26 30R-Remember;U-Understanding.
LevelofMappingPO’swithCO’s
Course
CO’sProgrammeOutcomes(PO’s)
1 2 3 4 5 6 7
EnvironmentalScience
CO1 3 0 0 0 2 0 1CO2 3 0 0 0 2 0 1CO3 3 0 0 0 2 0 1CO4 3 0 0 0 2 0 1CO5 3 0 0 0 2 0 1CO6 3 0 0 0 2 0 1
Level 3- Highly Mapped, Level 2-Moderately Mapped, Level 1-Low Mapped, Level 0- NotMappedMethodistorelatethelevelofPOwiththenumberofhoursdevotedtotheCO swhichmapsthegivenPO.If>50%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel3If30to50%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel2If5to30%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOismappedatLevel1If<5%ofclassroomsessionsrelatedtotheCOareaddressingaparticularPO,itisconsideredthatPOisconsiderednot mappedi.e. Level0
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CourseAssessmentandEvaluationChart
Sl.No
Assessment Duration Maxmarks Conversion
1. CIEAssessment1(WrittenTest-1-Attheendof3 dweek
80minutes 30 Averageofthreewritten
tests30
2. CIEAssessment2(WrittenTest-2)-Attheendof7 week
80minutes 30
3. CIEAssessment3(WrittenTest-3)-Attheendof13 week
80minutes 30
4 CIEAssessment4(MCQ/Quiz)-Attheendof5 week
60minutes 20 Averageofthree205 CIEAssessment5(OpenbookTest)-Attheend
of9 week60minutes 20
6 CIEAssessment6(Studentactivity/Assignment)-Attheendof11 week
60minutes 20
7. TotalContinuousInternalEvaluation(CIE)Assessment 50
TotalMarks
50
Note:
1. AveragemarksofThreeCIEshallberoundedofftothenexthigherdigit.2. Assessmentofassignmentandstudentactivityisevaluatedthroughappropriaterubricsby
therespectivecoursecoordinator.Thesecuredmarkineachcaseisroundedofftothenexthigherdigit.
MANDATORYSTUDENTACTIVITY:EACHSTUDENTHASTOSELECTANYONEOFTHELISTED
1. Studentschoseonethingtoreduceathomeeachweekandwritejournalentriesabouttheirsuccessesandchallengesimplementingthechange.Inclass,theyformgroupsandcreate"DoYouKnow?"posters.
2. Studentspretendtheyarearchitectsandcomeupwithaseriesofdesignchangestomaketheirschoolmoreenvironmentally friendly.They thengrade theirprojectsaccording toarubric.
3. ApresentationforGreenTeamClubmemberstointroducethemselvesandthepurposeoftheir club.Theyexplainhow touse theirnew recyclingbins, in the classroomand in thecafeteria.
4. Everwonderwhat'sinyourschool'swaste?Thishands-onactivityhelpsstudentsassesstheirschool'swasteinordertothinkofwaystoreduceit.Theresultscanbeincorporatedintotheschool'srecyclingplan.
5. Howdowemeasureclimatechange?Whatactivitiescontributetoclimatechange?
6. 6.Startacompostorwormbin.Compostingisahands-onwaytolearnaboutimportantlifescience concepts suchasecosystems, foodwebsandbiodegradation. Studentsexperiencehowwormsandotherdecomposersrecyclefruitsandvegetablescrapsintocompost.Usethe
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compostinyourcollegegarden!Havegreenteamstudentsmakeupaskitandpresentdetailsabout thenewcompostingprogramtoall classrooms.Have themmakesigns for thebins(compost,recycle,andlandfill),monitorthewastecollectionatlunchtime,cartthefoodwastetothecompost,anddecidehowandwherethecompostwillbeused.
7. Paintpostersanddecoratebulletinboardsorthedoorstothecafeteriawithwaste-freelunchmessagestoannounceorsupportawaste-freeevent,andhavestudentsvotefortheirfavoriteposter.
8. Conductaclassroomaudittoidentifywasteandlookforideastoreduceandreuse.Empowerthestudenttosetgoals,searchforsolutionsandreviewprogress.
9. Goona field trip.Visityour local landfill, recyclingcenter,oranearbycomposing facilitywhere the students can see first-hand what is happening to waste and learn about thelifecycleofwasteanditsaffectontheenvironment.
10. Homeenergyaudit:Havestudentsmakea listofall theappliancesandlightbulbs intheirhouse.Howmuchenergydoestheirhouseuseifallthelightsareonfor4hoursperday?Iftheir appliances are on for 2 hours per day? Howmuch energy could they save if theyswitchedtoenergy-efficientappliancesorlightbulbs?
11. Userecycledmaterialinartprojects:Recycledmaterialscanmakebeautifulartprojectssuchas jewelry, planters, and bird houses. Incorporating materials that would otherwise bethrownawayintoartprojectscanshowyourstudentshowtofindnewusesfortheseitems.
12. Lifecycle :Onewaytoshowstudentswhathappenswhenyouputsomething in thetrashversusrecyclingorreusingtheobjectistodoalifecycleanalysis.Thisisaflowchartthatshows the environmental impacts of an object, from extracting the raw materials todecompositionandeverything inbetween.Whensomething isput in the trash insteadofbeingreusedorrecycled,thelifecycleassessmentwillshowabiggerenvironmentalimpact.When something is reused or recycled, the environmental impact is less because rawmaterialsdon’tneedtobeextractedtocreatesomethingnew.
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ModelQuestionPaperIATest(CIE)
Programme:Semester:ICourse:MaxMarks:30CourseCode:Duration:1Hr20minutesNameofthecoursecoordinator:Test:I/II/IIINote:Answeronefullquestionfromeachsection.Onefullquestioncarries10marks.Qn.No Question CL CO PO Marks
Section-11.a) b) c) 2.a) b) c)
Section-23.a) b) c) 4.a) b) c)
Section-35.a) b) c) 6.a) b) c)
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducationBoardofTechnicalExaminations,Bangalore
CourseCode 20PM01T Semester II
CourseTitle ProjectManagement
Skills CourseGroup PM
No.ofCredits 4 TypeofCourse Activitybasedstudy
CourseCategory TheorywithActivities TotalContact
Hours
6HrsPerWeek(2Theory+4hrsofclassroomactivities)78HrsPerSemester
Prerequisites 10thLevelMathematics Teaching
Scheme4hrsperweekclassroomsessionsdedicatedtocasestudies&activities
CIEMarks 50 SEEMarks 50
RATIONALE
ProjectManagementisaconfluenceofManagementprinciplesandEngineeringsubjectarea. This course enables the students to develop conceptualisation of EngineeringManagementprinciplesandapplythesamefortheirengineeringprojects,intheirdomains,example, Software Development project or Construction Project and so on. The courseintegratesthreecoreareasofPlanning,ExecutionandAuditingofProjects.
1.COURSESKILLSET
Studentwillbeableto:
1. Understand what constitutes a project, Plan for the execution of the project bybreakingintomanageableworkunits,andPreparenecessaryprojectartifacts
2. Track and control the Project while preparing verifiable records for ProjectInspectionsandAudits
3. InspectandAuditprojects forMilestonesorotherprojectcompletioncriteriaandothermetrics,Defectsandremediation,Projectlearnings
4. Gain knowledge and develop curiosity on latest technology trends in Projectmanagement
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2.COURSEOUTCOMES
Attheendofthecourse,studentwillbeableto
CO1 ApplytheconceptsofProjectManagementtorealprojectswhichareexpressedintheformoftheProjectreportsorEngineeringdrawings
CO2 EstimateProjectresourcesneeded Time,MaterialandEffort,andPlanforexecution
CO3
Understand,analyseandassesstherisksinvolvedinaprojectandplanformanagingthem
CO4 UseProjectManagementSoftwareandprocessestotrackandcontrolProjects
CO5 ConductinspectionofProjectsandauditprogressandbills
CO6 UnderstandtheDigitalTechnologytrendsinProjectmanagementandconceptslikeSmartcities
3. SUGGESTEDSPECIFICATIONTABLEWITHHOURS&MARKS
UNIT
NO UNITTITLETEACHING
HOURS
(L-T-P)
MARKSDISTRIBUTION(THEORY)R
LEVELU
LEVELA
LEVEL TOTAL
1 Introduction 02-00-04 8 8 4 20
2 ProjectAdministration 06-00-12 8 12 20 40
3 ProjectLifecycle 04-00-08 8 12 20 40
4 ProjectPlanning,SchedulingandMonitoring
06-00-12 8 12 20 40
5 ProjectControl,ReviewandAudit 06-00-12 8 12 20 40
6 DigitalProjectManagement 02-00-04 8 8 4 20
Total 26-00-
52=7848 64 88 200
Legends:R=Remember;U=Understand;A=Applyandabovelevels(Bloom’srevisedtaxonomy)
4.DETAILSOFCOURSECONTENT
Thefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillsetsforachievingCOtoattainidentifiedskillsets.
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UNITNO Unitskillset
(Incognitive
domain)Topics/Subtopics
Hours
L-T-P
1Introduction UseBasicScience,MathsskillstounderstandProjectmanagementandprojectplanning,executionandcontrol.
Introductionanddefinition,FeaturesofaProject,TypesofProjects,BenefitsandObstaclesinProjectManagement,ProjectManagementProfession,RoleofProjectmanager,Consultants,ProjectandOperation,ProjectManagementProcess,ProjectScope
02-00-04
2ProjectAdministration
AbletodevelopWBS,PEPandPMprocessesforProjectwithgiveninputs
ProjectAdministration,ProjectTeam,ProjectDesign,WorkBreakdownStructure(WBS),ProjectExecutionPlan(PEP),SystemsandProcedurePlan,ProjectDirection,CommunicationandCo-ordination,ProjectSuccessCaseStudyI
06-00-12
3ProjectLifecycle
UseprojectadministrationandprojectlifecycleknowledgetoAssessandplanforprojectrisk
ProjectLifeCycle,Phases-ProjectPlanning,ProjectExecution,ProjectClosure,ProjectRisks,ProjectCostRiskAnalysis,TimeandCostoverrunsCaseStudy2a
04-00-08
4.ProjectPlanning,ProjectSchedulingandProjectMonitoringandImplementation
Abletodevelopadetailedprojectplangiventheinputsonmanpower,fundsavailabilityandtimeavailability
ProjectPlanningFunction,Structure,ProjectScheduling,ProjectmonitoringandProjectevaluationCaseStudy2b
06-00-12
5.ProjectControl,ReviewandAudit
UseProjectManagementlifecycleknowledgetoControlprojectparameters,reviewandauditprojectperformance
ProjectControl,ProblemsofProjectControl,GanttCharts,MilestoneCharts,CriticalPathMethod(CPM),NetworkTechniqueinProjectScheduling,CrashingProjectDurationthroughNetwork,ProjectReview,InitialReview,PerformanceEvaluation,
06-00-12
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AbandonmentAnalysis,ProjectAudit
CaseStudy2c
6.DigitalProjectManagement
Understandlatesttrendsofdigitaltechnologiesimpactingthedomainofprojectmanagementandapplicationofthesameinmultiplescenario
DigitalTechnologytrendsinProjectmanagement,CloudTechnology,IoT,Smartcities,Dataandanalytics,casestudiesCasestudy3
02-00-04
1. MAPPINGOFCOWITHPO
CO CourseOutcome PO
MappedUNIT
LinkedCL
R/U/ASessions
inHrsTOTAL-
Marks
CO1
UnderstandtheconceptsofProjectManagementinrelationtorealprojectswhichareexpressedintheformoftheProjectreportsorEngineeringdrawingsCaseStudy-I
1,2,5,7 1,2 R/U/A
06
10
CO2 EstimateProjectresourcesneeded Time,MaterialandEffort,andPlanforexecutionCasestudy 2a
1,2,3,7 2,3 R/U/A
18
20
CO3 EvaluatetherisksinvolvedinaprojectandPlanformanagingthemCaseStudy-2a
1,2,3,7 2,3 R/U/A 12 20
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CO4 UseProjectManagementmethodswithSoftwareand/orprocessestotrackandcontrolProjectsCaseStudy 2b
1,4,6,7 4 R/U/A 18
20
CO5 ConductinspectionofProjectsandauditprogressandbillsCaseStudy2c
1,2,5,7 5 R/U/A 18
20
CO6 UnderstandtheDigitalTechnologytrendsinProjectmanagement,andEngineeringIndustriesCaseStudy3
1,5,7 6 R/U/A 06
10
78 100
CO’s ProgrammeOutcomes(PO
s)
1 2 3 4 5 6 7ProjectManagement CO1 3 3 0 0 2 0 1
CO2 3 3 3 0 0 0 1CO3 3 0 0 3 0 3 1CO4 3 0 0 3 0 3 1CO5 3 2 0 0 2 0 1CO6 3 0 0 0 2 0 2
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level0-
NotMapped
7.INSTRUCTIONALSTRATEGY
ThesearesampleStrategies,whichteachercanusetoacceleratetheattainmentofthevariouscourseoutcomes
1. Explicit instruction will be provided in intervention classes or by using differentdifferentiationstrategiesinthemainclassroom.
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2. Lecturermethod(L)doesnotmeanonlytraditionallecturemethod,butdifferenttypeofteachingmethodandmediathatareemployedtodeveloptheoutcomes.
3. Observing theway theirmore proficient peers use prior knowledge to solve currentchallengesandpersevere inproblemsolvingwillhelpstrugglingstudents to improvetheirapproachtoengagingwithrichcontextualproblems.
4. TopicsbeintroducedalwayswithareallifeexampleandthenansweringWhat,how,whyandwhen.
5. Theteacherisabletoshowdifferentwaystosolvethesameproblemandencouragethestudentstocomeupwiththeirowncreativewaystosolvethem.
6. Inaperfectworld,teacherwouldalwaysbeabletodemonstratehoweveryconceptcanbeappliedtotherealworld-andwhenthat'spossible,ithelpsimprovethestudents'understanding.Whenaconceptcannotbeappliedinthatmanner,wecanstillsharehowitmightbeappliedwithinmathematics.
8. SUGGESTEDLEARNINGRESOURCES:
SlNo. Author TitleofBooks Publication/Year
1
Dr.Lalitha
Balakrishnan&
Dr.Gowri
Ramachandran
ProjectManagement HimalayaPublishing,2019
2 ShaileshKumarShivakumar
CompleteGuidetoDigitalProjectManagement
Apress,2019
3PrasannaChandra
Projectplanning,analysis,selection,implementationandreview
TataMcGrawHill
4 GopalaKrishnan ProjectManagement McmillanIndiaLtd.
9.COURSEASSESSMENTANDEVALUATIONCHART
Sl.No Assessment Duration Max
marksConversion
1
CIEAssessment1(WrittenTest-1)Attheendof3rdweek 80minutes 30
Averageofthreewrittentests
30
2
CIEAssessment2(WrittenTest-2)Attheendof7thweek 80minutes 30
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Sl.No Assessment Duration Max
marksConversion
3
CIEAssessment3(WrittenTest-3)Attheendof13thweek 80minutes 30
4
CIEAssessment4(GroupAssignment-1)Attheendof5thweek 60minutes 20
Averageofthree
20
5
CIEAssessment5(GroupAssignment-2)Attheendof9thweek 60minutes 20
6
CIEAssessment6(IndividualStudentactivity/Assignment)Attheendof11thweek 60minutes 20
TotalContinuousInternalEvaluation(CIE)Assessment 50
8SemesterEndExamination(SEE)Assessment(WrittenTest)
3Hrs 100 50
TotalMarks 100
Note:
1. SEE(SemesterEndExamination)isconductedfor100Markstheorycourseforatime
durationof3Hrs
2. ThreeCIE(writtentest),eachof30marksforatimedurationof80minutesshallbe
conducted. Also, three CIE (MCQ or Quiz/Group Assignment/Individual student
activityorassignment)eachof20marksforthetimedurationof60minutesshallbe
conducted.Anyfractionatanystageduringevaluationwillberoundedofftothenext
higherdigit
3. Assessment of assignment and student activity is evaluated through
appropriaterubricsbytherespectivecoursecoordinator.Thesecuredmarkineach
caseisroundedofftothenexthigherdigit.
10DETAILEDCOURSECONTENT
UnitNoAndName
DETAILEDCOURSECONTENT CONTACT
HRSTOTAL
1.1Introduction 3
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UnitNoAndName
DETAILEDCOURSECONTENT CONTACT
HRSTOTAL
1.Introduction
1.2MeaningofProject
6
1.3DefinitionandNoChangeMode1.4FeaturesofaProject1.5TypesofProjects
1.6BenefitsofProjectManagement
1.7ObstaclesinProjectManagement
1.8ProjectManagement AProfession
1.9ProjectManagerandHisRole
1.10ProjectConsultants
1.11WhatisOperation? 3
1.12DifferencebetweenProjectandOperation
1.13WhatisProcessinProjectManagementandProcessGroups?
1.14WhatisScope?DifferencebetweenProjectGroupObjectivesand
1.15ProjectScope
2.ProjectAdministration
2.1EssentialsofProjectAdministration 3 182.2ProjectTeam2.3ProjectDesign2.4WorkBreakdownStructure(WBS)2.5ProjectExecutionPlan(PEP) 62.6ContractingPlan2.7WorkPackingPlan2.8OrganisationPlan 32.9SystemsandProcedurePlan2.10ProjectProcedureManual
2.11ProjectDiary 3
2.12ProjectExecutionSystem
2.13ProjectDirection
2.14CommunicationinaProject 3
2.15ProjectCo-ordination
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2.16Pre-requisitesforSuccessfulProjectImplementation
3.ProjectLifecycle
3.1Introduction 6 123.2PhasesofProjectLifeCycle3.3ProjectManagementLifeCycle General3.4ProjectPlanning3.5ProjectExecution3.6ProjectClosure3.7ProjectRisks 33.8TypesofRisks:Illustrations3.9RiskAssessmentTechniqueswithIllustrations3.10ProjectCostRiskAnalysis 3
3.11EstimatingTimeandCostOverrunRisks3.12Organisation/Procedural/SystemicReasonsforProjectCostOverruns3.13TimeOverruns
4.ProjectPlanning,SchedulingandMonitoring
4.1Introduction 6 18
4.2NatureofProjectPlanning
4.3NeedforProjectPlanning
4.4FunctionsofProjectPlanning4.5StepsinProjectPlanning
4.6ProjectPlanningStructure
4.7ProjectObjectivesandPolicies
4.8ToolsofProjectPlanning
4.9ProjectScheduling 6
4.10TimeMonitoringEfforts
4.11BoundingSchedules
4.12SchedulingtoMatchAvailabilityofManpower
4.13SchedulingtoMatchReleaseofFunds
4.14ProblemsinSchedulingReal-lifeProjects
4.15Introduction 3
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4.16SituationAnalysisandProblemDefinition
4.17SettingGoalsandObjectives
4.18GeneratingStructuresandStrategies
4.19Implementation
4.20WhatisProjectEvaluation? 3
4.21WhyisProjectEvaluationImportant?
4.22WhataretheChallengesinMonitoringandEvaluation?
5.ProjectControl,ReviewandAudit
5.1Introduction 6 18
5.2ProjectedControlPurposes
5.3ProblemsofProjectControl5.4GanttCharts
5.5MilestoneCharts
5.6CriticalPathMethod(CPM) 6
5.7ConstructionofaNetwork
5.8NetworkTechniqueinProjectScheduling
5.9CrashingProjectDurationthroughNetwork
5.10ProjectReview 3
5.11InitialReview
5.12PostAudit
5.13PerformanceEvaluation
5.14AbandonmentAnalysis
5.15ObjectivesofProjectAudit 3
5.16FunctionsofProjectAuditor5.17ProjectAuditProgramme5.18DifficultiesinEstablishingAuditPurposeandScope
6.DigitalProjectManagement
6.1DigitalTechnologytrendsinProjectmanagement
1 6
6.2CloudTechnology,IoT,ARandVRapplicationsinProjectmanagement,SmartCities
1
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6.3DataScienceandAnalyticsinProjectManagement
1
6.4CaseStudies 3
CaseStudies:
Pleasenote:TheTutorscaneitherusethefollowingCasestudiesandactivitiesorDesignontheirown,withtheoverallLearningOutcomesbeingmet.
CaseStudyI:ResidentialHouse–ProjectExecutionPlan
1. Dr.SunilKulkarniwantstobuildahouseonhis9000squarefeet(90x100)vacantplotinBengaluru.Hisrequirementsweregivenbelow.
i) Heliveswithhiswife,parentsandtwocollegegoingchildren.ii) Helikesopenspacearoundhishouseandlikestodogardeningduringfree
timeiii) HiswifeteachesYogaandabout30middleagedandoldpeopleattendthe
dailysessions.iv) Hehasabudget limitationof INR230,00,000 for thisprojectandwants to
present to hiswife on their 20thwedding anniversarywhich is 18monthsaway.
v) Hisparentscannotclimbstairsandhencepreferagroundfloorroomvi) Alltheroomsshouldhaveattachedbathrooms
How-evertheCivilcontractorwhotookthework,overshotthetimeandmoneyavailableandhenceDrSunilwasunhappywiththeArchitectfirmwhorecommendedtheContractor.
Task:
• Splittheclassintogroupsofthree• Askthemtoprepare2Ddrawings withPlan,Elevation,Sectionsandperspectives.• PreparethedetailedWBS,aProjectexecutionplanandProjectcommunicationplan
forcontractors• Estimatethequantities• Discussonthepossiblereasonsfordelayandmethodswithwhichperformanceto
bothtimeandbudgetcouldhavebeenachieved• Presentitinaseminar,witheachgroupgetting5-10minutestopresenttheiridea.
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CaseStudy2a:
The Columbus Hospital proposed in Hubli is a 200 bed speciality private hospital fortreatmentofCancer.Thehospitalwillcomeupona12acreplotbetweenHubli-Dharwad.Aleading construction company has come forward to complete the hospital works fromconcepttocommissioningin9months.Thepromotersarewillingtospendapremiumtocompletethehospitalin9monthtimeandarenotparticularabouttypeofconstruction,ie,RCC,Steelframeetc.Thekeyrequirementsareasfollows:
i) 200 bed hospital of which 40 are for critical care (ICU), 40 for pre and postOperativecare
ii) 4OperationTheatres-2Major(Minimum800SFTeach)and2minor(minimum400sfteach)
iii) OnefullfledgedDiagnosticlaboratory(1500Sft)iv) One24x7pharmacy(360Sftmin)v) Doctorsrooms,Nursesenclosures,Changeroomsvi) Officewithbillingcounters(min2000sft)foralladministrativestaffvii) Wheelchairparkingbays,Stretcherparkingbaysinallfloorsviii) OneCafetariawith50personcapacityix) OneconferenceroomwithMultimediaequipment(300sftmin)x) Parkingforambulances,4wheelers,twowheelersxi) Receptionandenquirycounterxii) Allamenitiesshouldbeaccessiblefordisabledpersonsxiii) Incinerator,Wastestorageanddisposalareaxiv) Generatorandfuelstoragearea
Discuss
i) Thevariousalternativeapproachesavailabletocompletethehospital.ii) LookintoNationalBuildingCodeandBISstandardsforarrivingatapproximate
(+/-10%)superbuilt-uparearequired,amenitiestobeplannediii) ThevariousphasesoftheprojectaccordingtoProjectlifecycleanddurationsiv) Prepare the detailed WBS, Project Organisation required and Project Dairy
templatev) PrepareaProjectPlanwithrisksinvolvedandtheriskmanagementplan.vi) Estimatethecostoftimeoverruniftheprojectisdelayedby114calendardays
duetoissueswithapprovals
CaseStudy2b:
Forcasestudy2above,prepareanImplementationPlanusingaspreadsheetsoftware.
Discuss
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i) What happens if a pandemic affects the project in its 7thMonth. How do youmitigatethepossibleissuesinimplementation?
ii) Whathappensifduringthefourthmonthofprojectstheclientdecidestoreducefundsforthemonthby50%?
CaseStudy2c:
Forcasestudy2above,prepareaCriticalPathmethodChart(CPM)showingallmainactivitiesintheWBSwithmilestones.
Discuss
i) What happens if the client decides to complete the ground floor roof 15daysearlier?
ii) Whathappens if theclient reduces the inflowofproject fundsby50%for themonth4?
iii) WriteanAuditreportfortheprojectattheendof6thmonth
CaseStudy3:
Thiswillbedoneasastudentactivityandhastwocomponents.
i) Researchon3Dprintinginanyindustryandprepareathreepagearticleii) StudyusageofDrones indifferent Industriesandevaluate theCostbenefitsof
usingthesameforanyonescenario.
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ModelQuestionPaperIATest(CIE)Programme:Semester:ICourse:MaxMarks:30CourseCode:Duration:1Hr20minutesNameofthecoursecoordinator:Test:I/II/III
Note:Answeronefullquestionfromeachsection.Onefullquestioncarries10marks.
Qn.No Question CL CO PO Marks
Section-11.a)
b)
c)
2.a)
b)
c)
Section-23.a)
b)
c)
4.a)
b)
c)
Section-35.a)
b)
c)
6.a)
b)
c)
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ModelQuestionPaperSemesterEndExamination
Programme: Semester:ICourse:MaxMarks:100CourseCode: Duration:3Hrs
InstructiontotheCandidate:Answeronefullquestionfromeachsection.Onefullquestioncarries20marks.
Qn.No Question CL CO MarksSection-1
1.a) b) 2.a)
b) Section-2
3.a) b) 4.a)
b) Section-3
5.a) b) 6.a)
b) Section-4
7.a) b) 8.a) b)
Section-59.a)
b) 10.a) b)
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducationBoardofTechnicalExaminations,Bangalore
CourseCode 20SC02P Semester I/II
CourseTitle STATISTICSAND
ANALYTICS
CourseGroup Core
No.ofCredits 4 TypeofCourse Lectureandpractice
CourseCategory Practice TotalContact
Hours
6HrsPerWeek
78HrsPerSemester
Prerequisites 10THLEVELMATHEMATICS
TeachingScheme (L:T:P)-1:0:2
CIEMarks 60 SEEMarks 40
RATIONALEStatistics andanalyticshelp the learner touse thepropermethods to collect thedata,employthecorrectanalyses,effectivelypresenttheresultsandconductresearch,tobeabletoreadandevaluatejournalarticles,tofurtherdevelopcriticalthinkingandanalyticskills, to act as an informed consumer and to know when you need to hire outsidestatisticalhelp.Thepythonlanguageisoneofthemostaccessibleprogramminglanguagesavailable because it has simplified syntax and not complicated, which gives moreemphasisonnaturallanguage.
COURSEOUTCOMES
Attheendofthecourse,studentwillbeableto
CO1 Understandthetoolsofdatacollection,classificationandcleaningofdata.
CO2 Abletosummarizethegivenstatisticaldata
CO3 Understandthemeasureoflocationanddispersionofdata.
CO4 LearnthebasicsofPythonprogramming.
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DETAILSOFCOURSECONTENT
Thefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillSetsforachievingCOtoattainidentifiedskillsets.
UNITNOUnitskillset
(Incognitivedomain)Topics/Subtopics
Hours
L-T-P
UNIT-1
STATISTICAL
DATA
COLLECTIONAND
TYPES
Ø Abletocollectstatisticaldata.
Ø Abletodistinguishthedatatypes.
Ø Understandstheusageofdatacollectiontools
Ø Abletospecifyproblemstatementfordatacollection
Ø Abletocollectdatapointingtherootcauseoftheproblemstatement.
a Definition of data andclassification (qualitativequantitative discrete andcontinuousdata).
b Datacollectiontoolsiv) Questionnaires.v) Survey.vi) Interviews.vii) Focusgroupdiscussion.
1.3Datacleaning.
4-0-8
UNIT-2
SUMMARIZATION
OFDATA
Ø Sketchesbar,pieandhistogramsonMicrosoftExcelspreadsheet.
Ø SketchesfrequencycurveandfrequencypolygonforthedatasetonMicrosoftExcelspreadsheet.
Ø Sketchesbar,pieandhistogramsonMicrosoftExcelspreadsheet.
Ø SketchesfrequencycurveandfrequencypolygonforthedatasetonMicrosoftExcelspreadsheet.
a Descriptivestatisticsviii)
Datatabulation(frequencytable
ix) Relativefrequencytable.b Groupeddata
x) Bargraphxi) Piechartxii) Linegraphxiii) Frequencypolygonxiv) Frequencycurvexv) Relative frequency
polygonxvi) Histogramsxvii) Boxplotxviii) Leaf-stemplot
TobedoneinMicrosoftexcel.
8-0-16
UNIT-3
MEASUREOF
LOCATIONAND
DISPERSION
Ø AbletodeterminethedescriptivestatisticalvariablesusingMicrosoftExcel.
a Determination of centraltendenciesRange,Mean,ModeandMedian for the data in Microsoftexcel.
b Determination of absolute
6-0-12
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Ø Abletodeterminetheabsolutemeasuresofdispersionofthegivendataset.
Ø Explain the symmetryand asymmetry of thedistributeddata.
measuresofdispersionfordatalike range quartile deviation,mean deviation, standarddeviation and variance inMicrosoftExcel.
c SkewnessandkurtosisgraphsinMicrosoftexcelandinterpretationsofresults.
UNIT-4
INTRODUCTION
TO
PYTHON
PROGRAMMING
Ø AbleInstallandrunthePython interpreter.Create and executePythonprograms.
Ø Understand theconceptsoffileI/O.
Ø AbletoreaddatafromatextfileusingPython.
Ø Learn variabledeclarationsinPython.
Ø Learn controlstructures.
Ø Learnloopconstructs.
4.1IntroductiontoPYTHON.4.2SyntaxofPYTHON.4.3CommentsofPYTHON.4.4DatatypesofPYTHON.4.5VariablesofPYTHON.4.6If-elseinPYTHON.4.6LoopsinPYTHON.4.7ArraysandfunctionsinPYTHON.
8-0-16
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SL
NOPracticaloutcomes/Practicalexercises
Unit
noPO CO L:T:P
1Prepareaquestionnaire(closedend)containing25questionsforaspecifiedproblemstatement:forexampleexperienceofanindividualinarestaurant.
1 1,2,4,5,7 1 0:0:2
2PrepareaGoogleformforaspecifiedproblemstatementtocollectthedataset.(forexamplequestionnairetoconductonlinequiz)
1 1,2,4,5,7 1 0:0:2
3Sendoutasurveyonyourproblemstatementtonumberof50(ByGoogleforms)andcollectthedata.
1 1,2,4,5,7 1 0:0:2
4
Removeduplicateorirrelevantobservations.Removeunwantedobservationsfromthedatasetprovided,includingduplicateobservationsorirrelevantobservations.
1 1,2,4,5,7 1 0:0:2
5InMicrosoftExcelspreadsheetdrawthefrequencydistributiontableforthegivendata(datasetshouldcontainminimum50data).
2 1,2,4,5,7 2 0:0:2
6InMicrosoftExcelspreadsheetdrawtherelativefrequencydistributiontableforthegivendata(datasetshouldcontainminimum50data).
2 1,2,4,5,7 2 0:0:2
7
UsingMicrosoftExcelspreadsheetplotbargraphforthedatacollectedfrom100people(forexample,conductasurveyonthefavoritefruitofapersoninyourlocality(restrictingto5to6fruits).Explainthebargraphwithminimum30words.
2 1,2,4,5,7 2 0:0:2
8
UsingMicrosoftExcelspreadsheetplotpiechartforthedatacollectedfrom50people(forexample,conductasurveyonthesmokerswithrespecttotheiragesinyourlocality.Explainthepiechartwithminimum30words.
2 1,2,4,5,7 2 0:0:2
9 UsingMicrosoftExcelspreadsheetdrawalinegraphforthegivendataset. 2 1,2,4,5,7 2 0:0:2
10
UsingMicrosoftExcelspreadsheetdrawfrequencypolygonandfrequencycurveforthedatacollectedfrom50people.(Forexample,marksobtainedbythestudentsinyourclassin5subjectsinpreviousexamination).Explainyourobservationsfromthegraphinminimum30words.
2 1,2,4,5,7 2 0:0:2
11
UsingMicrosoftExcelspreadsheetconstructaboxplotforthegivendataset.(Forexampledatasetcanbethenumberofpassengersinaflatformatdifferenttimeinaday).
2 1,2,4,5,7 2 0:0:2
12UsingMicrosoftExcelspreadsheetconstructaleafplotforthegivendataset.Explainthegraphwithminimum30words.
2 1,2,4,5,7 2 0:0:2
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13UsingMicrosoftExcelspreadsheetfindtheMean,ModeandMedianforthedata(univariatedata)givenandalsorepresenttheminaHistogram.
3 1,2,4,5,7 2 0:0:2
14Generatea50randomdatasample(evenandoddnumberdataset)usingMicrosoftExcelspreadsheetanddeterminetherangeandQuartiles.
3 1,2,4,5,7 2 0:0:2
15
Collectthecurrentyieldofacropfrom50differentpersons(problemstatementcanbechangedaccordingtoprioritiesofthetutor)inyourlocalityanddeterminemeandeviationandQuartiledeviationinMicrosoftexcelspreadsheetandbriefyourinferencewithlessthan30words.
3 1,2,4,5,7 3 0:0:2
16
Collectthedataofany2livestockpopulationfrom50differenthousesinyourlocality(problemstatementcanbechangedaccordingtoprioritiesofthetutor)anddeterminestandarddeviationforboththetwoseparatelyinMicrosoftexcelspreadsheetandbriefyourinferencewithlessthan30words.
3 1,2,4,5,7 3 0:0:2
17
Collectthedataoftwowheeler(withariderandapillion)crossingabusyjunctioninyourlocalityinthepeakhours(problemstatementcanbechangedaccordingtoprioritiesofthetutor)anddeterminethevarianceofthedatainMicrosoftexcelspreadsheetandbriefyourinferencewithlessthan30words.
3 1,2,4,5,7 3 0:0:2
18UsingMicrosoftExcelspreadsheetdrawaSkewnessgraphandkurtosisgraphforrandomlygenerateddataset.
3 1,2,4,5,7 3 0:0:2
20 Writeapythonprogramtoadd2integersand2stringsandprinttheresult. 4 1,2,4,5,7 4 0:0:2
21 Writeapythonprogramtofindthesumoffirst10naturalnumbers. 4 1,2,4,5,7 4 0:0:2
22 Writeapythonprogramtofindwhetherthenumberisoddoreven. 4 1,2,4,5,7 4 0:0:2
23 Writeapythonprogramtofindthevarianceandstandarddeviationforthegivendata.. 4 1,2,4,5,7 4 0:0:2
24 Writeapythonprogramtodisplaystudentmarksfromtherecord. 4 1,2,4,5,7 4 0:0:2
25 Writeapythonprogramtocreatealabeledbargraphusingmatpoltlib.pyplot. 4 1,2,4,5,7 4 0:0:2
26 Writeapythonprogramtocreatealabeledpiechartusingmatpoltlib.pyplot. 4 1,2,4,5,7 4 0:0:2
TotalHours0:0:52=5
2
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MAPPINGOFCOWITHPO
CO CourseOutcome
PO
Mapped
ExperimentLinked
Cognitive
Level
R/U/A
Tutorial&Practical
Sessions
inHrs.
TOT
AL
CO1 Understandthetoolsofdata
collection,classificationand
cleaningofdata.
1,2,4,5,7 1-4 A 12 12
CO2 Abletosummarizethegiven
statisticaldata1,2,4,5,7 5-12 A 33 33
CO3 Understandthemeasureof
locationanddispersionofdata.1,2,4,5,7 13-18 A 12 12
CO4 LearnthebasicsofPython
programming.1,2,4,5,7 19-26 A 21 21
78 78
Course CO’sProgrammeOutcomes(PO’s)
1 2 3 4 5 6 7
Statistics&Analytics
CO1 3 3 0 3 3 0 3
CO2 3 3 0 3 3 0 3
CO3 3 3 0 3 3 0 3
CO4 3 3 0 3 3 0 3Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,
Level0-NotMapped
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SUGGESTEDLEARNINGRESOURCES:
1. StatisticalAnalysiswithExcelForDummies(ForDummiesSeries)Paperback Import,9April2013byJosephSchmuller(Author)
2. https://www.brianheinold.net/python/A Practical Introduction to Python ProgrammingHeinold.pdf
3. http://www.bikeprof.com/uploads/9/0/6/5/9065192/excel stats handout npl.pdf4. https://adminfinance.umw.edu/tess/files/2013/06/Excel-Manual1.pdf5. https://www.brianheinold.net/python/A Practical Introduction to Python Progra
mmingHeinold.pdf6. IntroductiontoPythonprogrammingforbeginnersbyVivianBailyKindleedition.7. PYTHONPROGRAMMING:Pythonprogramming:theultimateguidefromabeginner
toexpertbyCliveCampbell.8. Opensourceforpython:https://hub.gke2.mybinder.org/user/jupyterlab-
jupyterlab-demo-zfkdwy4y/lab
SUGGESTEDLISTOFSTUDENTACTIVITY
Note:ThefollowingactivitiesorsimilaractivitiesforassessingCIE(IA)for10marks(Anyone)
1
Describe thedatacollectionactivity itself (interviews, surveys, libraryresearch,etc.)ANDwhythisspecificformofdatacollectionwaschosen.Besuretoexplainwhyyouthinkthiskindofdatawillhelpyouinyourdesignprocess.Alsobesuretoprovidedetailsabout theactivity:howmany interviews,howlongtheytook,where they took place, how many questions asked in a survey, how manyrespondents,etc.Present the resultsof yourdata collection.Youdonothave tohave completelyanalyzedallyourdata,butdomakesureyoupresenttheresultsofyourresearch.Ifyoudidasurvey,pleaseattachacopyofthesurveyasanappendix;ifyoudidinterviews,pleaseattachacopyoftheinterviewquestions.Discussanypreliminaryanalysisofyourdata.Whathaveyoulearnedthusfarfromthedatashouldbediscussed fromananalyticalperspective (rather thanadatadump).Forexample,ifyousurveyedpeopleabouttheiruseofthelocalbussystem,and90%ofyourrespondentssaidtheytakethebuswhenitisraining,and60%ofyour respondents said theyusuallywaitmore than10minutes for abus, thinkaboutwhatthisteachesyouratherthanjusttheinformationitself.Inthisinstance,youcanseethatpeoplearegenerallywaitingforseveralminutesintherainforabus,soacoveredbusstopmightbeagoodidea.Keepinmindthatyourfindingsfrom data should lead directly to the conclusions youmake about your designrecommendations.Thisisthetimetobeginthinkingveryspecificallyaboutyourresearchinthoseterms.Thisisalsoanopportunitytothinkaboutyourdefinitionof “better” andhow it applies toyourdesigngoals andyour choiceof researchactivities(forexample,ifyouarechoosingtomakesomethingbetterbymakingitcheaper,maybeyouareinterviewingpeopletoseehowmuchlossoffunctionalityordecreaseinfeaturesforatechnologytheyarewillingtotolerate).
2https://ils.unc.edu/courses/2013 spring/inls541 001/Assignments.html#Assignment 9
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DOWNLOAD a dataset from the above link and use data visualization tools toanalyzeit.
3
Acquirethedatasetfromhttps://www.kaggle.com/datasets(ForexampleacquirethedataofIPLballbyballscoresandfindthestandarddeviationandvarianceofscoreofabatsmen)andcleanthedatafortherootcauseoftheproblemstatementandsummarizethedateandexplaintheinference.
COURSEASSESSMENTANDEVALUATIONCHART
Meth
od
What To
whom
When/Wh
ere
(Frequenc
yinthe
course)
Max
Mar
ks
Evidence
collected
Course
outcomes
DIRECTASSESSMENT
CIE(ContinuousInternalEvaluation
)
Models
Students
TwoIATests(Written)
20 BlueBook 1,2,3.
Three Skilltests
20 Model 1,2,3
StudentActivity
20 Model/Report
TOTAL 60 SEE(SemesterEndExamination)
EndExam
Endofthecourse
100 Models 1,2,3
INDIRECTASSESSMENT StudentFeedback
oncourseStudents
Middleofthecourse
Feedbackforms
1,2,3,Deliveryofcourse
EndofCourseSurvey
Endofthecourse
Questionnaires
1,2,3Effectiveness
ofDemonstratio
ns&AssessmentMethods
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Sl.No Assessment Duration Max
marks
Conversion
1 CIEAssessment1(WrittenTest-1-theory)-Attheendof3rdweek
60minutes 20 Averageof
twowrittentests202 CIEAssessment2(WrittenTest-2-theory)
-Attheendof13thweek60
minutes 20
3 CIEAssessment3(Skilltest)-Attheendof5thweek 3Hrs 20 Averageof
threeskilltests20
4 CIEAssessment4(Skilltest)-Attheendof7thweek 3Hrs 20
5 CIEAssessment5(Skilltest)-Attheendof9thweek 3Hrs 20
6 CIEAssessment6(Studentactivity)-Attheendof11thweek - 20 20
7 TotalContinuousInternalEvaluation(CIE)Assessment 60
8 SemesterEndExamination(SEE)Assessment(PracticalTest) 3Hrs 100 40
TotalMarks100
Note:
1. CIEwrittentestisconductedfor20marks(Twosections).Eachsectionshallhavetwo full questions of same CL, CO. Student shall answer one full question (10marks)fromeachsection.
2. CIESkill test is conducted for100marks (3Hoursduration)asper schemeofevaluationandtheobtainedmarksarescaleddownto20marks.
3. SEEisconductedfor100Marks(3Hoursduration)asperschemeofevaluation.
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MODELQUESTIONPAPER
CIE,SKILLTESTANDSEMESTERENDEXAMINATION
Course&Programme:CommontoallEngineeringProgrammes.Semester:IISubject:StatisticsandAnalyticsPracticeMaxMarks:100CourseCode:20SC21PDuration:3Hrs
InstructiontotheCandidate:AnswerbothquestionsQn.No Question CL CO PO Marks
1
ForthegivenungroupeddatasetplotthebargraphbygroupingthedatainMicrosoftexcelspreadsheetandinterprettheobtainedresults.(Dataset.bargraphsandinterpretationhavetobeenteredintheanswerscript).
ORGeneratearandomdatasetinMicrosoftexcelspreadsheetcontaining50dataandfindthemeanmodeandmedianinMicrosoftexcelspreadsheetandinterprettheobtainedresults.(Dataset,bargraphsandinterpretationhavetobeenteredintheanswerscript).
A 2,3 1,2,4,5,7 50
2 Writethepythonprogramtoentertwointegersandtwostringsandtoprintthesumtwointegersandtwostrings.
A 4 1,2,4,5,7 50
QuestionsarenotframedfromUnit1inthefinalSEE.Shortquestionscanonlybeaskedfromthatunit.
SCHEMEOFEVALUATIONFORBOTHCIEANDSEE
Sl.No Particulars Marks
1 ShortquestionsfromUnit1 10
2 Observation 30
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3 Conduction 20
4 OutputandInterpretationofresult 20
5 Viva-voce 20
Total 100
EQUIPMENTLIST
FORSTATISTICSANDDATAANALYTICSLAB
2laboratories.Eachcontaining30computers(Desktop)withthefollowingsystemrequirements.
SYSTEMREQUIREMENTS
SLNO REQUIREMENTS MINIMUM RECOMMENDED
1 RAM 4GBFORFREERAM 8GBOFTOTALSYSTEMRAM
2 DISKSPACE 2.5GBAND1GBFORCACHES
SSDDRIVEWITHATLEAST5GBOFFREESPACE
3MONITOR
RESOLUTION 1024x768 1920×1080
4 OS(OPERATINGSYSTEM)
OFFICIALLYRELEASED64-BITVERSIONSOFTHEFOLLOWING:MICROSOFT
WINDOWS8ORLATER
LATEST64-BITVERSIONOFWINDOWS
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20EE01P Semester I/II
CourseTitleFUNDAMENTALSOFELECTRICAL&ELECTRONICSENGINEERING
CourseGroup Core
No.ofCredits 4 TypeofCourse Lecture&Practice
CourseCategory PC TotalContactHours6HrsPerWeek
78HrsPerSemester
Prerequisites BasicScience TeachingScheme (L:T:P)=1:0:2
CIEMarks 60 SEEMarks 40
1.RATIONALE
Fundamentals of Electrical and Electronics Engineering is essential for all streams of diplomaengineeringtoworkinanyindustryasitcoversbasicelectricalsafety,troubleshootingandrepairingof simple electrical systems. Basic knowledge of electrical wiring circuits, protective devices,electricalmachinesandbasicelectronicsdevicesisrequiredtoworkinanyengineeringfield.
2.COURSESKILLSET
Theaimofthecourseistohelpthestudenttoattainthefollowingindustryidentifiedcompetencythroughvariousteaching–learningexperiences
1. Performandtestdomesticwiring2. Canoperateelectricalmachine3. Testdifferentelectronicsdevices
3.INSTRUCTIONALSTRATEGY
1. Exposetodifferentlearningtoolsusedinrespectivelabs,OperationalsafetyandProceduretobefollowedinthelaboratory.
2. Instructor should give examples from daily routine as well as, engineering/technologyapplicationsonvariousconceptsandprinciplesineachtopicsothatstudentsareabletounderstand and grasp these concepts and principles. In all contents, SI units should befollowed.
3. Activity-Theory-Demonstrate/practiceapproachmaybefollowedthroughoutthecoursesothatlearningmaybeskillandemployabilitybased.
4.COURSEOUTCOMES
Onsuccessfulcompletionofthecourse,thestudentswillbeabletoCO1 Complywiththesafetyprocedures
CO2 Applythefundamentalsofelectricity.
CO3 Installandtestelectricalwiringsystem.
CO4 IdentifyandOperateelectricalmachines,BatteriesandUPS.
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CO5 Identifyandtestthedifferentelectronicdevices.
5.COURSETOPICS:
UnitNo
UnitName Hours
1 ElectricalSafety 6
2 ElectricalFundamentals 15
3 ProtectiveDevicesandWiringcircuits 15
4 ElectricMachinesandBatteriesandUPS 15
5 IntroductiontoElectronicDevicesandDigitalElectronics
27
Total 78Hr
6.COURSECONTENT
Thefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillsetsforachievingCOtoattainidentifiedskillsets
SlNo
Unitskillset(Incognitivedomain)
Onsuccessfulcompletionofthe class, the students willbeableto
Topics/Subtopics
Practical
HoursL-T-P
UNIT-1ElectricalSafety
1 ComplywiththeElectricalsafety
1. ElectricalSymbols2.Electricalsafety• IdentifyVarioustypesofsafetysignsandwhattheymean
• DemonstrateandpracticeuseofPPE• Demonstrate how to free a personfromelectrocution
• Administer appropriate first aid tovictims, bandaging, heart attack,CPR,etc.
• Firesafety,causesandprecautionaryactivities.
• Useofappropriatefireextinguishersondifferenttypesoffires.
• Demonstrate rescue techniquesapplied during fire hazard, correctmethod to move injured peopleduringemergency
• Informrelevantauthorityaboutanyabnormalsituation
• Earthing:Types
1. Electrical symbolsrelated to electricalengineering.
2. Electricalsafety3. Electrical earthing
02-00-04
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Ø http://nreeder.com/Flash/symbols.htmØ http://bouteloup.pierre.free.fr/iufm/as/de/house/safety.html
UNIT-2ElectricalFundamentals
2 1. Identify and select thedifferent measuringdevices.
2. Identify differentelectricalsupplysystems
3. Identify open circuit,close circuit and shortcircuitconditions.
1. Describe the sources of electricalenergy.
2. Electrical current, voltage, emf,potential difference, resistancewiththeirSIunits.
3. Mention the meters used tomeasuredifferentelectricalquantities.
IdentificationMeasuringdevices• Ammeter• Voltmeter• Wattmeter• Ohmmeter• DigitalMultimeter• Megger• Tongtester
4. ExplainsupplysystemslikeAC,DC.Ø http://nreeder.com/Flash/units.htm
1. Connect voltmeter andammeter in a simplecircuit. (Practicing ofidentification andconnection of differentmeters)
1:0:2
3 Calculatebasicelectricalquantities
• RelationshipbetweenV,IandR.(Ohmslaw)
• BehaviorofV,IinSeriesandParallelDCcircuits.
• Describeopencircuit,closecircuitandshortcircuit
• http://nreeder.com/Flash/oh
msLaw.htm
1. Measure current, voltage and analyze effective resistance in seriescircuit
2. Demonstrate effects of shorts and opens in a circuit
1:0:2
4 Connectresistancesindifferentcombination
1. Equation to find the effectiveResistancesconnectedinseries
2. EquationtofindeffectiveResistancesconnectedinparallel
3. Resistances connected series andparallelcombinations
4. Simpleproblems.
1. Determine theequivalent Resistanceof parallel connectedresistances.
1:0:2
5 CalculateandmeasurementofdifferentparametersofanACquantity.
Acsinewave: Sinusoidalvoltage,current, amplitude, time-period,cycle, frequency, phase, phasedifference,andtheirunits.Ø http://nreeder.com/Flash/freqP
eriod.htmØ http://nreeder.com/Flash/oscill
Generate anddemonstrate themeasurement offrequency, time periodandphasedifferenceof
1:0:2
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oscope.htm AC quantity using CROandfunctiongenerator.
6 1. Calculate and measureelectric power andenergy
2. IdentifyanddifferentiateSingle phase and Threephasesupply
1. Electricalwork,powerandpowerfactor• SIunits• Mentionthemetersusedtomeasurethem
Ø http://nreeder.com/Flash/powerLaw.htm
• Measure the voltage, current, powerusing relevant measuring instruments in a Single-phase load.
1:0:2
7. 1.Electricalenergy• SIunits• Mentionthemetersusedtomeasurethem
2.SinglephaseandThreephasesupply.
1. Measure single phase energy using relevant measuring instruments in a Single-phase load. 2.Measure the voltagesinThreephasesupply.
UNIT-3ProtectiveDevicesandWiringcircuits
8. 1.IdentifyandselectProtectiveDevicesforgivencurrentandvoltagerating2.Identifyandselectthevariouselectriciantools
• Necessity of ProtectiveDevices
• Various Protective devicesandtheirfunctions
• fusewire,• Glasscartridgefuse• HRCfuse• Kit-katfuse• MCB• MCCB• RCCB• ELCB• Relay• Different types of electrician
toolsandtheirfunction.• Describevariouswiringtools.• State procedure of care and
maintenanceofwiringtools.
1. Wire up and test PVCConduit wiring tocontrol one lamp fromtwo different placesusing suitableprotectivedevices.
1:0:2
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9 1. Identify and selectWiring systems for agivenapplications
2. Identify and select thecables used for differentcurrent and voltageratings.
3. Drawthewiringdiagram
1. Describe different types of wiringsystems.• Surfaceconduit• concealedconduit• PVCcasingcapping
2. Wiring systems and theirapplications.
3. Describe the types of wires, cablesusedfordifferentcurrentandvoltageratings.
1. Wire up and test PVCConduit wiring tocontrolof2socketsand2lamps.
2:0:4
10 Estimateandplanelectricalwiring
Explain Plan and estimate the cost ofelectricalwiringforone3m×3mroomconsisting of 2 lamps, 1ceiling fan, 2threepinsockets.
Preparetheestimationandplan
1:0:2
UNIT-4ElectricalMachinesandBatteriesandUPS
11 1. Identify the types oftransformer.
2. verifythetransformationratio.
Transformer• workingprinciple• Transformationratio• Typesandapplicationswiththeirratings
ConnecttheSingle-phasetransformerasStep-Up,Step-Downtransformerandverifythetransformationratio.
1:0:2
12 1. Startandruntheinductionmotor.
2. TroubleshootDOL/Star-deltastarterandinductionmotor
1. Inductionmotor• Single phase and three phaseInductionmotor.
• Necessityofstarters.• Describe DOL AND STAR-DELTAstarters.
2. What are different causes andremedies fora failureofstarterandinductionmotor.
1. Construct a suitablecircuit to start andreversethedirectionofthree phase inductionmotorusingDOL/Star-deltastarter.
2. TroubleshoottheDOL/Star-deltastarterandinductionmotor
2:0:4
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13 Selectandtestthebatteryforagivenapplication
Battery• Types of batteries (Lead acidbattery,lithium,sealedmaintenancefree(SMF) battery,Modularbattery).
• Selection criteria of batteries fordifferentapplications.
• Ampere-HourCapacity.• Efficiency
TestingConditionofcharginganddischargingofaLead-acidbattery
1:0:2
14 SelectthesizeoftheUPSforagivenapplication
UPS• Listthetypesandapplications• SelectioncriteriaofUPS• SizingofUPS
SizingofUPS 1:0:2
UNIT-5IntroductiontoElectronicDevicesandDigitalElectronics
15 IdentifyanddifferentiateConductors,insulatorsandsemiconductors.
1.CompareConductors,insulatorsandsemiconductorswithexamples.2.Identificationoftypesandvaluesofresistors-colorcodes.Ø http://nreeder.com/Flash/resistor.htm
Determine the value ofresistance by color codeand compare it withmultimeterreadings.
1:0:2
16 IdentifyandtestPNjunctionDiode
PNjunctiondiode• Symbol• Characteristics• Diodeasswitch.• Typesofdiodesandratings• Applications
IdentifytheterminalsofaDiode and test the diodeforitscondition.
1:0:2
17 Buildandtestbridgerectifiercircuit
Rectifier• NeedforACtoDCconversion• Bridgerectifierwithand
withoutCfilter,• RectifierIC.
Constructandtestbridgerectifiersusingsemi-conductordiodeandrectifierIC.Compare the waveformsusingCRO.
1:0:2
18 1. IdentifyandtestTransistor
2. Buildandtesttransistorasanelectronicswitch
Transistor(BJT)• Symbol• Structure• Workingprinciple
1. Identification oftransistor terminalsandtest.
2. Construct and test thetransistor as anelectronicswitch
1:0:2
19. 1. IdentifyandtestdifferentdigitalIC
1.
• Comparisonofanaloganddigitalsignal
• Digitalsystems,examples.• Binary numbers, Boolean
identitiesandlaws.• Digital system building blocks:
Basic logic gates, symbols andtruthtables.
IC-Definitionandadvantages.
• TestaDigitalIC.• Identification and
selection of suitableICsforbasicgates.
1. Verify NOT, AND, OR,NOR, EXOR and NANDgate operations (twoinputs).
2:0:4
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20 IdentifyandtestvariousSensorsandactuators.
1.Sensors• Concept• Types:Temperature,Pressure,
Water,Light,Sound,Smoke,proximitySensors,Flow,humidity,voltage,vibration,IR(Principle/working,ratings/specifications,cost,andapplications)
2.Actuators• Concept• Typesandapplications.• Relayasanactuator.
2. Connect and test an IRproximity sensor to aDigitalcircuit.
• Connect and test arelaycircuitusinganOpto-coupler.(PhotoDiode&Transistor)Refernote
2:0:4
21 KnowtheapplicationofMicrocontrollerandPLC
• Microcontrollerasaprogrammabledevice,andlistofreal-worldapplications.
• PLCandTheirapplications.(Activitybasedlearning)
• Identifydifferentapplicationmicrocontroller.
• Identify commerciallyavailablePLCandtheirspecifications
1:0:2
TOTAL 26-0-52=78Hours
7.PRATICALSKILLEXERCISES
Sl.No.
PracticalOutComes/Practicalexercises UnitNo.
PO CO L:T:PHrs.
1 • Identify Various types of safety signs and what they meanDemonstrate and practice use of PPE
• Demonstrate how to free a person from electrocution appropriate first aid to victims, bandaging, heart attack, CPR, etc.
• Fire safety, causes and precautionary activities. • Use of appropriate fire extinguishers on different
types of fires. • Demonstrate rescue techniques applied during fire
hazard. • Inform relevant authority about any abnormal
situation during fire hazard.
1 1,4 1 0:0:2
2 • Demonstrate different types of earthing/usingvideos.
• Prepare a Report on types of Earthing
1 1,4 1 0:0:2
3 Connectvoltmeterandammeterinasimplecircuit.(Practicingofidentificationandconnectionofdifferentmeters)
2 1,4 2 0:0:2
4 1.Determine the equivalent Resistance of series connected resistances. 2.Demonstrate effects of shorts and opens in a circuit
2 1,4 2 0:0:2
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5 DeterminetheequivalentResistanceofparallel
connectedresistances.2 1,4 2 0:0:2
6 Generateanddemonstratethemeasurementoffrequency,timeperiodandphasedifferenceofACquantityusingCROandfunctiongenerator.
2 1,4 2 0:0:2
7 Measurethevoltage,current,powerusingrelevantmeasuringinstrumentsinaSingle-phaseload.
2 1,4 2 0:0:2
8. 1.Measure single phase energy using relevant measuring instruments in a Single-phase load.
2.MeasurethevoltagesinThreephasesupply.
9. WireupandtestPVCConduitwiringtocontrolonelampfromtwodifferentplacesusingsuitableprotectivedevices.
3 1,4 3 0:0:2
10 2. WireupandtestPVCConduitwiringtocontrolof2socketsand2lamps.
3 1,4 3 0:0:2
11 WireupandtestPVCConduitwiringtocontrolonelampfromtwodifferentplaces.
3 1,4 3 0:0:2
12 Planandestimatethecostofelectricalwiringforone3mx3mroomconsistingof2CFL1ceilingfan,2threepinsockets.
3 1,4 3 0:0:2
13 ConnecttheSingle-phasetransformerasStep-Up,Step-Downtransformerandverifythetransformationratio.
4 1,4 4 0:0:2
14 ConstructasuitablecircuittostartandreversethedirectionofthreephaseinductionmotorusingDOL/star-deltastarter.
4 1,4 4 0:0:2
15 TroubleshoottheDOL/Star-deltastarterandinductionmotor
4 1,4 4 0:0:2
16 TestingConditionofcharginganddischargingofaLead-acidbattery.
4 1,4 4 0:0:2
17 EstimatetheUPSratingforacomputerlabwith50computers/domestic.
4 1,4 4 0:0:2
18 Determinethevalueofresistancebycolorcodeandcompareitwithmultimeterreadings
5 1,4 5 0:0:2
19 IdentifytheterminalsofaDiodeandtestthediodeforitscondition.
5 1,4 5 0:0:2
20 ConstructandtestbridgerectifiersusingsemiconductordiodeandrectifierIC.ComparethewaveformsusingCRO.
5 1,4 5 0:0:2
21 Identificationoftransistorterminalsandtest.Constructandtestthetransistorasanelectronicswitch.
5 1,4 5 0:0:2
22 TestanIC.Verifythetruth-tableAND,OR,NOTlogicgates.
23 Verify the truth-table NAND, NOR, EX-OR, EX-NORlogicgates.
5 1,4 5 0:0:2
24 Connect and test anIR proximity sensor to a Digitalcircuit.NOTE:Anysensorlistedinthetheorymaybeusedforconditionappropriately.
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25 ConnectandtestarelaycircuitusinganOptocoupler.(PhotoDiode&Transistor)
5 1,4 5 0:0:2
26 1.IdentifyMCS-51variants2.Identify commercially available PLC and theirspecifications.
5 1,4 5 0:0:2
Total 0:0:52=52Hrs
8.MAPPINGOFCOWITHPO
CO
CourseOutcome
POMapped
Experimen
t
CognitiveLevelR/U/A
Lecture&
PracticalSessionsinHrs
TOTAL
CO1 Complywiththesafetyprocedures
PO1,PO4
1-2 A 6
CO2 Applythefundamentalsofelectricity.
PO1,PO4
3-7 A 15
CO3 Installandtestelectrical wiringsystemandprotectivedevices.
PO1,PO4
8-12 A 15
CO4 Identify and Operate electricalmachines,BatteriesandUPS.
PO1,PO4
13-17 A 15
CO5 Identify and test the differentelectronicdevices.
PO1,PO4
18-26 A 27
Course CO’s ProgrammeOutcomes(PO’s)
1 2 3 4 5 6 7FundamentalsofElectricalandElectronicsEngineering
CO1 3 0 0 3 0 0 0CO2 3 0 0 3 0 0 0CO3 3 0 0 3 0 0 0CO4 3 0 0 3 0 0 0
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level0-NotMapped
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9.SUGGESTEDLEARNINGRESOURCES:
ReferenceBooks:1. ABCofElectricalEngineeringbyB.L.TherajaandA.K.Theraja,SChandPublishers,NewDelhi,
2014Edition.2. BasicElectricalandElectronicsEngineeringbyS.K.Bhattacharya,PearsonEducationIndia,
2012Edition.3. ElectronicDevicesandCircuitsbyI.J.Nagrath,PHILearningPvt.Ltd.,2007Edition.4. BasicElectricalEngineeringbyV.MittleandArvindMittle,McGrawHillCompanies,2005
Edition.5. The8051Microcontroller&EmbeddedsystemsusinkbnnnjbbhbbvvvvgassemblyandC
(2ndEdition)–M.A.Mazidi,J.C.Mazidi&R.D.McKinlayISBN:81-317-1026-26. ProgrammableLogiccontrollers,WBOLTON
e-Resources1.https://www.youtube.com/watch?v=mc979OhitAg&list=PLWv9VM947MKi 7yJ0 FCfzTBXpQU-Qd3K2.https://www.youtube.com/watch?v=CWulQ1ZSE3c3.en.wikipedia.org/wiki/Transformer2.www.animations.physics.unsw.edu.au//jw/AC.html3.www.alpharubicon.com/altenergy/understandingAC.htm4.www.electronics-tutorials5.learn.sparkfun.com/tutorials/transistors6.www.pitt.edu/~qiw4/Academic/ME2082/Transistor%20Basics.pdf7.www.technologystudent.com/elec1/transis1.htm8.www.learningaboutelectronics.com9.www.electrical4u.com10.https://www.youtube.com/watch?v=zLW 7TPf31011.https://www.youtube.com/watch?v=8PTNjw-hQIM
10.SUGGESTEDLISTOFSTUDENTSACTIVITYSforCIE
Note:thefollowingactivitiesorsimilaractivitiesforassessingCIE(IA)(Anyone)Eachstudentshouldconductdifferentactivityandnorepeatingshouldoccur
1 Usingsuitablemeters/instrumentsgivethepracticalworkingcircuitstomeasure2 Resistance,Current,Voltage,PowerandEnergyinDCandAC(Singlephase)Circuits.3 Listoutthedifferenttypesofwiringsystemsusedinyourlaboratoriesorhousewith
theirrepresentation.4 Mini-Projects:Likepreparingextensionbox,switchboxandwiringmodels,5 Listoutthedifferentprotectivedevicesusedinyourlaboratoriesorhousewiththeir
ratings.6 ApplicationsofElectroMagneticInduction,staticallyinducedanddynamicallyinduced
emf,selfandmutualinducedemfs.7 Prepareareportontypesofstartersandenclosuresusedforvariousindustrial
applicationsofACmotors.8 TypesofCellsandBatterymaintenance9 VisitnearbyBatterychargingshoporshowroomandprepareareportofthevisit.10 Prepareareportonvarioustypesofdiodesusedforvariousindustrialapplications.11 Prepareareportonvarioustypesofsensorsandactuatorsusedforvariousindustrial
applications.12 Mini-Projects:Connectandtestasensor(domainapplication)toaDigitalcircuit
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11.COURSEASSESSMENTANDEVALUATIONCHART
Sl.No Assessment Duration Max marks
Conversion
1. CIE Assessment 1 (Written Test -1-theory) - At the end of 3rd week
60 minutes
20 Average of two written
tests 20 2. CIE Assessment 2 (Written Test -2-theory)
- At the end of 13th week 60
minutes 20
3. CIE Assessment 3 (Skill test) - At the end of 5th week
3 Hours 100
20
Average of three
skill tests 20
4 CIE Assessment 4 (Skill test) - At the end of 7th week
3 Hours 100
5 CIE Assessment 5 (Skill test) - At the end of 9th week
3 Hours 100
6 CIE Assessment 6 (Student activity) - At the end of 11th week
- 20 20
7. Total Continuous Internal Evaluation (CIE) Assessment 60
8. Semester End Examination (SEE) Assessment (Practical Test)
3 Hours 100 40
Total Marks
100
Note:1. CIEwrittentestisconductedfor20marks(Twosections).Eachsectionshallhavetwo
fullquestionsofsameCL,CO.Studentshallansweronefullquestion(10marks) fromeachsection.
2. CIESkilltestisconductedfor100marks(3Hoursduration)asperschemeofevaluationandtheobtainedmarksarescaleddownto20marks
12.SCHEMEOFVALUATIONFORSKILLTEST(CIE)&SEE
(CONTINOUSINTERNAL&SEMESTERENDEXAMINATION)
Sl. No.
Particulars Marks
1. Identification of meters/ equipment/wires/tools etc. 10
2. Writing Circuit/writing diagram and Procedure* 25 3. Conduction 35 4. Results 10 5 Viva-voce 20
Total 100
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12.RUBRICSFORACTIVITY
RUBRICSFORACTIVITY(Exampleonly)Facultyneedtodevelopappropriaterubricsforrespectiveactivity
Dimension Beginning Developing Satisfactory Good Exemplary StudentScore1 2 3 4 5
Collectionofdata
Doesnotcollectanyinformationrelatingtothetopic
Collectsverylimitedinformation;somerelatetothetopic
Collectmuchinformation;butverylimitedrelatetothetopic
Collectssomebasicinformation;mostrefertothetopic
Collectsagreatdealofinformation;allrefertothetopic
Fulfilteam’sroles&duties
Doesnotperformanydutiesassignedtotheteamrole
Performsverylittledutiesbutunreliable.
Performsverylittleduties
Performsnearlyallduties
Performsalldutiesofassignedteamroles
Sharesworkequally
Alwaysreliesonotherstodothework
Rarelydoestheassignedwork;oftenneedsreminding
Usuallydoestheassignedwork;rarelyneedsreminding
Normallydoestheassignedwork
Alwaysdoestheassignedworkwithouthavingtobereminded.
ListentootherTeammates
Isalwaystalking;neverallowsanyoneelsetospeak
Usuallydoesmostofthetalking;rarelyallowsotherstospeak
Talksgood;butnevershowinterestinlisteningothers
Listens,butsometimestalktoomuch
Listensandspeaksafairamount
Average/TotalMarks:
LabEquipmentRequirement
ThefollowingarethespecificationoftheapparatusrequiredforFEEElabandnumberofapparatusrequiredforthebatchof20students.
Sl.No. NameofEquipmentandSpecification QuantityRequired
1 DualChannel30V,2AcontinuouslyvariableDCRegulatedPowerSupplywithCurrentandOverloadProtection
05Nos.
2 +/-15V,2A,fixedDCRegulatedPowerSupply 05Nos.
3 PortableMovingCoilDCVoltmetersa) 0-1Vb) 0-10Vc) 0-30V
Each05Nos.
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4 PortableMovingIronACVoltmetersa) 0-300Vb) 0-600V
Each05Nos.
5 PortableMovingCoilDCAmmetersa) 0-100mAb) 0-1Ac) 0-2A
Each05Nos.
6 PortableMovingIronACAmmetersa) 0-2Ab) 0-5Ac) 0-10A
Each05Nos.
7 Watt-metersa) 150/300V,2A,UPFb) 300/600V,5/10A,LPF
Each02Nos.
8 Rheostats–25Ohms,50Ohms,150Ohms,220Ohms(allratedat3A)
Each05Nos.
9 RheostatLoadss–1KW,230V 02Nos.
10 WirewoundResistors-5Ohms2Watts,25Ohms5Watts,330Ohms2Watts,560Ohms2Watts,etc.
Each05Nos.
11 SolderingIron60W 05Nos.
13 SinglePhaseEnergymeter10A,230V,50Hz,Digitaltype 05Nos.
14 Multi-meterDigital¾” 06Nos.
15 DuelTraceOscilloscope–30MHz 02Nos.
16 ThreePhaseInductionMotors:1HP–440V50Hz,2HP–440V50Hz.
Each02Nos.
17 ThreephaseDOL,Star-Delta,Autotransformerstarter Each02Nos.
18 UPS1KVA 01Nos.
19 BatteryLead-Acidtype,140A-hrandHydrometers 02Nos.
Sl.No.
NameofEquipmentandSpecification QuantityRequired
20 ICTrainerkit 05Nos
21 DigitalIC’s7400,7402,7404,7408,7486etc Each10Nos.
22 WoodenWiringboard(2x3)ft 10
23 Wiringaccessories
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2 a) PVCconduit-¾”-10lengthsb) Capandcasing-¾”-10lengthsc) SwitchesSinglePole-5A,230Vd) Switchestwoway–5A,230Ve) 3PinSockets5A,230Vf) BulbHolders–5A,230Vg) 3PinPlug5A,230Vh) 60WattsLampsi) 100WattsLampsj) 15WCFLlampsk) CopperWiresofsizes
1.5mm2,2.5mm2,4mm2–1coileach
l) Gangboxes(1+1,2+1,2+2)m) Kit–Katfuses5A,15An) MCB16A&32A/230V,SingleandDoublePoleo) ELCB16A&32A/230V,DoublePolep) Neutrallink-16A,230Vq) Screwsofassortedsizesr) Testers
Each10Nos.
24 ElectronicComponentsa) Diodes-BY127andIN4001b) ZenerDiodes–6.2V,5.6V,7.8Vc) Relays–solidstateSugarcubetype,SPST,Coil6V,
Powercircuit230V,5A.d) SpringBoardse) BreadBoardsf) TagBoards.
Each10Nos.
25 SimplePANELBOARD/CUBICALconsistingofbus-bars,CB/MCB/ELCB,meters,HRCfuses,magneticcontactors,cables,earthingpoints.
1No
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
CourseCode 20CS01P Semester I/II
CourseTitle ITSKILLS CourseGroup ES/CS
No.ofCredits 4 TypeofCourse Lecture+Practice
CourseCategory ES TotalContactHours6HrsPerWeek
78HrsPerSemester
Prerequisites BasicComputerSkills TeachingScheme (L:T:P)=1:0:2
CIEMarks 60 SEEMarks 40
1.RATIONALE
Information Technology is crucial to the majority of the business and has a great influence on
innovationandengineering.Everybranchofengineeringandeveryorganizationoptforcomputers
and IT skills for business automation, communication/connectivity, resource planning, work
automationandsecuringinformationetc.Allengineeringdiplomastudentsmustbeconversantwith
the basic IT skills which empower them to learn new technologies, adapt to changes, business
development,communicationetc.
2.COURSESKILLSET
Theaimofthecourseistohelpthestudenttoattainthefollowingindustryidentifiedcompetency
throughvariousteaching–learningexperiences.
Performjobsrelatedtowebdesignandmaintenance,businessprocessautomationtoolmanagement,
cybersecurityandsafetyandprogramassistant.
3.COURSEOBJECTIVES
1. Demonstratethebasicsofcoding.
2. Designanddevelopwebpagesthatincludestaticanddynamiccontent.
3. DescribethebasicconceptsofCloudandIoT.
4. Expresstheworkflowandbusinessautomation
5. RecognizethebestpracticesofCyberSafetyandsecurity.
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4. JOBROLE
SL.NO LEVEL JOBROLES
1 3 Juniorsoftwaredeveloper-web.
2 3 JuniorCreativeDesigner/DigitalArtist
5. PREREQUISITES
STUDENTBasicComputerskills(Studentswithoutbasiccomputerskillsshouldbetaught
basicskills)
TEACHER ComputersciencefacultywithrequiredknowledgeofITSkills.
6. COURSEOUTCOMES
Onsuccessfulcompletionofthecourse,thestudentswillbeabletodemonstrateindustryoriented
Cosassociatedwiththeabovementionedcompetency:
Legends:R=Remember;U=Understand;A=ApplyandabovelevelsCL=CognitiveLevel
(Bloom’srevisedtaxonomy)
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8.INSTRUCTIONALSTRATERGY
Thesearesamplestrategies,whichteachercanusetoacceleratetheattainmentofthevarious
courseoutcomes
1. Lecturermethod(L)doesnotmeanonlytraditionallecturemethod,butdifferenttypeofteaching
methodandmediavisual/graphicalcontentthatareemployedtodeveloptheoutcomes
2. MassiveOpenon-linecourses(MOOCS)canbeusedtoteachvarioustopics/subtopics.
3. Onlinecodingplatformwherevermentioned.
4. Handsoncodingshouldbepracticed.
5. About15to20%ofthetopics/subtopicswhicharerelativelysimplerordescriptiveinnatureis
tobegiventothestudentsforself-directedlearning
9.DETAILSOFCOURSECONTENT
Thefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillsetsfor
achievingCOtoattainidentifiedskillsets
UNIT
NOTopics/Subtopics Unitskillset/Learningoutcomes
(Incognitivedomain)
Hours
L-T-P
1 UNIT1-INTRODUCTIONTOBASICSOFCODING 05-0-10
1.1 Introductiontocomputerprogramming
1.2 Algorithms–Withsufficientexamples
1.3 Flowcharts–Withsufficientexamples
1.4 Executesimpleprograms
Note: Below listed or any other suitable
online/offline coding platforms should be
used to demonstrate and provide coding
experiencetostudents.
a. https://scratch.mit.edu/
1. Understand computer
programming
2. CreateandwriteAlgorithmfor
programmableproblems.
3. Design Flowchart for
programmableproblems.
4. Develop simple Android
application.
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b. https://studio.code.org/projects
SuggestedprogramsarelistedinTable1
1.5 Introduction to Application
development
1.6 Simpleandroidapplicationdevelopment(No
knowledgeofprogramminglanguageisrequired).
Note:
i. Thepurposeofapplicationdevelopment
is to igniteandpromoteprogramming
skills.
ii. Application development should be
done using any App builder platforms
suchasiii. MITApp Inventor:
https://appinventor.mit.edu/
iv. Thunkable:https://thunkable.com/
v. ibuildapp:https://ibuildapp.com/
vi. The student should be introduced to the
android application development
environment for further research and
learninghttps://developer.android.com/
1.7 Activity: create a simple Android
application (Unique for each student)
publish on the learning management
system.
2 UNIT2-DESIGNANDDEVELOPWEBPAGES 10-0-20
2
2.1 Basicwebtechnologies
§ Browser
§ Web–Server
§ Client-ServerModel
§ URL
§ SEOtechniques
§ Domainnamesanddomainnamesystem.
2.2 CreatingWeb-pageswithHTML5-Static
1. Understand and examine basic
webtechnologies
2. Creatingstaticwebpages
3. Formatting Webpages with
cascadingstylesheets(CSS)
4. Creating Dynamic web pages
withJavaScript
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webpages.
§ Introduction,Editors§ Tags,Attributes,Elements,Headings§ Links,Images,List,Tables,Forms§ Formatting,Layout,Iframes.
2.3 Formatting web pages with style sheets
(CSS3).
§ IntroductiontoCSS
§ Inline CSS, Internal CSS, Classes and
IDs
§ div,Color,Floating,Positioning
§ Margins,Padding,Borders
§ Fonts,AligningText,StylingLinks
2.4 Creating a web page dynamic using
JavaScript.
§ Dynamicwebpage and Introduction
toJS
§ Basicsyntax
§ Functions
§ Events
Note:Referhttps://www.w3schools.com
2.6 Creatingdashboardsinwebsites.
2.6 Activity: Personal website design and
launch with a free platform or Create a
Bloggingwebsite.
§ Online platforms (Learning and
executing)§ https://www.w3schools.com/
§ https://studio.code.org§ https://www.khanacademy.org
Note:
1) The student must be introduced to
website development platforms -
worldpress.com.
2) The student must be made familiar
5. Creating and launching
dashboard based personal
website.
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withlaunchingwebsites.
Certificationavailable:
• HTML-W3schools
• CSS-W3schools
• JavaScript-W3schools
3 UNIT3-BUSINESSPROCESSAUTOMATION/ERP 03:0:06
3
3.1 Introduction to business process
automation.
3.2 Organization structure and functions
composition-Propertiesandapplications
§ Structure
§ Types
§ FunctionalUnits
Note:Studentsshouldbemadefamiliarwith
organization,typesandcomponentsofabig
enterprise to make him understand the
workingoforganizationkeepinghimaspart
oforg.
3.3 Workflows§ Introduction
§ Components
§ Useandusecases
Note: Use free and open-source platform to
demonstrateandcreateworkflows.
Example:
https://airflow.apache.org/
https://taverna.incubator.apache.org/
https://trello.com/
https://www.processmaker.com/
3.4 Enterpriseresourceplanning§ History
§ Evolution
§ UsesofERP
§ ERPsoftwaretools.
1. Identifyandexaminetheneeds
ofbusinessprocessautomation.
2. Understand Organization
structureandfunctions
3. Createanduseworkflows
4. Use Enterprise resource
planninginworkplace.
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Note: Thestudentshouldbeintroducedinto
Enterpriseresourceplanningsoftwaretools
tounderstandimportanceofERP.
Examples:
§ https://erpnext.com/
§ www.bitrix24.com
§ https://www.odoo.com/
3.5Activity:§ Projectplan for summer internship -
useopensourceERPSoftware
§ Identify different components of
nearby organization with recourse
planandworkflowdesign.
§ Identify types of ERP software
availablewiththeirmarketshare.
4 UNIT4-INTRODUCTIONTOCLOUDANDIOTCONCEPTS 04-0-8
4.1 Fundamentalsofcloud
4.2 Cloudservicemodels§ IaaS(Infrastructure-as-a-Service)
§ PaaS(Platform-as-a-Service)
§ SaaS(Software-as-a-Service)
4.3 Clouddeploymenttypes§ Public,
§ Private,
§ Hybrid
§ CommunityCloud
4.4 Cloudservices:§ Google Drive - file storage and
synchronizationservicedevelopedbyGoogle;
§ Google docs- bring your documents to life
with smart editing and styling tools to help
youeasilyformattextandparagraphs;
§ Google Co-lab (Usage of Jupyter Notebook):
Colab notebooks allow you to combine
1. UnderstandCloudconcepts
2. IdentifyanduseCloudservices
3. UnderstandIoTconcepts
4. IdentifyIoTapplications
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executable code and rich text in a single
document, alongwith images,HTML, LaTeX,
andmore.
§ Google App Engine: Google App Engine is a
Platform as a Service and cloud computing
platform for developing and hosting web
applicationsinGoogle-manageddatacenters.
Applications are sandboxed and run across
multipleservers.
Note:Abovecloudservicesarenotcompulsory
for all branches; teacher can recommend
other cloud service based on need of
engineeringbranch.
4.5 Working of IoT and IoT components (Only
brief introduction and demonstration
throughvideos)
4.6 Explain concept of Internet of Thingswith
examples
§ Smarthome
§ Smartcity
§ Smartfarming
Note:
a. Teacher can also select specific area ofwork where Things (autonomous
computing devices) could be
interconnectedoverTCP/IPtoestablish
IoT.
b. Thestudentsshouldbeintroducedtothe
IoT environment for further research
andstudy.
Example:§ https://www.raspberrypi.org/
§ https://www.arduino.cc/
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4.7 Activity:Create your cloud service account and
demonstrateusingcloudservices.
Identifycloudserviceproviderwithrespect
toservicemodelsanddeploymenttypes.
IdentifyareaswhereInternetofThingscould
bringpositivechanges.
5 UNIT5-CYBERSECURITYANDSAFETY 4-0-8
5.1 Introduction to Cyber security and cyber
safety.
§ Brief awareness on cyber safety
measures
§ Identificationofbasicsecurityissuesin
mobilephonesandpersonalcomputers
§ InstallationofAntivirussoftware
§ Firewallconcepts
§ Browsersettings
§ Importance of privacy and Password
policy(Bestpractices).
5.2 Commonthreats-Demonstration§ Phishing§ DoSattack§ Maninthemiddleattack§ Eavesdropping§ Spamming
5.3 Activity§ Identification of basic security issues in
computersofyourcollegeandfixingthesame.
§ Visitnearbygovernmentorganization.§ Identify basic cybersecurity issues
andfixingthesame§ Demonstrate the importance of
cybersecurity,passwordpolicy,andcybersafety.
1. IdentifyneedforCyber
securityandcybersafety
2. Identifybasicsecurityissuesin
mobile phones and personal
computers
3. Examine Importance of
privacy,Passwordpolicy
4. Implement best practices of
cyber safety and security in
workplace
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10.SUGGESTEDPRACTICALSKILLEXERCISES
TABLE-I
Sl.No. PracticalOutComes/PracticalexercisesUnit
No.PO CO
1
Writeanalgorithmforprogrammableproblems
ExampleforReference:
• Add/subtracttwonumbers
• Findthelargest/smallestof3numbers
• Calculateandprintsumof'N'numbers
1 1,4,7 1
2
Designaflowchartforprogrammableproblems
ExampleforReference:
Add/subtracttwonumbers
Findthelargest/smallestof3numbers
Calculateandprintsumof'N'numbers
1 1,4,7 1
3 DesignandcreatesimplegameusingMIT-scratch/Code.org 1 1,4,7 1
4 Designandcreatesimpleandroidapplication(MITAppInventor) 1 1,4,7 1
5Designandcreatewebpagefordisplayingyourpoem(Title,
header,paragraph,formattingtags)2 1,4,7 2
6
Designandcreatewebpageforyourwishlist(Whatyouwantto
do).Alsolistchallengesandopportunitiesalongwithimagesto
presentyourdreams(Listorderedandunordered,Image,table)
2 1,4,7 2
7DesignandcreatewebpageusingHTMLandCSSaboutan
awesomeanimal(UsenecessaryCSStags)2 1,4,7 2
8Designandcreatewebpageforatravelbook/recipebookwith
morethan3pages,tabletolistplaces/recipes(iframe,hyperlink)2 1,47 2
9
DesignandcreatewebpagewithJavaScripttodesignasimple
calculatortoperformthefollowingoperations:sum,product,
differenceandquotient
2 1,4,7 2
10 Designandcreateapersonalwebpagewithdashboard 2 1,4,7 2
11Designandcreatewebpageaboutadvantagesofbusinessprocess
automationwithrespecttoyourbranchofengineering2,3 1,4,7 2,3
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12Createaworkflowforeducationloanapprovalinbank/diploma
admissionprocess(Useanytool)3 1,4,7 3
13DemonstrateERPwithERPNextDemoformanufacturing,retail
andservicesector(UseanyotherERPtools)3 1,4,7 3
14CreateuseraccountanddemonstrateuseofGoogledrive,Google
docs,GoogleCo-lab(UsageofJupyterNotebook) 4 1,4,7 4
15
1.1 DemonstrateInternetofThingsusingwithexamples
a. Smarthome
b. Smartcity
c. Smartfarming
Note:TeachercanalsoselectspecificareaofworkwhereThings
(autonomouscomputingdevices)couldbeinterconnectedover
TCP/IPtoestablishIoT.
4 1,4,7 4
16 InstallationofAntivirussoftware 5 1,4,7 5
17 Demonstrationandhandsonbrowsersettings 5 1,4,7 5
18 Demonstrationandhandsonprivacysettingsandpasswordpolicy 5 1,4,7 5
19
Demonstrationofcommonsecuritythreats(usingvideos)
a. Phishing
b. DoSattack
c. Maninthemiddleattack
d. Spamming
e. Virus
5 1,4,7 5
Thesuggestedpracticalactivities(TABLE-I)inthissectionaredemonstratedfortheattainmentof
thecompetency.Thesepracticalactivitiescanalsobeusedforthestudentassessmentinportfolio
modeforawardingCIEmarks.Thelecturercanenhancethecompetencylevelofthestudents
bysketchingmorepracticalexercises.
NOTES:
1. Itiscompulsorytopreparelogbook/recordofexercises.Itisalsorequiredtogeteachexercise
recordedinlogbook,checkedanddulydatedsignedbytheteacher
2. Studentactivitiesarecompulsoryandarealsorequiredtobeperformedandnotedinlogbook.
3. Student activity is compulsory andpart of skill assessment. The activity enable student to
explorethecourse,helpstudenttodemonstratecreativity&criticalthinking.
4. StudentactivityreportiscompulsoryparttobesubmittedatthetimeofpracticalESE
5. TermworkreportiscompulsoryparttobesubmittedatthetimeofpracticalESE.
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6. Student activity and student activity reports must be uploaded to Learning management
system.
7. ForCIE,studentsaretobeassessedforSkills/competenciesachieved.
11.MAPPINGOFCOWITHPO
COURSE CO’S PROGRAMMEOUTCOMES(PO’S)
1 2 3 4 5 6 7
ITSKILLS CO1 3 0 0 3 0 0 3CO2 3 0 0 3 0 0 3CO3 3 0 0 3 0 0 0CO4 3 0 0 3 0 0 3CO5 3 0 0 3 0 0 0
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level0-Not
Mapped
12SUGGESTEDLEARNINGRESOURCES
BOOKS
1TheArtofProgrammingThroughFlowcharts&Algorithms,A.B.Chaudhuri,Firewall
Mediapublication
2 HTML5BlackBook,byPublishingcompanyLimited.KogentLearningSolutionsInc.
3 “WorldWideWebdesignwithHTML”,Xavier,TataMcGraw-Hill
4Internet of Things – A Hands on Approach, By ArshdeepBahga and Vijay Madisetti
UniversitiesPress,ISBN:9788173719547
URL’S
1 https://scratch.mit.edu
2 https://studio.code.org
3 http://ai2.appinventor.mit.edu
4 https://www.w3schools.com
5 https://www.tutorialspoint.com/javascript/index.htm
6 https://www.geeksforgeeks.org/html-tutorials/
7 Android
https://developer.android.com
8 https://www.khanacademy.org
9ToolsforWebDevelopment
a. https://www.wix.com
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b. https://atom.io/
c. https://www.openelement.com/
d. https://www.layoutit.com
13.SUGGESTEDLISTOFPROPOSEDSTUDENTSACTIVITY
Note:ReferactivitiesmentionedinDETAILSOFCOURSECONTENTtable
14.COURSEASSESSMENTANDEVALUATIONCHART
SL.N
O
ASSESSMENT DURATIO
N
(in
minutes)
MAX
MARKS
CONVERSION
1 CIEAssessment1(WrittenTest-1TH)-
Attheendof3 dweek
60 20 Averageof
twowritten
tests
20
2 CIEAssessment2(WrittenTest-2TH)-
Attheendof13 week
60 20
3 CIEAssessment3(SkillTest)-Attheendof
5 week
3hrs 20 Averageof
threeskilltest
204 CIEAssessment4(SkillTest)-Atthe
endof7 week
3hrs 20
5 CIEAssessment5(SkillTest)-Attheendof
9 week
3hrs 20
6 CIEAssessment6(Studentactivity)-Atthe
endof11 week
- 20 20
7 TotalContinuousInternalEvaluation(CIE)Assessment 60
8 SemesterEndExamination(SEE)
Assessment(PracticalTest)
3hrs 100 40
TOALMARKS 100
Note:CIEwrittentestisconductedfor20marks(Twosections).Eachsectionshallhavetwofull
questionsofsameCL,CO.Studentshallansweronefullquestionfromeachsection.
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15.RUBRICSFORACTIVITY
RUBRICSFORACTIVITY(ExampleOnly)
Appropriaterubricsshallbedevelopedbytheconcernedfaculty
Dimensio
n
Poor Below
Average
Average Good Exemplary Student
Score
4 8 12 16 20
Concept Does not collect
any information
relating to the
concept
Collects very
limited
information;
some relate to
theconcept
Collect much
information;
but very
limited relate
totheconcept
Collects some
basic
information;
most refer to
theconcept
Collects a great
deal of
information; all
refer to the
concept
8
Design Design is not
acceptable/very
poorlystructured
Design is poor
and not well
structured.
Design
Fallowed
layout
samples and
well
structured
Design &
convey both
content and
context
Design
considered all
aspect of
concept,
concept and
presentation
(UI)
6
Creativity Very little
creativity in
design/impleme
ntation
Creativity in
concept or
design or
implementatio
n
Creativity in
concept
/design/impl
ementation
Creativity in
concept
/design/imple
mentation
which
complements
eachother
Creative
concept,
content,
presentation
and
implementation
8
Impleme
ntation
Poorly
implemented
Partially
implemented
Implemented
on time with
results
(content)
Productconvey
both content
andcontext
Product is
creative with
easy-to-use UI,
structure
8
Average/TotalMarks:(8+6+8+8)/4 7.5=8
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16.RUBRICSforSkillTestEvaluation(BothforCIE&SEE)
SlNo ParametertobeObserved Marks
Allotted
1 Design-Written
SkillTest1:Algorithm/Flowchart/VisualDesign
SkillTest2:Websitevisualdesign
SkillTest3:WorkfloworProjectplanorcybersecurity
planorCloudserviceConcept
30
2 Implementation
SkillTest1:Androidapplication
SkillTest2:Website/Webpages
SkillTest3:Createorusecloudserviceaccountor
Cybersafetyandsecurity-Antivirus
Installationorbrowsersettings
50
3 AppealandPresentation 20
Total 100
17. SYSTEMREQUIREMENTS:
Sl.No. Specification Quantity
1. ComputerswithHDGraphicsCard 20
2. Software:GIMP,KRETA,BLENDER,PHOTOSHOPorany
otherrelevantopen-sourcesoftware.
-
3. InternetConnectivity -
Note:Abovespecificationisforabatchof20students
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GovernmentofKarnataka
DepartmentofCollegiateandTechnicalEducation
BoardofTechnicalExaminations,Bangalore
1.COURSESKILLSET
Theaimofthecourseistohelpthestudenttoattainthefollowingindustryidentifiedcompetencythroughvariousteaching learningexperiencesPerformRepairingWorkofUtilityJobsintheMechanicalEngineeringWorkshops
2.INSTRUCTIONALSTRATEGY
1. Instructor should expose to different tools used in respective shops, OperationalsafetyandProceduretobefollowedforpreparethemodel.Emphasisshouldbegivenonmarking,operationalsequence.
2. Focusshouldbeonproperselectionoftoolsandtheirproperuse.
3.COURSEOUTCOMES
On successful completion of the course, the studentswill be able to demonstrate industry-orientedCosassociatedwiththeabove-mentionedcompetency:
CO1 SelecthandtoolsandMachineryindifferentshopsaccordingtojob
CO2 Understandjobdrawingandcompletejobsasperspecificationsinallottedtime.
CO3 Inspectthejobforthedesiredqualityanddimensionsandposition
CO4 Operate,controldifferentmachinesandequipment’sadoptingsafetypractices.
CourseCode 20ME21P Semester IICourseTitle MECHANICAL
WORKSHOPPRACTICE-I
CourseGroup Core
No.ofCredits 4 TypeofCourse Lecture&Practice
Course
Category
PC TotalContact
Hours
6HrsPerWeek78HrsPerSemester
Prerequisites Drawing/Creativity Teaching
Scheme
(L:T:P)-1:0:2
CIEMarks 60 SEEMarks 40
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4.COURSECONTENTThefollowingtopics/subtopicsistobetaughtandassessedinordertodevelopUnitSkillsetsforachievingCOtoattainidentifiedskillsets
SHOP Unitskillset(Incognitivedomain)
Topics/Subtopics HoursL-T-P
UNIT-1INTRODUCTION
ImportanceoftradeTraining.- GeneraldisciplineintheInstitute
- ElementaryFirstAid.- Importanceofcarpentry/Fitter/WeldinginIndustry
- Safety precautions to befollowed in while doing woodworking/fitting operations/ShieldedMetalArcWelding,andOxy- Acetylene Weldingoperations/,Oxy-acetylenecuttingoperations
1. DemonstrationofMachineryusedinthetrade.
2. Identificationtosafetyequipmentandtheiruseetc.
3. Hacksawing,filingsquaretodimensions.
4. MarkingoutonMSplateandpunching.
01-00-02(01classof
3Hrduration)
UNIT-2BASICARTISAN
SKILLS-CARPENTARY
1. Interpretgivenjobdrawing2. Select the relevant carpentry
toolformakingthejob3. Describe the specified
operationsinthecarpentryshop4. Explain the maintenance
procedure of the giventool/Equipment’s in carpentryshop
1. Types of woods used incarpentry
2. VariousMarkingtoolsusedincarpentry
3. VariousHolding tools-usedincarpentry
4. Various Planning tools-used in carpentry forplanningpractice
5. VariousCuttingtools-saws-Cross cut saw ,Hand saw,Rip saws,Tennon saw,Chisels-Firmer chisel, dovetailchisel,Mortisechiselincarpentry
6. Prepare two simplejob(Male and femaleassemblytype)aspergivendrawing with joint likemortiseandtenondovetail,bridle,halflap
7. Safepractices
06-00-12(06classof
3Hrduration)
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UNIT-3BASICARTISAN
SKILLS-FITTING
1. Interpretgivenjobdrawing2. Select the relevant Fitting tool
formakingthejob3. Select the proper rawmaterial
forgivencondition4. Describe the specified
operationsintheFittingshop5. Explain the maintenance
procedure of the giventools/Equipments in fittingshop
1. Fitting tools-Bench vice-clamp
2. Various Marking &measuring tools-used infittingpractice
3. Variouscuttingtoolsusedinfittingshop
4. Various finishing tools usedinfittingpractice
5. FittingshopmachinesuchasDrilling machine, powerhack saw, grindingmachinetheir specification, care andmaintenance
6. Demonstration of differentoperations like chipping,filing, drilling, tapping,sawing, cutting etc - safepractices
7. Prepare two simple job(Male and female assemblytype)aspergivendrawing.
06-00-12(06class
of3Hr
duration)
UNIT-4FABRICATION-ARCWELDING
1. SettheArcweldingmachineandperform different type ofjointsonMS in differentposition observing standardprocedure.
2. Arc welding equipment-Powersources for Arc Welding-Transformer
3. VariousArcweldingtools4. Technique of welding-
Preparation of work, Striking ofan arc, weaving, weldingpositions, weld joints [differenttypesofjoints-Fillet(T-joint,lap &Corner), Butt (Square&V);differentposition-1F,2F,
5. welding shop-Arc weldingtransformer specifications andmaintenance
6. Safepractices
1. Describe the safetyprecautionstobetakenforArcweldingactivities.
2. Fix/hold the parts whichneedtobeweldedtogetherasperArcweldingusingaclampandalignthemwiththe electrodes as per thejobrequirementsothatthework pieces do not falldown/turn.
3. Fix the work pieces onthe Arc Weldingapparatus keeping inmind the electrodedistance,contactarea,
4. Monitor the Arc weldingprocess by observing andcommunicating thereadingson, variouspanels/metersattheright
05-00-10(06classof
3Hrduration)
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timetopreventanyharmto theworkpiecesdue tooverheating, burning andovermelting.
5. Remove extra material byusing chippers, grindersetc.
6. ShapetheArcweldedworkpieces as per requirementbyhammeringthebulges.
UNIT-5FABRICATION-GASWELDING
1. Introductionanddefinitionofgaswelding. GasWelding terms anddefinitions Various Gas weldingtoolsandequipments
2. Setting of oxy-acetylenewelding equipment, lightingandsettingofflame.
3. VariousWeldingProcessesanditsapplications.
4. Technique of Gas welding-Preparation of work, weldingpositions,weldjoints
5. Perform fusion run withoutfiller rod on MS sheet 2mmthickinflatposition.
6. Set the gasweldingplantandjoin MS sheet in differentposition.[Differentposition:-1F,2F,3F,1G,2G,3G.]
1. Describe the safetyprecautionstobetakenforgasweldingactivities.
2. Fix/hold the parts whichneed to be weldedtogether as per gasweldingusingaclampandalign them with theelectrodes asper the jobrequirement so that thework piecesdo not falldown/turn.
3. Fix theworkpiecesonthe Gas Weldingapparatus keeping inmindthefamedistance,contactarea,
4. Monitor the Gas weldingprocessbyobservingandcommunicating thereadings on variouspanels/ meters at therighttimetopreventanyharm to thework piecesdue to overheating,burningandovermelting.
5. Remove extramaterial byusing chippers, grindersetc.
6. ShapetheGasweldedworkpieces as per requirementbyhammeringthebulges
05-00-10(05classof3 Hrduration)
UNIT-6GASCUTTING
1. Commongasesusedforwelding&cutting,flametemperaturesanduses.
2. Chemistryofoxy-acetyleneflame.
1. Settingupofoxy-acetyleneandmakestraightcuts(freehand)
2. PerformmarkingandstraightlinecuttingofMS
03-00-06(03classof3 Hrduration)
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3. Typesofoxy-acetyleneflamesanduses.
4. Oxy-Acetylene CuttingEquipmentprinciple,parametersandapplication.
plate10mmthickbygas.Accuracywithin±2mm.
3. BevelingofMSplates10mmthick,cuttingregulargeometricalshapesandirregularshapes,cuttingchamfersbygascutting.
4. CirculargascuttingonMSplate10mmthickbyprofilecuttingmachine.
5. Markingandperformradialcuts,cuttingoutholesusingoxy-acetylenegascutting.
6. Identifycuttingdefectsviz.,distortion, grooved, flutedor ragged cuts; poordraglines; rounded edges;tightlyadheringslag
Sl.N
o.
PracticalOutComes/Practicalexercises Unit
No.
PO CO L:T:P
Hrs.
1 1. DemonstrationofMachinery/toolsusedinthetrade.2. Identificationtosafetyequipmentandtheiruseetc3. Identificationoftoolsaccordingtouse.4. Markingoutonjobandpunching.
1 1,4 1-4 0:0:2
2 Identificationofdifferentwoodensamplepiecei.e.-softwood&hardwoodDemonstrationofdifferentwoodworkingtools/machines. and ask students towrite thewoodworking toolsusedincarpentryinworkshopdairy(Dothisexercise).
I 1,4 1-4 0:0:2
3 Demonstration of different wood working processes, likeplaining, marking,(Do this exercise) by issuing two woodenpieces
2 1,4 1-4 0:0:2
4 Demonstration of different wood working processes, like,chiseling,groovingandaskthestudentstodotheseprocessonissuedwoodenpieces(Dothisexercisebyissuingtwowoodpiecestostudent).
2 1,4 1-4 0:0:2
5 Does the female piece of wooden joint like any one joint(mortiseandtenondovetail,bridle,halflap(Notall)ofissuedonewoodenpieceandmaketheonlyoneFemalejoint
2 1,4 1-4 0:0:2
6 Doesthemalepieceofwoodenjointlikeanyonejoint(mortiseandtenondovetail,bridle,halflap(Notall)ofissuedanotherwoodenpieceandmaketheonlyonemalejoint
2 1,4 1-4 0:0:2
7 PrepareCarpentryjob(maleandfemaleassemblytype)aspergivendrawing,checkthecorrectnessoffitofmatingparts(ForJobDrawingmodelsyoucanrefermodelquestionbank)
2 1,4 1-4 0:0:2
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8 Demonstrationof differentfittingtoolsanddrillingmachinesandpowertoolsusedinFittingshopandaskstudentstowritethefittingtoolsusedinfittingshopinworkshopdairy(Dothisexercise).
3 1,4 1-4 0:0:2
9 Demonstration of different fitting processes filing, ask thestudents to do theseprocess on issuedmetal pieces (Do thisexercisebyissuingtwometalpiecestostudent).
3 1,4 1-4 0:0:2
10 Demonstration of different fitting processes like, cutting, askthestudentstodotheseprocessonissuedmetalpieces(Dothisexercisebyissuingtwometalpiecestostudent).
3 1,4 1-4 0:0:2
11 PrepareFittingjob(Maleassemblytype)aspergivendrawingorjob involving different fitting processes drilling, tapping, andcutting,checkthecorrectnessoffitofmatingparts JOB1(Formodelsyoucanrefermodelquestionbank)
3 1,4 1-4 0:0:2
12 PrepareFittingjob(Femaleassemblytype)aspergivendrawingorjobinvolvingdifferentfittingprocessesdrilling,tapping,andcutting,checkthecorrectnessoffitofmatingparts JOB1(ForJobdrawingmodelsyoucanrefermodelquestionbank)
3 1,4 1-4 0:0:2
13 PrepareFittingjob(maleandfemaleassemblytype)aspergivendrawing or job involving different fitting processes drilling,tapping,andcutting,checkthecorrectnessoffitofmatingparts(Formodelsyoucanrefermodelquestionbank)
3 1,4 1-4 0:0:2
14 StraightlinebeadsandWeavedbeadonM.Splate10mmthickinflatposition.
4 1,4 1-4 0:0:2
15 Fillet “T” joint onM.S. Plate10mm thick in flatposition andhorizontalposition.
4 1,4 1-4 0:0:2
16 Fillet lap joint onM.S. plate10mm thick in flat position andverticalposition
4 1,4 1-4 0:0:2
17 OpenCornerjointonMSplate10mmthickinflatposition. 4 1,4 1-4 0:0:218 Single “V”Butt jointonMSplate12mmthick in flatposition
(1G).4 1,4 1-4 0:0:2
19 StraightlinebeadsandmultilayerpracticeonM.S.Plate10mmthickinHorizontalposition.
4 1,4 1-4 0:0:2
20 MarkingandstraightlinecuttingofMSplate.10mmthickbygas.SquarebuttjointonM.S.sheet2mmthickinflatPosition.
6 1,4 1-4 0:0:2
21 FilletLapjointonMSsheet2mmthickinflatposition 5 1,4 1-4 0:0:222 Square Butt joint on M.S. sheet. 2 mm thick in Horizontal
position5 1,4 1-4 0:0:2
23 StructuralpipeweldingbuttjointonMSpipeØ50and3mmWTin1Gposition
5 1,4 1-4 0:0:2
24 Settingupofoxy-acetyleneandmakestraightcuts(freehand)andPerformmarkingandstraightlinecuttingofMSplate10mmthickbygas.Accuracywithin±2mm.
6 1,4 1-4 0:0:2
25 BevelingofMSplates10mmthick,cuttingregulargeometricalshapeslikerectangle,triangle,pentagon
6 1,4 1-4 0:0:2
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26 Markingandperformradialcuts,cuttingoutholesusingoxy-acetylenegascutting
6 1,4 1-4 0:0:2
TotalHours 0:0:52
=52
MAPPINGOFCOWITHPO
CO CourseOutcome POMapped
Experiment
Linked
CognitiveLevel
R/U/A
Tutorial&PracticalSessionsinHrs
CO1 SelecthandtoolsandMachineryindifferentshopsaccordingtojob
PO1,PO4 AllCO A 20
CO2 Understand job drawing andcompletejobsasperspecificationsinallottedtime.
PO1,PO4 AllCO A 35
CO3 Inspect the job for the desireddimensionsandshape.
PO1,PO4 AllCO A 13
CO4 Operate, control differentmachines and equipment’sadoptingsafetypractices.
PO1,PO4 AllCO A 10
78
Course CO’s ProgrammeOutcomes(PO’s)
1 2 3 4 5 6 7
MECHANICALWORKSHOP-ICO1 3 0 0 3 0 0 0CO2 3 0 0 3 0 0 0CO3 3 0 0 3 0 0 0CO4 3 0 0 3 0 0 0
Level3-HighlyMapped,Level2-ModeratelyMapped,Level1-LowMapped,Level
0- NotMapped
7. SUGGESTEDLEARNINGRESOURCES:
1. S.K.HajaraChaudhary,WorkshopTechnology,MediaPromotersandPublishers,NewDelhi,2015.
2. B.S.Raghuwanshi,WorkshopTechnology,DhanpatRaiandsons,NewDelhi2014.3. K.VenkatReddy,WorkshopPracticeManual,BSPublications,Hyderabad2014.
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4. KentsMechanicalEngineeringHandbook,JohnWileyandSons,NewYork.
8. SUGGESTEDLISTOFSTUDENTSACTIVITYS
Note:thefollowingactivitiesorsimilaractivitiesforassessingCIE(IA)for10marks(Anyone)
1. Eachstudentshouldconductdifferentactivityandnorepeatingshouldoccur
1 Takethestudentsforindustrialvisitforanearbyweldingshop;observethesafetypracticesfollowedandweldingoperationalactivities.Makehandwrittenreport
2 TakethestudentsforlocalindustryworksobservetheFittingpracticesfollowedintheindustry.
3 Askthestudentstoobservethecarpentryoperationscarriedoutinlocalvicinity
9.CourseAssessmentandEvaluationChart
Sl.N
o
Assessment Type Timeframein
semester
Duration Max
marks
Conversion
(End
weightage)
1 CIEAssessment
1
GRADEDEXERCISES
Averageofallmodelsevaluated
inallshops(PORTFOLIOEVALUATION)
Attheendofeachmodelcompletion- Attheendof13thweek
20 20
2 CIEAssessment
2
Skilltest-1-Carpentary
- Attheendof5thweek
3Hrs 100 Averageofthreeafterconvertingfor20Marks
203 CIE
Assessment3
Skilltest-2-Fitting
- Attheendof9thweek
3Hrs 100
4 CIEAssessment
4
Skilltest-3-Welding
- Attheendof13thweek
3Hrs 100
5 CIEAssessment
5
Studentactivity
- Attheendof12thweek
20 20
TotalContinuousInternalEvaluation(CIE)Assessment 60SemesterEndExamination(SEE)Assessmentwillbeconductedfor100marksandfinallyconvertedforwieghtageof40Marks
3Hrs 100 40
TotalMarks
100
Note:
1. CIESkill test isconductedfor100marks(3Hoursduration)asperCIEschemeofevaluation.Theobtainedmarksarescaleddownto20marks.
2. SEEisconductedfor40Marksforpracticalcourses.3. Eachshopmodelincarpentry/fitting/Weldingexclusivelykeptforskilltes-1,2,3in
CIE
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4. Inabatchofallottedstudents’modelincarpentry,fittingandweldingpracticeshouldbeequallyweighed,inCIE
5. Assessment of assignment and student activity is evaluated through appropriaterubrics by the respective course coordinator. The secured mark in each case isroundedofftothenexthigherdigit.
10.SCHEMEforPortfolioEvaluationofGradedExercise
BasicArtisanskills-
Carpentry
SlNo ParameterObserved MarksAllotted GrandTotal
1 Marking 4
20
2 ToolsUsed 43 OperationPerformed 44 DimensionalAccuracy 45 Finishing 4
Total 20
BasicArtisanskills-Fitting
SlNo ParameterObserved MarksAllotted
1 Marking 42 ToolsUsed 43 OperationPerformed 44 DimensionalAccuracy 45 Finishing 4
Total 20
Welding
SlNo ParameterObserved MarksAllotted
1 EquipmentPreparation 42 JobPreparation 53 OperationPerformed 64 Finishing 5
Total 20
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11.SCHEMEforSkillTestEvaluation/SEEforCIE
Sl.No Particulars Marks
1 Listingoftools&operationsrequiredforperformingjob 15
2 Markingofjob 10
3 Operationperformed 40
4 Dimensionalaccuracyofjob 10
5 Finishingofjob 20
6 Viva 5
Total
100
RUBRICSFORACTIVITY(10marks)
Dimensio
n
Beginning Developin
g
Satisfacto
ry
Good Exemplar
y
Student
Score
2 4 6 8 10Descriptor Descriptor Descriptor Descriptor Descriptor 8
Descriptor Descriptor Descriptor Descriptor Descriptor 6
Descriptor Descriptor Descriptor Descriptor Descriptor 8Descriptor Descriptor Descriptor Descriptor Descriptor 8
Average/TotalMarks:(8+6+8+8)/4 7.5=8
marks
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ModelQuestionPaper(suggestiveonly)
SemesterEndExamination
Course&Programme:Semester:I/IISubject:MechanicalWorkshopPractice-1MaxMarks:100CourseCode:20ME21PDuration:3Hrs
InstructiontotheCandidate:ALLDIMENSIONSAREINMMONLY
Qn.No Question CL CO PO Marks
1
Preparemodelaspershownfigure(Note:EitherMale/femalejointshouldbegiven)
OR
A 1-3 1,4 40
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2 Preparemodelaspershownfigure
60
Note:ThemodelsforrespectiveshopsshouldbegivencyclicallywithintheBatchforSEE/Skilltest
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MODELQUESTIONBANK(SUGGESTIVEONLY)
DEPARTMENTOFMECHANIACLENGG.
COURSETITTLE:ENGINEERINGWORKSHOP
FORCARPENTRYSHOP
1.
2.
3.
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4.
5.
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WELDINGSHOP
Copythegivensketchofthejoint,thenmakethejointusingthegivenMSflatpiece.
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EQUIPMENTLIST
FORCARPENTRYPRACTICE
SL.NO NAMEOFTHEEQUIPMENT NO.OFSTUDENTS/BATCH
NO.OF
EQUIPMENT
REQUIRED
01 Carpenterbenchvice 20 2002 GorCclamp6″ 20 2003 Markinggauge 20 2004 Trysquare19mmx4″ 20 2005 Woodenmallet 20 2006 Firmerchisel2″ 20 2007 Firmerchisel3/4″ 20 2008 Mortisechisel1/2″ 20 2009 Metaljackplane9″ 20 2010 Beveledsquare6″ 20 2011 Handsaworcrosscutsaw 20 2012 Steelscale12″ 20 20
FORFITTINGPRACTICE
SL.NO NAMEOFTHEEQUIPMENT NO.OF
STUDENTS/B
ATCH
NO.OF
EQUIPMENT
REQUIRED
01 Flatfile14″roughbastardfile 20 2002 Trysquare6″ 20 2003 Triangularfile10″rough 20 2004 Halfroundfile10″rough 20 2005 Hacksawframesolid12″ 20 2006 Centerpunch 20 2007 Ballpeenhammer11/2Lbs 20 2008 Flatchisel6″ 20 2009 Smoothfile10″flat 20 2010 Benchvice8″ 20 2011 Legvice6″ 20 1012 Powerhacksaw 20 0113 Benchgrinding 20 0114 Benchdrillingmachineupto12mmcap 20 0115 Drillbitupto12mmstraightshunk 20 0416 Tapsetanddiesetupto1″ 20 0117 Verniercaliper 20 1018 Springdivider 20 2019 Steelscale 20 2020 Vernierheightgauge 20 0121 Surfaceplate2x3feet 20 0222 Numberpunch 20 0123 Anvil 20 2024 Vblock 20 02
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FORWELDINGPRACTICE
SL.NO NAMEOFTHEEQUIPMENT NO.OF
STUDENTS/B
ATCH
NO.OF
EQUIPMENT
REQUIRED
01 Arcweldingtransformerupto300Amps 20 0302 Weldingshield 20 2003 BallpeenHammer11/2Lbs 20 1004 ChippingHammer 20 1005 Wirebrush 20 1006 Anvil 20 0107 HandGloves 20 0508 Flattongs 20 1009 Steelscale 20 1010 Flatfile14″roughbastardfile 20 1011 Oxygencylinder 20 0112 Acetylenecylinder 20 0113 Gasweldingtorch 20 0514 Sparklighter 20 0515 Gasweldinggoggles 20 1016 Gascuttingtorch 20 0217 Trysquare6″ 20 10
!" #ೕಯ &'ಸ) * ಕನ. ಡ 0ರದ / ಕನ. 4ತರ 678 ೕ9 :;< =>ಗ@A BಗCಪ6Eದ ಪಠ< ಕG ಮ
ಬಳ# ಕನ' ಡ – 1 Course Code 20KA21T Semester : II Course Group – AU/KA Course Title ಬಳK ಕನ. ಡ – I Category : AU Lecture Course No. of Credits 2 Type of Course CIE Marks : 50 Total Contact Hours 2 Hrs Per Week
26Hrs Per Semester Teaching Scheme (L:T:P)= 2:0:0
SEE Marks : Nil
Table of Contents (ಪ"#$) Part – 1 Teaching
Hour Introduction to the Book, Necessity of learning a local language, Tips to learn the language with easy methods. Easy learning of a Kannada Language: A few tips. Hints for correct and polite conservation. Instructions to Teachers for Listening and Speaking Activities.
02
Part – II
Key to Transcription for Correct Pronunciation of Kannada Language, Instructions to Teachers to teach Kannada Language
02
Part – III Lessons to teach Kannada Language - Listening and Speaking Activities
Lesson – 1 Personal Pronouns, Possessive Forms, Interrogative words 02
Lesson – 2 Possessive forms of nouns, dubitive question and Relative nouns 02
Lesson – 3 Qualitative, Quantitative and Colour Adjectives, Numerals 02
Lesson – 4 Predictive Forms, Locative Case 02
Lesson – 5 Dative Cases, and Numerals 02
Lesson – 6 Ordinal numerals and Plural markers 02
Lesson – 7 Defective / Negative Verbs and Colour Adjectives 02
Lesson – 8 Permission, Commands, encouraging and Urging words (Imperative words and sentences)
02
Lesson – 9 Accusative Cases and Potential Forms used in General Communication 02
Lesson – 10 Helping Verbs “iru and iralla”, Corresponding Future and Negation Verbs 02
Lesson – 11 Do's and Don'ts in Learning of Kannada Language (Any Language in General) 01
Lesson – 12 Kannada Vocabulary List : !"ಷ$ಯ&' )*ೕಪ-ೕ. ಕನ1 ಡ ಪದಗ5 - 01
Kannada Words in Conversation Total Teaching Hours
26 Hours
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(ಕನ# ಡ &', )*ತ, , -ಸ/ ೃ1 ಮ34 ಪ6ಪ7 893)
Course Code 20KA21T Semester : II Course Group – AU/KA Course Title )*ತ, :ಂಚನ – ೧ Category : AU Lecture Course
No. of Credits 2 Type of Course CIE Marks : 50 Total Contact Hours 2 Hrs per Week
26 Hrs per Semester Teaching Scheme (L:T:P)= 2:0:0
SEE Marks : Nil
!"ತ$ %ಂಚನ – ೧ (,ಯ./ಸ1 ಕ) (20KA21T)
ಪಠ7 8ಸ: ಕದ ಪ"#$ =ೕಧ@
ಅವC
1. ಕ@Dಟಕದ -GH ಪ4 ಇ1Jಸ ಮ34 )*ತ, ದ KಳವMN 01 QR
2. ಕನ# ಡ )*ತ, ದ -GH ಪ4 ಚ9ST 01 QR
3. ಹVಗನ# ಡ )*ತ, - Xಪ YವD Zಗ
ಕನ1 ಡ 67ತ9 ದ ರಚ<= ಪ> ?ಖ A> ೕರ$ಗ5 ಮCD ಪ> "ವಗ5 ಕನ1 ಡ 67ತ9 ಪFಪG ಮCD HIಶ> ಯ ಕKHಜMಗN ಮCD ವOP Hಧ<
03 QR
4. Xಪ / \Y Zಗದ ಕನ# ಡ )*ತ, ಮ34 ಪ6ಪ7
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04 QR
5. ನ^ಗನ# ಡ )*ತ, - ವಚನ )*ತ, / ಬಸವ Zಗ
ವಚನ 67ತ9 ದ ^ಳವ`== ]ರಣಗ5 ಮCD ಅದರ ಮಹತd ಪ> ?ಖ ವಚನ]ರe, ವಚನ 67ತ9 ದ&' fghಕi ಮCD ]ಯಕ ತತD d
04 QR
6. 8aರc, ಸ Zಗ ಮ34 )*ತ, ದ ಇತ7 dಪಗe
ರಗV – ಹhಹರ, ಷಟg h – jMರk9 ಸ, ಲmn o ೕಶ ಮCD Hಘkಂಕ )ಂಗತ, - ರq1 ಕರವ`N,
04 QR
7. iಸ )*ತ, / GೕತDkಗe rFದರsಸe, ಕನಕsಸe ಮCD ಇತG mೕತN<]He
02 QR
8. ಇತ7 )*ತ, ದ ಪT mರಗe 1T ಪh - ಸವNಜu , nನಪದ )*ತ, , ತತ4 o ಪದಗe - vwZಳ ಶhೕಫe
04 QR
9. ಮ*p )*ತ, : yಳವನಕz{ .hಯಮo ಮCD !|}ನ1 ಮo , ಆstಕ YವD ಕನ# ಡ )*ತ, : ~ಂrZHಯಣ ಮCD ?ದ� ಣ
02 QR
10. ಹVಗನ# ಡ ಮ34 ನ^ಗನ# ಡ )*ತ, ಚ9ST ಯ ಒಂw ಅವxೕಕನ 01 QR
ಒN) OೕಧQ ಅವC 26 TUಗV 26 TU
ಬಳ#ೆ ಕನ(ಡ -I ಮತು/ 0ಾ2ತ3 4ಂಚನ -೦೧ ಪಠ3ಕ;ಮಗ=>ೆ ?ರಂತರಆಂತBಕCೌಲ3Cಾಪನದ
CಾಗGಸೂJಗಳK
(COURSEASSESSMENTSANDEVALUATIONCHART-CIEONLY)
Sl.No Assessment TypeTimeframeinsemester
DurationMaxmarks
Conversion
1. CIEAssessment1 Writtentest-1-Attheendof3rdweek
80minutes 30 Averageofthreewrittentests-1,2,3for30marks
2 CIEAssessment2 Writtentest-2-Attheendof7thweek
80minutes 30
3 CIEAssessment3 Writtentest-3-Attheendof13thweek
80minutes 30
4 CIEAssessment4 MCQ/Quiz-Attheendof5thweek
60minutes 20 Averageofthree
Assessment4,5,6for20marks
5 CIEAssessment5 Openbooktest-Attheendof9thweek
60minutes 20
6 CIEAssessment6Studentactivity&presentation
-Attheendof11thweek
60minutes 20
TotalContinuousInternalEvaluation(CIE)Assessment 50
Total
Marks 50
Government of Karnataka Department of Collegiate and Technical Education
C-20 Second Year Diploma Curriculum Mechanical Engineering
Curriculum Development Cell, DTE2021-22
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 1
GovernmentofKarnatakaDEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
CurriculumStructureIIISemesterSchemeofStudies-DiplomainMechanicalEngineering
Sl.No.
CourseCategory/
Teaching
Department
CourseCode CourseName
Hoursperweek
Totalcontacthrs
/week
Credits
CIEMarks
SEEMarks
TotalM
arks
MinMarksfor
Passing(including
CIEmarks)
AssignedGrade
GradePoint
SGPAandCGPA
L T P Max Min Max Min
IntegratedCourses
BothSGPA&CGPA
1 PC/ME 20ME31P MechanicsofMaterials 3 1 4 8 6 60 24 40 16 100 40
2 PC/ME 20ME32P MachineToolTechnology 3 1 4 8 6 60 24 40 16 100 40
3 PC/ME 20ME33P ManufacturingProcesses 3 1 4 8 6 60 24 40 16 100 40
4 PC/ME 20ME34P FluidPowerEngineering 3 1 4 8 6 60 24 40 16 100 40
AuditCourse5 AU/KA 20KA31T !ಾ#ತ%&ಂಚನ-II/ಬಳ/ೆಕನ2ಡ-II 2 0 0 2 2 50 20 - - 50 20
Total 14 4 16 34 26 290 116 160 64 450 180
*PC:ProgrammeCore::AU-AuditCourse::KA:Kannada::L:Lecture::T:Tutorial::P:Practice
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 2
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATIONCurriculumStructure
IVSemesterSchemeofStudies-DiplomainMechanicalEngineering
Sl.No.
CourseCategory/
Teaching
Department
CourseCode CourseName
Hoursperweek
Totalcontacthrs
/week
Credits
CIEMarks
SEEMarks
TotalM
arks
MinMarksfor
Passing(including
CIEmarks)
AssignedGrade
GradePoint
SGPAand CGPA
L T P Max Min Max Min
IntegratedCourses
BothSGPA&CGPA
1 PC/ME 20ME41P OperationsManagement 3 1 4 8 6 60 24 40 16 100 40
2 PC/ME 20ME42P CNCProgrammingandMachining
3 1 4 8 6 60 24 40 16 100 40
3PC/ME
20ME43P ProductDesignandDevelopment
3 1 4 8 6 60 24 40 16 100 40
4PC/ME 20ME44P ElementsofIndustrial
Automation3 1 4 8 6 60 24 40 16 100 40
AuditCourse5 AU/ME 20ME45T IndianConstitution 2 0 0 2 2 50 20 - - 50 20
Total 14 4 16 34 26 290 116 160 64 450 180
*PC:ProgrammeCore::AU-AuditCourse::L:Lecture::T:Tutorial::P:Practice
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 4
GovernmentofKarnataka
DEPARTMENTOFTECHNICALEDUCATION
Programme MechanicalEngineering Semester III
CourseCode 20ME31P TypeofCourse ProgrammeCore
CourseName MechanicsofMaterials ContactHours8hours/week104hours/semester
TeachingScheme L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 401.RationaleInthiscourse,Diplomaengineersarerequiredtoanalysethereasonsforfailureofcomponentsandselectthesuitablematerialsforagivenapplications.Forthispurpose,itisessentialtostudytheconcepts,principles,applicationsandpracticescoveringstress,strain,stressconcentration,weakpoints,deformations,bendingmomentandshearingforce.ThestudentswillalsostudythebasicprinciplesofFiniteElementsAnalysisandperform stress strain analysis usingAnsys software to understand and quantify the effects of real-worldconditionsonapart.Thesesimulations,willallowDiplomaengineerstolocatepotentialproblemsinadesign,includingareasoftensionandweakspots.FEAbecomesatremendousproductivitytool,helpingengineersinreducingproductdevelopment timeand cost.Hence, FEA is introduced in this course. It is expected thateffortswillbemadetoprovideappropriatelearningexperiencesintheuseofbasicprinciplestothesolutionofappliedproblemsandtodeveloptherequiredskillandcompetencies
2.CourseOutcomes:AttheendoftheCourse,thestudentwillbeableto:
CO-01 Analyse Simple Stresses and Strains on given Structuralmember that is subjected to Tensile,CompressiveandShearloadsbyusingDestructiveTest.
CO-02 Draw Shear force Diagram (SFD) and Bending moment Diagram (BMD) and Also, AnalyseBendingStressesinaBeamusingFiniteelementmethods(FEM)software
CO-03 Demonstratetheapplicationof finiteelementformulationstosolvebothOnedimensionalandTwodimensionalProblems.
CO-04 DemonstratetheapplicationofFEMsoftwareforValidationofbothOnedimensionalandTwodimensionalProblems
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week4hours/week(2
hours/batchtwiceinaweek)
1 01 01
1. Introduction to Force-Types of Forces-Resolutionofforces
ReferTable1
Resolution of forces byGraphicalMethod
2.ProblemsonResolutionofforces-AnalyticalMethod Verification of Forces by
Lami’sTheorem3.ProblemsonResolutionofforces-AnalyticalMethod
2 01 01
1. Types of Loads-Tensile,Compression,Shear, Impact,Stress-Types-Strain-Types-- Hooks Law- Young'sModulus
ConductTensile test for thegiven Specimen andDetermine Stress- Strain-Young’s Modulus, YieldStress- Maximum Stress-
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 5
2. Stress - Strain Diagram -Elastic constants- Linearstrain, Lateral Strain,Poison’s Ratio, VolumetricStrain, Bulk Modulus,RigidityModulus ,Fatigue-EnduranceLimit
ReferTable1
Breaking Stress- %Elongation inLengthand%ReductioninAreaAlso,DrawStress-StrainDiagramfortheaboveParameters3. Stress concentration,
Factor of Safety(FOS),Concept of Temperaturestresses
3 01 01
1. Simple Problems onStress, Strain and Elasticconstants
ReferTable1
Conduct Compression testfor the given Specimen andDetermine Stress- Strain-Young’s Modulus, YieldStress- Maximum Stress- %Reduction in Length and%IncreaseinAreaAlso,DrawStress-StrainDiagramfortheaboveParameters
2.. Simple Problems onStress, Strain and Elasticconstants
3. Simple Problems onStress, Strain and Elasticconstants
4 01 01
1. Problems on Memberssubjected to combinedStresses
ReferTable1Conduct Shear test for thegivenspecimen
2. Problems on Memberssubjected to combinedStresses3. Problems on Memberssubjected to combinedStresses
5 02 02
1. Types of Beams-Types ofLoads acting on Beams-Concept of Shear force -Bendingmoment2DrawShearforceDiagram(SFD) and BendingMomentDiagram (BMD) forCantileversubjectedtoPointLoad and UniformlyDistributedloads(UDL)3.DrawShearforceDiagram(SFD) and BendingMomentDiagram (BMD) forCantileversubjectedtoPointLoad and UniformlyDistributedloads(UDL)
ReferTable1
ConductBendingtestforthegivenspecimen
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 6
6 02 02
1.DrawShearforceDiagram(SFD) and BendingMomentDiagram(BMD)foraSimplysupported beam subjectedtoPointLoadandUniformlyDistributedloads(UDL)
2.Draw SFD and BMD forSimply supported andCantileverbeamsubjectedtoPoint Load and UDL DrawShear force Diagram (SFD)and Bending MomentDiagram(BMD)foraSimplysupported beam subjectedtoPointLoadandUniformlyDistributedloads(UDL)3 Draw SFD and BMD forSimply supported andCantileverbeamsubjectedtoPoint Load and UDL DrawShear force Diagram (SFD)and Bending MomentDiagram(BMD)foraSimplysupported beam subjectedtoPointLoadandUniformlyDistributedloads(UDL)
ReferTable1
Present You tube videos inStress, Strain and BendingStresses on DifferentmechanicalmembersPrepare a report on theobservationsmadeEg:https://www.youtube.com/watch?v=C-FEVzI8oe8
7 02 02
1. Pure Bending-Assumptions- Neutral Axis-BendingEquation2. Problems on BendingEquation3. Problems on BendingEquation
ReferTable1
Present You tube videos inStress, Strain and BendingStresses on DifferentmechanicalmembersPrepare a report on theobservationsmade
8 03,04 01
1.Introduction to FiniteElement Methods (FEM),Need-BackGround2. Methods employed inFEM-StepsinFEM3. Advantages andDisadvantages, Limitations,ApplicationsofFEM-ConceptofDiscontinuity
ReferTable1 Practice on FEM software(Eg:Ansys)
9 02,03,04 01,02,04
1. Phases of FEA(FiniteElementAnalysis)2.DiscretizationProcess3.Meshing–Elementtype
ReferTable1
Validate Bending EquationProblems solved inWeek 7using FEM software (Eg:Ansys)
10 02,03,04 01,02,04
1.Stiffness Matrix of a BarElement2.Global Stiffness Matrix-Propertiesofstiffnessmatrix
ReferTable1
Validate Bending EquationProblems solved inWeek 7using FEM software (Eg:Ansys)
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 7
3. Boundary Conditions-Methods–Types
11 03,04 02,04,07 Problemson1-Delements Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
ValidateusingFEMsoftware(Eg:Ansys)
12 03,04 02,04,07 Problemson1-Delements ValidateusingFEMsoftware(Eg:Ansys)
13
03,04
02,04,07 Problemson2-Delements ValidateusingFEMsoftware(Eg:Ansys)
Totalinhours 39 13 52• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCoordinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
TABLE1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution).
Sl.No. SuggestiveActivitiesforTutorials
01 UnderstandStaticEquilibriumusingcommonexamples,trytoapplytheprinciplesanddemonstrateinclasstheimportanceofstaticequilibriumindailylife,athomeoratwork.
02StudythebehaviorofAluminumundertheactionofTensile/CompressionLoad.PlotStressStrainDiagramandDemonstrateintheclassthebehaviorofAluminumdifferentfromthatofaCastIron.
03Aseesawisoccupiedbytwochildrenofequalweight“W”N.Thecenterofgravityofeachchildisxmetersfromthefulcrum.Thelengthoftheboardis3xmeters,ymmwideandzmmthick.Determinethemaximumbendingstressandshearstressintheboard.
04
TaperedelasticbarsubjectedtoanappliedtensileloadPatoneendandattachedtoafixedsupportattheotherend.Thecross-sectionalareavarieslinearlyfromA0atthefixedsupportatx=0toA0/2atx=L.Calculatethedisplacementoftheendofthebar(a)bymodellingthebarasasingleelementhavingcross-sectionalareaequaltotheareaoftheactualbaratitsmidpointalongthelength,(b)usingtwobarelementsofequallengthandsimilarlyevaluatingtheareaatthemidpointofeach,andcomparetotheexactsolutionByFEM.
05 IdentifythetypeBeaminTrafficLightPost.DeterminethedisplacementfieldforthisbeamsubjectedtoUDLthroughoutitslength.
06DiDiscussprocedureusingthecommercialpackageavailabletodayforsolvingproblemsofFEM.TakeaStructuralProblemtoDemonstratethesame.
07
In1989,Jason,aresearch-typesubmersiblewithremoteTVmonitoringcapabilitiesandweighing35200N,wasloweredtoadepthof646minanefforttosendbacktotheattendingsurfacevesselphotographsofasunkenRomanshipoffshorefromItaly.Thesubmersiblewasloweredattheendofahollowsteelcablehavinganareaof452×10–6m2andE=200GPa.Determinetheextensionofthesteelcable.Duetothesmallvolumeoftheentiresystem,buoyancymaybeneglected.
08Laboratorytestsonhumanteethindicatethattheareaeffectiveduringchewingisapproximately0.25cm2andthatthetoothlengthisabout1.1cm.Iftheappliedloadintheverticaldirectionis880Nandthemeasuredshorteningis0.004cm,determineYoung’smodulus.
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 8
4.CIEandSEEAssessmentMethodologiesSl.No
AssessmentTestWeek
Duration
InminutesMaxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests
302. CIE-2WrittenTest 9 80 30
3 CIE-3WrittenTest 13 80 30
4. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskilltestreducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60
SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTest
CourseName
MechanicsofMaterials Test I/II/III Sem III
CourseCode 20ME31P Duration 80Min Marks 30
Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels(R/U/A)
CourseOutcome Marks
I1
2
II3
4
III5
6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,cognitivelevelandcourseoutcomes.
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 9
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 01 VerificationofForcesbyLami’sTheorem• Findingtheresultantofforces-AnalyticalMethod–15Marks• VerificationofForcesbyLami’sTheorem–Practically-15Marks
30
2 02 DeterminethedeformationofagivenspecimensubjectedtoTensile/Compressive/Shearloads/BendingusingUTM• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-10Marks• ConductionofExperiment---20Marks• CalculationandResultwithGraphifany---20Marks
60
3 01,02 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6weeks)
10
TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 02 CalculateandPlotSFDandBMDfortheGivenData• FindingShearforceandBendingMoment–(10+15)=25Marks• PlotSFDandBMD–15Marks
40
2 03,04
ApplyfiniteelementformulationstosolvethegivenOnedimensionalcasesandValidateusingAnsys
• SolvebyFEMMethod—25Marks• ValidateUsingFEMsoftware(Eg:Ansys)---25Marks
50
3 02,03,04
PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12weeks)
10
TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 10
1 Descriptor Descriptor Descriptor Descriptor Descriptor 8
2 Descriptor Descriptor Descriptor Descriptor Descriptor 6
3 Descriptor Descriptor Descriptor Descriptor Descriptor 2
4 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5
Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 10
Sl.No.
Description
1 SchaumOutlines,“StrengthofMaterials”,5thEdition
2 RAMAMURTHAM.S.,“StrengthofMaterials”,14thEdition,DhanpatRaiPublications,2011
3 KHURMIRS,“AppliedMechanicsandStrengthofMaterials”,5Edition,S.Chandandcompany
4 NASHW.A,“TheoryandproblemsinStrengthofMaterials”,SchaumOutlineSeries,McGraw-HillBookCo.,NewYork,1995.
5 RYDERG.H,“StrengthofMaterials”,3rdEdition,MacmillanIndiaLimited,2002.
6 BANSALR.K,“StrengthofMaterials”,LaxmiPublications,NewDelhi,2012.
7 Schaumseries,StrengthofMaterials
8 TIMOSHENKOS.P,“ElementsofStrengthofMaterials”,TataMcGraw-Hill,Delhi,
9 IntroductiontoFiniteElementsinengineeringbyTRIRUPATHIR,CHANDRUPATLA,ASHOKDBELEGUNDA,PearsonPublications.
10 PracticalFiniteElementAnalysisbyNITINSGOKHALE,SANJAYSDESHPANDE,FinitetoInfinitePublications
11ANSYSfreesoftwaretutorial((Studentversion)
https://www.google.co.in/search?biw=1024&bih=667&q=ansys+software+tutorial&sa=X&ved=0ahUKEwjm5o_MndHNAhUBsI8KHbRWDhUQ1QIIXygE
8.LISTOFSOFTWARE/LEARNINGWEBSITES
1. www.nptel.iitm.ac.in/courses/.../IIT.../lecture%2023%20and%2024htm2. www.wikipedia.org/wiki/Shear_and_moment_diagram3. www.freestudy.co.uk/mech%20prin%20h2/stress.pdf4. www.engineerstudent.co.uk/stress_and_strain.html5. www.ansys.com/Student6. http://www.mece.ualberta.ca/tutorials/ansys
9.SEESchemeofEvaluation Duration:180Min
SL.No.
CO
Particulars/Dimension Marks
1
01,02
DeterminethedeformationofagivenspecimensubjectedtoTensile/Compressive/ShearloadsusingUTM• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-10Marks• ConductionofExperiment---05Marks• CalculationandResultwithGraphifany---15MarksORCalculateandPlotSFDandBMDfortheGivenData• FindingShearforceandBendingMoment–10Marks• PlotSFDandBMD–15Marks• ValidateUsingFEMsoftware(Eg:Ansys)---15Marks
40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 11
2
03,04
ApplyfiniteelementformulationstosolvethegivenOnedimensional/TwodimensionalcasesandValidateusingAnsys
• SolvebyFEMMethod—20Marks• ValidateFEMsoftware(Eg:Ansys)---20Marks
40
3 01,02,03,04
Vivavoce 20
TotalMarks 100
10.Equipment/softwarelistwithSpecificationforabatchof20students
Sl.No. Particulars Specification Quantity
01 Universaltestingmachine
Computerized100TonCapacityWithallattachmentstoconductshear,bending,compressionandtensiletest
01
02 Ansyssoftware 20user03 DesktopComputer Latestconfiguration 10nos
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 12
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1. Rationale: Diploma Engineers are responsible for supervising production processes to achieveproduction targets and for optimal utilization of resources. For this purpose, knowledge about variousmachiningprocessesisrequiredtobeimparted.ThestudentsaretobetrainedandequippedwithadequatetheoreticalandpracticalknowledgeaboutMetalCuttingPhenomenonandvariousprocesses like turning,drilling,milling, grindingetc.Hence, this course is introduced toprovidehandsonexperienceonvariousmachinetoolsusedinthemanufacturingstreamandtoprovidefoundationfordiplomaengineerswhowanttofurtherspecialiseinthefieldofprecisionmanufacturing
2.CourseOutcomes:AttheendoftheCourse,thestudentwillbeableto:
CO-01 ListrelevantworkplaceOccupationalhealthandsafetystandardsandexplaintheimportanceoftheneedtocomplywiththem.
CO-02 ExplaintheimportanceofCuttingtoolGeometry,listvariousCuttingParameters,theroleanduseoftherightCoolantsandLubricantsforthegivenmachiningprocesses.
CO-03 Demonstrateturningoperationforagivencomponentdrawingandobject,prepareaprocesschartandestimatethecostofitsproductionasperdrawing.
CO-04Demonstratemillinganddrillingoperationneededasperagivencomponentdrawing,listallthemachine toolsneeded for theoperation,prepareaprocess chart andestimate the costof itsproductionasperthedrawing.
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week 4hours/week(2hours/batchtwiceinaweek)
1 01 05
1.Educate about Safety standardsPracticed in the machine Shop -Importance of housekeeping andgoodShopfloorPractices(5S)2.UnderstandthePrinciplesofFirstAid.PreventivemeasurestobetakenduringFireandElectricalemergency
ReferTable1
1.Readandinterpretthesafetysigns displayed in theMachineshop
InstructorhastoshowvariousSafety sign charts andPersonnel ProtectiveEquipment(PPE)andaskthetrainees to identify andrecord in the dairy2.ReadandinterpretthePPE
Programme MechanicalEngineering Semester III
CourseCode 20ME32P TypeofCourse ProgrammeCore
CourseName MachineToolTechnology ContactHours8hours/week104hours/semester
TeachingScheme L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 13
TypesofFireextinguisher(ClassA,B,C,D)3.KnowledgeaboutSafetyandEnvironmentRegulations
FirstaidandbasictrainingIdentifyandSegregatewastematerial(cottonwaste,metalchips,burrsetc.)Arrangementofwasteinbins
3.Hazardsidentificationandavoidance
Preventivemeasureforelectricalaccidents
Selectthefireextinguisheraccordingtotypeoffire
4.OperatetheFireextinguisherandextinguishthefire
PreventivemeasureforOilleakagesandrelatedHazardsPracticethesafetynormswhileworkingonDeferentMachineTool
2 02 01,04
1Lubrication-NeedofLubrication-SelectionofLubricantasperISOstandard.2.TheoryofmetalRemoval-Traditional&NonTraditionalmaterialremovalprocess-Chipforming&Nonchipforming3.Typesofcuttingtools-Singlepointtools-Multipointtools–SpecificationofSinglePointCuttingTool,Parting,KnurlingTool,V-tool
ReferTable1
1. InstructorhastodisplayalltheLubricantsusedinthesectionandbriefaboutitsuses
2. SelectaProperlubricantanddemonstratethelubricationofvariousmAskthestudentstorecordintheDairy
3. Instructorhastoshowall
thetools,machineriesandmeasuringinstrumentsusedinthemachineshopandbriefaboutitsuses.AskthestudentstorecordintheDairy.
4. IdentifythetypeofChips
formedandrecordinthedairy
3 02 01
1.Grinding-Abrasives-ApplicationsofNaturalabrasives-standstone(Quartz),CorundumandEmeryDiamondandGarnets-ApplicationofManufacturedAbrasives-SiliconCarbide,AluminumOxideCubicboronNitride2.Explain–Grit,Grade,Structure,Bond,TypeISODesignationofGrindingWheels3.ToolGeometry-ToolmaterialsandDesignation-Toollife&Wear
ReferTable1
1.PracticeonGrindingmachine2GrindingPracticeofSinglepointtoolaspertoolGeometry
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 14
ConceptofCuttingspeed-Depthofcut-Feed
4 03 01
1.IntroductiontoSurfaceTexture-IndicationofRoughnessSymbols-Completesurfacesymbolchart,GradeandNumbers,-Tolerances-UnilateralandBilateral2.IntroductiontoLathe-Typesoflathe-CapstoneandTurretLathe,AutomaticLatheandothers-SpecificationofaCenterLathe-.CuttingFluids-Selectionofcuttingfluids-3.ExplainWorkholdingDevices-ToolHoldingDevices
ReferTable1
1. ReadandinterprettheSurfacefinishandTolerancesinthegivenProductiondrawing.
2. IdentifythemainPartsofLatheanditsfunctions
IdentifythemovementsinLatheParts
• Carriage• CrossSlide• TailStock
3.RemovetheChuckfromSpindleNoseandagainmountonit
4.DemonstrationofholdingWorkpiecein3-Jawand4-Jawchuck
5.IdleoperationofLathe.RotationofspindleinClockwiseandCounterclockwisedirection
6.IdentifytheLubricationPartsinLathe
7.SettheSpindlespeed-Feed-LeverPosition.
5 03 01,02,04
1.ExplainPlainturning,Stepturning,KnurlingandChamferingOperations2.PreparetheProcessplanasperthegivendrawingforPlainTurning,StepTurning,KnurlingandChamfering2.EstimatetheProductioncostperPieceasperthegivendrawingforPlainTurning,StepTurning,KnurlingandChamfering(ConsiderallDirectandIndirectcosts)
ReferTable1
1.ReadandUnderstandthegivenDrawing2.SelectthesuitableRawmaterial3.FixthegivenmaterialbetweenheadstockandTailStockafterperformingFacingandCountersinking.4.SelecttheSpeedandFeed5.Selectandsettheappropriatecuttingtoolsasperthesequenceofoperations5Performalloperationsaspertheprocessplan6.Checkthedimensionsusingmeasuringinstruments7.ObserveandIdentifytheChipFormation
6 03 01,02,04
1.ExplainTaperturningoperationsbydifferentmethods-CalculateTaperanglesfor
ReferTable1 1. ReadandUnderstandthegivenDrawing
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 15
differentTaperturningcomponentDrawings2.PreparetheProcessplanasperthegivendrawingforTaperTurning3.EstimatetheProductioncostperPieceasperthegivendrawingforTaperTurning(ConsiderallDirectandIndirectcosts)
2. MarktherequireddimensionsasperthegivendrawingforTaperturning
3. FixthegivenmaterialbetweenheadstockandTailStock
4. SelectandSetthetoolstoperformTaperturning
5. SelecttheSpeedandFeed6. PerformtheTaperTurningoperationsandrecordthemachiningtime.
7. MeasuretheTaperangleinthegivenspecimenusingBevelProtractor
7 03 01,04
1.ExplainThreadcuttingMechanisma) HalfNutMechanismb) TumblerGearMechanism2.PreparetheProcessplanasperthegivendrawingforThreadcutting
3.EstimatetheProductioncostperPieceasperthegivendrawingforThreadcutting(ConsiderallDirectandIndirectcosts)
ReferTable1
1. ReadandUnderstandthegivenDrawing
2. FixthegivenmaterialbetweenheadstockandTailStock
3. SelectandSetthetoolstoperformThreadcuttingoperations
4. SelecttheSpeed,Feedandlubricant
5. PerformthethreadcuttingoperationsMeasurethePitchofthethreadforthegivenspecimenbyusingPitchGauge
8 04 01,04
1.IntroductiontoMilling–Typesofmillingmachine–SpecificationofaMillingmachine2.TypesofMillingcuttersandtheiruses-MillingCutterNomenclature-SpecificationofMillingCutter3.MethodsofMilling-UpMillingandDownMilling-Workholdingdevices
ReferTable1
1. IdentificationofMillingmachinePartsanditsUsage
2. DemonstratetheworkingPrincipleofMillingmachineandmovementsofTableandArbor
3. SettingofViceandJobontheTableofMillingMachine
4. SettheCutterontheArbor5. IllustratethesafetypointstobeobservedwhileworkingontheMillingmachine
6. IdentifyandSelectthedifferentMillingCutters
7. DemonstratetheUp-millingandDown–MillingProcess
9 04 01,02,04
1.ExplainPlainMillingOperation2..PreparetheProcessplanasperthegivendrawing(SolidBlock)forPlainMilling3.EstimatetheProductioncostperPieceasperthegivendrawingforPlainMilling
ReferTable1
1. PerformPlainMillingofSixfacesofaSolidBlock
2.ChecktheaccuracyoftheJobwithsuitableMeasuringInstruments
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 16
Operation(ConsiderallDirectandIndirectcosts)
10 04 01,02,04,07
1.ExplainKeywayandV-slotOperation2.PreparetheProcessplanasperthegivendrawingforKeywayandV-slot3. EstimatetheProductioncost
perPieceasperthegivendrawingforKeywayandV-slot
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
1. PerformMillingof
KeywayandVSlot
2. CheckthedimensionalaccuracywithsuitableMeasuringInstrument
11
04
01,02,04,07
1. ExplainGearcuttingbyIndexingMethods
2. PreparetheProcessplanasperthegivendrawingforGearcutting
3. EstimatetheProduction
costperPieceasperthegivendrawingforGearcutting
1. DemonstrateIndexingHead
2. SetandAlignIndexing
HeadwithreferencetotheJobonMillingmachineTable
3. PerformGearTeethonaBlankbySimpleIndexingMethod
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 17
12 04 01,02,04,07
1.IntroductiontoDrilling–TypesofDrillingMachines-SpecificationofDrillingMachines-SpecificationofDrillBit,Reamer,DieandTaps2.NomenclatureofDrillBit,Reamer,DieandTaps-StandardsizesofDrillBitsExplainOperationsperformedinDrillingMachines-Drilling,Countersinking,Reaming,Boring,Tapping3.PreparetheProcessplanasperthegivendrawingandEstimatetheProductioncostperPieceasperthegivendrawing
1. IdentificationofDrillingmachineParts
2. DemonstratetheworkingPrincipleofDrillingmachine
3. SettheViceandJobontheTableofDrillingmachine
4. IllustratethesafetypointstobeobservedwhileworkingontheDrillingmachine
5. IdentifyandSelectthedifferentDrillBits
6. SettheDrillbitsonthespindle.
7. DrillEquallyspacedholes(Circular/Square/Rectangularplate)
8. Finishthepre-drilledholewithaReamer
13
01,02,03,04
Demonstratethemanufacturingoffollowing components usingYouTubeVideos
1. Fasteners2. PropellerShaft3. Gears4. Pistonmanufacturing
Discuss and Prepare a Report onthe videos Presented for eachmanufacturedcomponent.
Demonstrate themanufacturing of followingcomponents using YouTubeVideos1. TubeandPistonRod
Manufacturing.2. Cylinder
manufacturingetc.,3. Singlepointtool4. DrillbitsEtc.
DiscussandPrepareaReportonthevideosPresentedforeachmanufacturedcomponent
Totalinhours 39 13 52
• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCoordinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)Sl.No. SuggestiveActivitiesforTutorials
01
PresentareportonMachinesafetyGuidelinesaspertheApplicablestandardGuidelines(CSAStandardZ432-04(R2009))includinghazardsassociatedwithmachines,Powertools,MachineShop.AlsoDiscussgeneralcontrolsforreducingmachineHazards.https://ehs.utoronto.ca
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 18
02DiscussCommongrindingProblemsAndtheirRemedies.AlsodiscusstheneedforBalancingtheGrindingWheels..https://www.Euromarcconz
03Whetherit'sgraniteforyourcountertops,backsplash,orfloortiles,makingpristinecutscanbeachievedwithproperprecautions,techniques,andspecializedgranitecuttingtoolsformakingtilesandslabsofthishardrock.Discussandpresentareportonthosetools.
04PresentaReportonApplicationsofInversionsofKinematicMechanisms:With-worthquickreturnmotionmechanisminShaperDouble-slidercrankmechanism
05PresentaCaseStudyonMachinetoolchatterarisinginaninterruptedturningprocess
https://core.ac.uk/download/pdf/33663698.pdf
06
PresentaReportonInfluenceofCuttingParametersoncuttingforceandSurfacefinishinTurningoperation
https://www.sciencedirect.com
07 AnalysetolerancesinaProductionDrawing
08 AnalyseSurfacefinishsymbolsinaProductionDrawing
09 DemonstratethevariousmeasuringinstrumentsusedinMachineShop
10CollectthesamplepieceofvariousrawmaterialsusedinmachineshopandDiscusstheirmechanical,chemicalandPhysicalproperties
4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests30
2. CIE-2WrittenTest 9 80 303 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskill
testreducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName MachineToolTechnology Test I/II/III Sem IIICourseCode 20ME32P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestionsCognitiveLevels(R/U/A)
CourseOutcome
Marks
I1
2
II3
4
III 5
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 19
6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 03 QuestiononTurningoperationswithProcessplan,ProductionCostoftheproductforaGivenparameters
• ProcessplanincludesComponentDrawing,processlistandToolselection=25marks
• CostingincludesRawmaterial,processandfindingTotalcost,sellingPriceandcostofscrap=25marks
• PerformanceofTurningandTaperturningoperations(20+15)=35marks
• Dimensionalaccuracy=05Marks
90
2 01,02,03 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6weeks)
10
TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1
04
QuestiononMillingoperationswithProcessplanandProductionCostoftheproductforaGivenparameters
• ProcessplanincludesComponentDrawing,processlistandToolselection=20marks
• CostingincludesRawmaterial,processandfindingTotalcost,sellingPriceandcostofscrap=30marks
• PerformanceofMillingoperationsincludingKey/Slot/Gearteethcuttingoperations(20+15)=35marks
• Dimensionalaccuracy=05Marks
90
2 03,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12Weeks)
10
TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 20
Sl.No. Description1 MechanicalestimationandcostingT.R.BangaandS.C.SharmaKhannapublishers2 MechanicalEstimationMalhothra
3 IndustrialOrganizationandEngineeringEconomics T.R.BangaandS.C.Sharma Khannapublishers
4 MechanicalEstimationNITTTRChennai NITTTRChennai5 MechanicalcostingandEstimation. SinghandKhan KhannaPublishers6 ProcessPlanning&CostEstimation M.Adithan NewageInternational
7 Rao,P.N.,ManufacturingTechnology,Vol I& II,TataMcgrawHillPublishingCo.,NewDelhi,1998
8 Seropekalpakjian, Steven R Schmid Manufacturing Engineering and Technology- PearsonEducation-Delhi
9Sharma,P.C.,ATextbookOfProductionTechnology–VolIAndII,S.Chand&CompanyLtd.,NewDelhi,1996
10 HMT–“ProductionTechnology”,TataMcgraw-Hill,1998
8.LISTOFSOFTWARES/LEARNINGWEBSITES:
1.http://calculatoredge.com/index.htm#mechanical2.www.nptel.ac.in/courses/112105126/363.www.youtube.com/watch?v=T5gjkYvMg8A4.www.youtube.com/watch?v=ESKoaZtoB1E5.www.freevideolectures.com9.SEESchemeofEvaluation Duration:180minSL.No.
CO Particulars/Dimension Marks
1
03,04
QuestiononTurningoperationswithProcessplanandProductionCostoftheproductforaGivenparameters
• ProcessplanincludesComponentDrawing,processlistandToolselection=20marks
• CostingincludesRawmaterial,processandfindingTotalcost,sellingPriceandcostofscrap=25marks
• PerformanceofOperations=30marks• Dimensionalaccuracy=05Marks
ORQuestiononMillingoperationswithProcessplanandProductionCostoftheproductforaGivenparameters
• ProcessplanincludesComponentDrawing,processlistandToolselection=20marks
• CostingincludesRawmaterial,processandfindingTotalcost,sellingPriceandcostofscrap=25marks
• PerformanceofMillingoperationsincludingKey/Slot/Gearteethcuttingoperations(20+10)=30marks
• Dimensionalaccuracy=05Marks
80
2 01,02,03,04
Vivavoce 20
TotalMarks 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 21
10.EquipmentlistwithSpecificationforabatchof20students
Sl.No.
Particulars Specification Quantity
01 CenterlatheWithallaccessoriesandattachments(Geardriven)
Max50mmDiaHoldingcapacity500mmCenterdistance.Swingoverdia200mm
20
02 HSScuttingtool 20*20*150MM 4003 HSScuttingtool 10*10*150MM 2004 Cementedcarbidetippedtoolswithholderbrazed Forturning 2005 KnurlingtoolRough Standard 1006 KnurlingtoolSmooth Standard 1007 Verniercalipers 300mm 2008 Outercaliper 5ommOD 2009 Steelscale 300mm 2010 Dialgaugeforsettingofwork Standard 10
11 CountersunkDrillBit 6mmTapershank 20
12 UprightDrillingMachineUpto24mmdrillWithallattachment
01
13 SensitiveDrillingMachine Upto18mmdrill 01
14 MachineVice(ToholdJob) 120mmJawGap 05
15 DrillBitset 6mmto24mm 10set16 MarkingDivider 200mmdia 17 Markingpunch Standard 20nos18 CombinationSetSquare Standard 10nos19 Surfaceplate 300*300mm 01no
20 ColumnandKneetypeVerticalMILLINGmachineWithallattachments
.TableTravelof800mm.24mmcuttersBoredia(ID)
01no
21 PlainmillingCutter24mmID/Slabmilling StandardSizeforPractice 05
22 Keywaycutter 6mm 1023 Keywaycutter/Slotcutter 12 10
24 Gearcutter(Spurteeth) StandardSizeforPractice 10
25 ConcaveMillingcutter StandardforSizePractice 10
26 ConvexMillingcutter StandardSizeforPractice 10
27 KeywayMillingcutter 40mmdia 1028 EndMillingCutter 24mmdia 10
29 BenchGrinder300mmwheeldiaRoughandSmooth
02
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 22
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1. Rationale: Diploma Engineers are responsible for supervising production processes to achieveproduction targets and for optimal utilization of resources. For this purpose, knowledge about variousmanufacturingprocessesisessential.Thisrequirestrainingthestudentsincastingandmetalformingdomainsoastoequipthemwithadequatetheoreticalandpracticalknowledgeaboutthevariousmetalcastingandforming processes like rolling, forging, drawing, extrusion, Sheet metal work etc. Hence this course isintroducedtoprovidehandsonexperienceonvariousmanufacturingprocesses.
2.CourseOutcomes:AttheendoftheCourse,thestudentwillbeableto
CO-01 Producepatterns,moulds,andcastingofagivencomponentdrawingandestimatethecostofcasting.
CO-02 Demonstrateforgingoperationforagivencomponentdrawingandestimatethecostofforging.
CO-03 Preparesheetmetaldrawing,demonstratesheetmetaloperationandestimatethecostsofSheetmetaloperation.
CO-04 Explainrollingandextrusionoperationandlistapplicationsofmetalsformingprocesses.
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week
4hours/week(2hours/batchtwiceina
week)
1 01 01,04
1.Introductiontofoundry–YoutubevideosonfoundriesExplainthesafetyPrecautionstobetakeninfoundries2.ExplaintheneedofaPattern-TypesofPatterns—SolidorSinglePiecepattern,SplitPattern,LoosePiecePattern,MatchPlatePattern,GatedPattern,SweepPattern,Skeleton-Pattern3.Allowances-MaterialsusedforPattern
ReferTable1
1.Identifythetoolsandequipmentusedinfoundrywithapplication2.PrepareasinglePiecewoodenPatternconsideringallallowances
2 01 01,04
1.MoldingSand-Types2.IngredientsandPropertiesofMoldingSand
ReferTable11.Prepareamoldingsand2.PreparationofMoldwiththehelpofPattern
Programme MechanicalEngineering Semester III
CourseCode 20ME33P TypeofCourse ProgrammeCore
CourseName ManufacturingProcesses ContactHours8hours/week104hours/semester
TeachingScheme
L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 23
3.ImportanceofCoreandCoreprints-Gates-Runner-Riser
3.Meltthemetal(wax)andpouringitintothemoldcavity
3 01 01,04
1.ExplainDefectsinCasting2.InspectionofCasting3.DeterminationofProductionCostofagivenmaterialconsideringRawmaterial,Processcost,Overheadsandotherexpenses
ReferTable1
1. CuttingRunnerandriserinthecastedcomponent
2. Cleaningofthecastedcomponent
3. Inspectionofthecasted
component
4. Recordthedefects,ifany
4 02 01,04
1.IntroductiontobasicMetalFormingProcessandApplications-ShowYoutubeVideo’sonMetalFormingProcess2.ExplainHotandColdWorkingProcesswithApplicationShowYoutubeVideosonHotandColdWorkingProcess3.Introductiontoforgingoperation-Typesofforging-HandforgingandPowerforging
ReferTable1
1.DemonstratesafetyprecautionstobefollowedinForging2.Identifythetoolsandequipment’susedinforging3.ForgingPractice(Hammering)
5 02 01,04
1.ExplainforgingOperations-Upsetting,drawingdown,Cutting,Bending2.ExplainPunchingandDrifting,SettingdownandFinishing,ForgeWelding3EstimationofLengthofRawmaterialrequiredtoconvertCircularrodtoSquareandCalculatetheProductionCostconsideringdirectandIndirectexpenses.
ReferTable1 ConversionofCircularrodtoSquare
6 02 01,04
1. EstimationofLengthofRawmaterialrequiredtoconvertCircularrodtoHexagonandCalculatetheProductionCostconsideringdirectandIndirectexpenses.
2. ExplaintheworkingprincipleofPowerhammer
3. ShowtheyoutubevideosoncomponentsproducedbyPowerforging
ReferTable1
ConversionofCircularrodtoHexagon
7 02 01,04
1. EstimationofLengthofRawmaterialrequiredtoconvertHexagonto”L”shapedNailandCalculatetheProductionCostconsideringdirectandIndirectexpenses
2. ExplainForginglosses-ForgingDefects
ReferTable1ConversionofHexagonto”L”Nailasperthegivendrawing
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 24
3.Showtheyoutubevideosoncomponentsproducedbyforgingoperations
8 03 01,04
1.Introductiontosheetmetal-ShowYoutubevideosonsheetmetaloperationsandApplications2.Explainsheetmetalmaterials–StandardGaugesofsheet-SpecificationofSheet3.ExplaindifferentSheetmetaloperations
ReferTable1
1. Identifyanddemonstratethevarioustoolsusedforsheetmetaloperations.
2. Measurethegaugesofsheet
3. DemonstratetheoperationsperformedonShearingmachine
9 03 01,04
1.ExplaintheDevelopmentofConeandCylinder2.ExplaintheDevelopmentofPrismandPyramid3.ExplaintheDevelopmentofFunnel
ReferTable1
1. PrepareCone,Cylinder,Prism,PyramidandFunnel
2. Joinendsurfacesby
meansofSeamJoint
10 03 01,04
1.ExplaintheDevelopmentofTray2.ExplaintheDevelopmentofTransitionpieces3.ExplaintheDevelopmentofTransitionpieces
ReferTable1
1. PrepareaTray
2. PrepareanyTransitionPiece
11 03 01,0407
1. FindthetotalProductioncostofasheetmetalcomponentslikeOpencontainer,CylindricalDrum
2. IntroductiontoPowerPress-Presssize-Presstools–DieAccessories
3. TypesofDieanditsoperations
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
1. PresentYoutubeVideosonPressworkoperations
2. Recordthe
observationsmadeandprepareareport.
12 04 01,07
1.IntroductiontoRolling-NomenclatureofRolledProducts-Diesusedinrollingprocess2.TypesofRollingmills-2highmill-3Highmill–4Highmill-Clustermill,TandemMill,Planetarymill,DefectsinRolling3.IntroductiontoExtrusionandDrawing–TypesofExtrusionProcess.WireandTubeDrawingProcess,DiesusedinExtrusionandDrawingProcess
Video/VirtualexposureonRollingandExtrusion
13 04 01,07
Demonstrate the manufacturing offollowing components usingYouTubeVideos1. CrankShaft2. Valves3. Wheel4. Gearcase5. Hairsprings
Demonstrate themanufacturing of followingcomponentsusingYouTubeVideos1. TMTSteels2. Channelsections3. PumpCasings4. RollingofSheets
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 25
DiscussandPrepareaReportonthevideosPresentedforeachmanufacturedcomponent
5. Toothpastetube6. Pipes7. Tubesetc.,
DiscussandPrepareaReportonthevideosPresentedforeachmanufacturedcomponent
Totalinhours 39 13 52• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCoordinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)Sl.No. SuggestiveActivitiesforTutorials
01
Fromheavycastingof300Kgtosmallcastingof30kg,investmentcastingmethodisusedforaswideforhi-techindustrialapplications.Investmentcastingislargelyreliedonforcomplicateddesignsthatcannotbecastedusinganyothermethod.Discuss.Also,PresentthePreparationofPatternsfortheProcess.ComparetherelativesurfacefinishofthisprocesswithotherCastingProcesses.
02Discusstheforgingdefectscommonlyoccurringinforgings,theircausesandRemedies.PresentthemethodologyformeasuringForgingdefects.https://studentlesson.com
03 AGascylinderisproducedbySheetmetaloperations.PreparethedevelopmentandPresenttheprocedureinvolvedinmakingthegivencomponent.
04 IdentifytheformingprocessadoptedinmakingToothPasteTubes.Presenttheprocess.Listthelimitationsinvolvedandsolutionstoovercometheselimitations.
05 EstimationofLengthofRawmaterialrequiredforaforgedboltandCalculatetheProductionCostconsideringdirectandIndirectexpenses.
4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests30
2. CIE-2WrittenTest 9 80 303 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskill
testreducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName ManufacturingProcesses Test I/II/III Sem III/IVCourseCode 20ME33P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels
CourseOutcome Marks
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 26
I1 2
II3 4
III5 6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 01 QuestiononCastingProcessWithProcessplan,CostingoftheproductforaGivenparametersincludingpattern,meltingandotherexpenses• ProcessplanincludingComponentDrawing,processlistandTool/Equipment’sselection=15marks
• PreparationofMoldbyusingPattern=25Marks• CostingincludingRawmaterial,processandfindingTotalcost,sellingPrice=25Marks
• Operationperformed=20marks• Dimensionalaccuracy=05Marks
90
2 01 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6weeks) 10TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 02 QuestiononForgingoperationwithProcessplan,CalculationofRawmaterialLength,CostingoftheproductforaGivenparametersconsideringallPossibleLosses.• ProcessplanincludingComponentDrawing,processlistandTool/Equipment’sselection=15marks• CostingincludingRawmateriallength,processtimeandfindingTotalcost,sellingPrice=25marks• OperationsPerformedwithDimensionalaccuracy=20Marks.
60
2 03 OneSkillorientedQuestiononSheetMetalwork• Developmentforagivendrawing=20Marks• SheetmetalOperationwithDimensionalaccuracy=10marks
30
3 02,03
PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12weeks)
10
TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 6
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 27
3 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:Sl.No. Description1 ElementsofWorkshopTechnology(Vols.1andII)byHajraChaudhary2 ProductionTechnologyByR.K.Jain3 FoundryTechnologyByO.P.Khanna4 EngineeringDrawingVol-2ByK.R.GopalaKrishna5 EngineeringDrawingByN.D.Bhat8.SEESchemeofEvaluationDuration:180MinSL.No.
CO
Particulars/Dimension Marks
1
01,02
OneSkillorientedQuestiononCasting• ProcessplanincludingComponentDrawing,processlistand
Tool/Equipment’sselection=15marks• PreparationofMoldbyusingPattern=30Marks• OtherOperationsperformed=10marks
OROneSkillorientedQuestiononForgingoperationwithProcessplan,CalculationofRawmaterialLength,CostingoftheproductfortheGivenparametersconsideringallPossibleLosses.
• ProcessplanincludingComponentDrawing,processlistandTool/Equipment’sselection=20marks
• CostingincludingRawmateriallength,processtimeandfindingTotalcost,sellingPrice=25marks
• OperationsPerformedwithDimensionalaccuracy=10Marks.
55
2 03
OneSkillorientedQuestiononSheetMetalwork• Developmentofproduct=15Marks• PerformanceandOperationwithDimensionalaccuracy=10marks
25
4 01,02,03,04 Vivavoce 20 TotalMarks 100
9.EquipmentlistwithSpecificationforabatchof20students
Sl.No. Particulars Specification Quantity01 Mouldingbox 300*300*100mm 2002 MouldingRammer Standardsize 2003 Mouldingtoolkit Standardsize 20
04 Electricfurnaceformelting(Wax/Lowmeltingpointmetalwithcrucibleandladderforpouring) Standardsize 04
05 Portablegrinderforcleaningofcasting Standardsize 0206 SandBlaster Standardsize 0407 BallpeenHammer ½lb 0508 PatternMakingToolkit Standardsize 1009 AnvilForForging Standardsize 0510 Sledgehammer 2LB 10
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 28
11 Handhammer 1lb 1012 Flatteners Standardsize 2013 FlatTongs Standardsize 2014 RoundTongs Standardsize 2015 Steelscale 300mm 2016 GIBucketforQuenching 15ltscapacity 1017 OpenHeartFurnacewithstandandBlower Standardsize 0418 HotChisel 24mmsize 1019 SheetshearingMachine(ManualorM/ctype) Standardsize 0420 Sniperforcuttingsheet Standardsize 2021 Metalstake Standardsize 1022 Woodenmallet Standardsize 2023 PlasticHammer Standardsize 2024 BenchviceforBendingofsheet Standardsize 0525 BrazingGun Standardsize 10
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 29
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION1.Rationale:Fluidpowerisoneofthebasicbuildingblocksofmodernautomationandismostwidelyusedsystem to convert fluid energy into useful work through the use of pump, compressor, control valves,actuatorsandothercontrollingelements.Thistechnologyisusedtopowerarangeof itemssuchastools,constructionequipmentandmachineries,automotiveandmachineriesinmanufacturingsectors.Fluidpowerengineeringinvolvesstudyofpropertiesoffluids,lawsgoverningflowoffluids,workingprinciplesoffluidmachineriesandknowledgeofcontrolofmachinemovements.Thiscourseallowsthestudentstodeveloptheknowledgeandunderstandingoftheoperationalrequirementsoffluidpowersystemandbeabletorecognisecircuitcomponentsandbuildthecircuitsforapplicationsneededindailylife
2.CourseOutcomes:Attheendofthiscourse,studentwillbeableto
CO-01 MeasurefluiddischargethroughChannelsandPipesusinginstrumentsandestimatethesizeofthepipeneededforagivenpopulationsize.
CO-02 Selecttherighthydraulicmachinerytobeusedinaspecificapplicationforagivenheadanddischarge.
CO-03 Listthevariouscomponentsanditsuseinagivenfluidpowersystem.
CO-04 Buildasimplefluidpowersystemforagivenapplication
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week4hours/week(2
hours/batchtwiceinaweek)
1 01 01,04
1.ExplainclassificationandPropertiesoffluids-Units-ConversionofCubicmeters-Liters–Gallons-TMC
2.ExplainPascalLaw,Equationofcontinuity,ConceptofTotalEnergy
3.ExplainBernoulli’sequationanditsApplications-Venturimeter,Pitottube,Orificemeter
RefTable1
1.FindDischargeofafluidthroughVenturimeter
2 01 01,04
1.ExplainDischargethroughRectangularNotch-NumericalProblems
2.ExplainDischargethroughV-notch-NumericalProblem
3.ExplainFlowthroughPipes-MajorandMinorLosses
RefTable1
1.FindingDischargethroughRectangularNotch2.FindingDischargethroughV-Notch
Programme MechanicalEngineering Semester III
CourseCode 20ME34P TypeofCourse ProgrammeCore
CourseName FluidPowerEngineering ContactHours8hours/week104hours/semester
TeachingScheme
L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 30
3 01 01,04
1.Determineco-efficientoffrictionbyusingChezy’sandDarcy’sformulae
2.DesignaPipeforagivennumberofInhabitants
3.DesignaPipeforagivendischarge
RefTable1
1.FindingCo-efficientofFrictioninPipes2.Youtubepresentationonfluidflowthroughpipesandnotches
4 02 01,02,04
1.ClassificationofPumps2.ExplaintheWorkingPrincipleofCentrifugalPumpanditsApplication
3.ExplaintheWorkingPrincipleofMonoblockanditsApplication
RefTable1
1. Findthedischarge
throughCentrifugalPump
2. ServicingandRepairofCentrifugalPumps
5 03 01,02,04
1.ExplaintheWorkingPrincipleofSubmersiblepumpanditsapplication
2.ExplaintheWorkingPrincipleofReciprocatingpumpanditsapplication
3.SelectasuitablePumpforagivenApplication
RefTable1 ServicingandRepairofSubmersiblepumps
6 02 01,04
1.ClassificationofHydraulicTurbines2.SelectasuitableTurbineforagivenHead
3.ExplaintheWorkingPrincipleofImpulseTurbineanditsApplication
RefTable1 DeterminePerformanceofPeltonwheel
7 02 01
1.ExplaintheWorkingPrincipleofReactionTurbineanditsApplication
2.ExplaintheImportanceofDrafttube,PenstockandSurgeTank
3.VideoonHydraulicPowerPlant
RefTable1
VideoonfluidflowfromsourcetoEndapplicationEg:OilRefineries,HydraulicPowerplant,Waterdistributionthroughpipelines
8 03 01
IdentifythebasiccomponentsofFluidpowerSystemswithSymbolsandApplication
• Aircompressor• AirDrier• FRLUnit• GearPump• PressurecontrolValve-PressureReducingValve,PressureIntensifier
• DirectioncontrolValves-3/2,5/2,4/2
• FlowcontrolValve• NeedleValve• CheckValve• ShuttleValve• QuickExhaustValve• TimeDelayValve
RefTable1
VideoonWorkingprinciplesofcomponentsusedinFluidPowerSystems
9 03 01
• ExplainValveActuatingmechanisms-Spring,Lever,Pushbutton,Solenoid
• ExplaintheroleofAccumulatorsinfluidpowersystems.
• ExplainworkingprincipleofActuators-SingleActing,DoubleactingAirCylinders,AirMotors
RefTable1
VideoonWorkingprinciplesofcomponentsusedinFluidPowerSystems
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 31
• ExplaintheimportanceofSealsandPackages
10 04 01,04
• BuildaFluidPowercircuittoControlSpeedofaSingleActingcylinder
• BuildaFluidPowercircuittoControlSpeedofaDoubleActingcylinder
• BuildaFluidPowercircuitforPilotcontrolDoubleActingCylinder
RefTable1
ExecutethecircuitPracticedintheClassusingTrainerKitorSimulationSoftware
11 04 01,04,07
• BuildaFluidPowercircuitfordoubleActingCylinderbeingcontrolledby4/2DCSolenoidOperatedValve
• BuildaCircuitforStampingoperationbyusing3/2DCValvewithSingleActingCylinder
• BuildaCircuitforAutomaticOpeningandClosingofDoorby/usingdoubleActingCylinderbeingcontrolledby4/2DCValve
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
Executeminimum2CircuitsPracticedintheClassusingTrainerKitorSimulationSoftware
12 04 01,03,07
• BuildaFluidPowercircuitforAutomaticreciprocatingmotionofadoubleactingCylinder
• Buildacircuitforfeedingastripwithfollowingsequences:
Holdingthestrip,movingthestripforwardontothetool,maintainingthestripinthatpositionandreturningthestriptoitsoriginalpositionafterworkisover.
• DesignaCircuittopressfitapintoaholewithapreconditionthatwhileactuatingofthecylinder,boththehandsoftheoperatorshouldbeengaged
Executeminimum2CircuitsPracticedintheClassusingTrainerKitorSimulationSoftware
13 04 01,07
• BuildCircuitforamachinedevicedrivenbyasingleactingcylinderwithactuationatleasttwomutuallyoperatedDCvalves(SafetycircuitwithORandANDGates)
• BuildCircuitfortheClampingDeviceofaDrillingMachineofaDrillingmachinesuchthattheclampsareactivatedbeforethedrillisfedtotheWork
• BuildaCircuitforyourOwnApplication
Executeminimum2CircuitsPracticedintheClassusingTrainerKitorSimulationSoftware,includingdevelopingyourOwnPneumaticCircuittoperformcertainfunction
Totalinhours 39 13 52• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCo-OrdinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 32
Sl.No. SuggestiveActivitiesforTutorials
01DocumentandpresenttheapplicationofPascal’sPrincipleinRealLifebyselectingHydraulicJack/HydraulicBrakes/HydraulicLifthttps://www.studiousguy.com
02 PresentareportonpossiblefailuresinSubmersiblePumpsandtroubleshootthesame.
03 DiscussandpresenttheapplicationofPneumaticsinfarmingusingcasestudy:FarminginCalifornia-TheissuesandPositivity’s
04 BuildandPresentanElectro-PneumaticBrakesystemusedinTrains.Also,documentBrakeCylinderPressureeffect.
05 PreparealineDiagramofthepipelineofyourResidenceorCollege06 PrepareawaterdistributionlinediagramfromWaterreservoirtocollege07 PreparealinediagramforrainwaterharvestingofyourResidenceorCollege08 StudyandprepareareportonwaterdistributioninDipIrrigationSystem.4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests302. CIE-2WrittenTest 9 80 30
3 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskill
testreducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName ManufacturingProcesses Test I/II/III Sem III/IVCourseCode 20ME33P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels
CourseOutcome Marks
I1 2
II3 4
III5 6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 01 OneExperimentalQuestiononcaserelatedtoApplicationofBernoulli’stheorem(Venturimeter/Orifice/Pitottube)(Groupof5Students)
• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-15Marks
45
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 33
• ConductionofExperiment---10Marks• CalculationandResult---10Marks
2 01 OneExperimentalQuestiononChannels/Pipes(Groupof5Students)• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-15Marks• ConductionofExperiment---10Marks• CalculationandResult---10Marks
45
3 O1 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6Weeks)
10
TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 03,04
TwoSkillbasedQuestiontoDesignaPneumaticCircuitforthegivencase(IndividualExperiment)=45Markseach
• WritingCircuitDiagramwithallcomponents-25marks• BuildingCircuitontheKit-10marks• ShowingtheResult/output-10Marks
90
2 03,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12Weeks) 10TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities7.Reference:Sl.No. Description
1 Bansal.R.K.,“Fluid Mechanicsand Hydraulics Machines”, 9th Edition, LaxmiPublicationsPrivateLimited,NewDelhi.2011.
2 R.S.Khurmi,“FluidMechanicsandMachinery”,S.ChandandCompany,2ndEdition,2007.3 Hydraulics&Pneumatics–AndrewParr,JaicoPublishingHouseNewDelhi.
4HydraulicandPneumaticControlsUnderstandingMadeEasy-K.S.Sundaram,-S.chandCompanyDelhi
5Ramamrutham. S, “Fluid Mechanics, Hydraulics and Fluid Machines”,DhanpatRai&Sons,Delhi,2004.
6P.NModiandS.M.Seth,“HydraulicsandFluidMechanicsIncludingHydraulicsMachines”,19thEdition,StandardBookHouse,2013
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 34
7HydraulicandPneumaticControls-Srinivasan,R.-VijayNicoleImprintsPrivateLimited,2/e,2008
8PneumaticAndPneumaticsControls-UnderstandingMadeEasy-K.S.Sundaram,-S.chandCompanyDelhi
9 PneumaticSystems-Majumdar,S.R.-TataMcGraw-HillPublication,3/e,2013
8.LISTOFSOFTWARES/LEARNINGWEBSITES:
1. www.youtube.com/watch?v=VyR8aeioQrU2. http://www.youtube.com/watch?v=R6_q5gxf4vs3. www.howstuffworks.com4. .http://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-KANPUR/machine/ui/TOC.htm5. https://www.youtube.com/watch?v=F_7OhKUYV5c&list=PLE17B519F3ACF93766. https://www.youtube.com/watch?v=zOJ6gWDMTfE&list=PLC242EBB626D5FFB57. http://www.youtube.com/watch?v=0p03UTgpnDU8. http://www.youtube.com/watch?v=A3ormYVZMXE9. http://www.youtube.com/watch?v=TjzKpke0nSU10. http://www.youtube.com/watch?v=vl7GteLxgdQ11. http://www.youtube.com/watch?v=cIdMNOysMGI12. www.boschrexroth.co.in13. http://www.automationstudio.com/14. http://www.howstuffworks.com/search.php?terms=hydraulics15. http://hyperphysics.phy-astr.gsu.edu/hbase/fluid.html#flucon16. http://www.youtube.com/watch?v=FVR7AC8ExIM17. http://www.youtube.com/watch?v=iOXRoYHdCV018. http://www.youtube.com/watch?v=qDinpuq4T0U19. http://www.youtube.com/watch?v=xxoAm3X4iw020. www.festo.com21. www.boschrexroth.co.in22. www.nptel.iitm.ac.in23.http://www.howstuffworks.com/search.php?terms=pneumatics9.SEESchemeofEvaluationDuration:180MinSL.No.
CO Particulars/Dimension Marks
1
01
OneExperimentalQuestiononcaserelatedtoApplicationofBernoulli’stheorem(Venturimeter/Orifice/Pitottube)(Groupof5Students)
• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-15Marks• ConductionofExperiment---10Marks• CalculationandResult---15Marks
OROneExperimentalQuestiononChannels/Pipes(Groupof5Students)
• WritingobservationsandTabularcolumn--10Marks• WritingEquationsrequiredWithallnotations–-15Marks• ConductionofExperiment---10Marks• CalculationandResult---15Marks
50
2 03,04 OneSkillbasedQuestiontoDesignaPneumaticCircuitforthegivencase(IndividualExperiment) 30
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 35
• WritingCircuitDiagramwithallcomponents-20marks• BuildingCircuitontheKitandResult-10marks
3 CO1,CO2,CO3,CO4 Vivavoce 20 TotalMarks 100
10Equipment/softwarelistwithSpecificationforabatchof20students
Sl.No. Particulars Specification Quantity
01 BenchmountedTestRigforVenturimeter --------------- 01
02 BenchmountedTestRigforNotches ……………… 0103 BenchmountedTestRigforFrictionthroughpipes ……………….. 0104 CentrifugalPumpsFORMaintainesandServicing Usedone 0205 ManoblockPumpsFORMaintenanceandServicing ………do………….. 0206 SubmersiblePumpsFORMaintenanceandServicing ………do…… 0207 PneumaticsTrainerKitwithallstandardaccessories. Standardsize
08 CompressorforPneumaticsTrainerKit6BarpressureSinglephase50Hz
01
09 HosepipesforPneumaticsTrainerKit …………….. ………..10 BenchmountedTestRigforPeltonwheel Standardsize 01
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 40
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1.Rationale:Thesuccessofanyorganisationnotonlydependsonqualityofitsproductsandservicesbutalso depends on the people within it. Thus, an operational manager has to play a prominent role in anorganisationwithhumancapitalandmachines.Therefore,managerialskillsareessentialforenhancingtheiremployabilityandcarriergrowth.Thiscourseisthereforedesignedtoprovidebasicconceptsinoperationsmanagement, forecasting techniques, capacity planning, aggregate planning,master production schedule,quality,andinventoryandsupplychainmanagementforeffectiveutilisationofresourcesandcompetitiveadvantagethroughoperationalexcellence
2.CourseOutcomes:OnCompletionofcourse,thestudentwillbeableto:
CO-01 Prepare a production capacity utilization plan based on demand forecast and availableproductioncapacityforagivenproduct.
CO-02 Prepareamasterproductionplanbasedonaproductioncapacityutilizationplanandamaterialmanagementplanforagivenproduct.
CO-03 Prepareaprocessplanusingtimestudy,motionstudyandotherappropriatemethodstoensureprocessefficiency.
CO-04 Prepareaqualityassuranceplanbasedonagivenqualitymodelwhichissuitableforeitheraproductoraserviceorganisation.
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week4hours/week(2
hours/batchtwiceinaweek)
1 01 01
IntroductiontoOperationManagement1.IntroductiontoOperationManagement-OperationFunctions
RefTable1
• VirtualTourOrganization(Youtube)• ProblemsonProductivity
2.EvolutionsandHistoricalEventsinOperationalManagement3.ProductivityandCompetitiveness,Strategyandoperation
2 01 01
DEMANDFORECASTING1.DemandForecasting-DemandBehavior-TrendCycle-SeasonalBackground-StepsinForecastingProcess RefTable1
Problemson
• QualitativeForecast-Delphimethod,MarketResearchmethod• QuantitativeForecast-TimeseriesMethoda)Movingaverage(Naiveforecast,Simplemoving
2.ShortrangeandLongRangeForecast
3.QualitativeForecastmethods
Programme MechanicalEngineering Semester IV
CourseCode 20ME41P TypeofCourse ProgrammeCore
CourseName OperationsManagement ContactHours8hours/week104hours/semester
TeachingScheme
L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 41
Average,WeightedmovingAverage)
3 01 01
1.QuantitativeForecastmethodsRefTable1
Problemson
b)Exponentialsmoothing
2.SeasonalAdjustments
3.ForecastAccuracy
4 01 01
CAPACITYANDAGGREGATEPLANNING1.NeedforCapacityPlanning–CapacityexpansionStrategies–CapacityplanningModels.
RefTable1
Problemson
• CapacityPlanning,• Aggregateplanning• MasterproductionSchedule2.Aggregateplanning-Methods
3.MasterproductionSchedule
5 01 01
PROCESSPLANNING1.MakeorBuyDecisionOutsourcing-FactorsforOutsourcingdecision-ProcessSelection–Batch,Mass,Continuous RefTable1
• VirtualTouronBatch,MassandcontinuousProcess• DevelopanOperationSheetindicatingProcessPlanandProcessflowchartforagivencomponent.
Componentsofe-manufacturing
6 03 01
1.MotionStudy
RefTable1
• DevelopJobProcesschartwithProcessSymbolsforagivenProcess.• DevelopMan-MachinechartforagivenProcess.• CasestudyonTimeStudyPrinciplesforagivenprocess.
2.Man-Machinechart
3.ConceptsonTimeStudy
7 02 01
INVENTORYMANAGEMENT1.ElementsofInventoryManagement-InventoryCosts-Carrying,OrderingandShortageCosts
RefTable1
Problemson
• ABCClassificationSystem• EconomicOrderQuantityModels• TheProductionQuantityModel
2.InventoryControlSystems-ContinuousInventorySystem(Fixed-Order-QuantitySystem)PeriodicInventorySystem(Fixed-Time-PeriodSystem)3.ConceptonABCClassification,EconomicOrderQuantityModels,ProductionQuantityModel
8 02 01,02
1.OrderQuantityforAPeriodicInventorySystemOrderQuantitywithVariableDemand RefTable1
CasestudyonJIT(Eg:ToyotoProductionSystem)2.JIT-PullSystem
3Kanban’sSystem
9 02 01
SupplyChainManagement1.SupplyChainsSupplyChainsforServiceProviders RefTable1
Studyon
• TheBullwhipEffect• RiskPooling• GreenSupplyChains
2.ValueChainsTheManagementofSupplyChains3.VendorSelection-Vendor
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 42
evaluationandVendorDevelopment,Negotiations
10 02 01
1.SupplyChainUncertaintyandInventory
RefTable1
Studyon• InformationTechnology:SupplyChainEnabler• BarCodes• RadioFrequencyIdentification• Build-To-Order(BTO)
2.E-Business,ElectronicDataInterchange
3.SupplyChainIntegration-CollaborativePlanning,Forecasting,AndReplenishment
11 02 01,07
1.MaterialRequirementsPlanning(MRP)EnterpriseResourcePlanning(ERP),
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
CasestudyonProcurement-Outsourcing.
• E-Procurement• E-Marketplaces• ERPMODULES
2.WarehouseManagementSystemsCollaborativeLogistics,DistributionOutsourcing3.Finance/Accounting-Sales/Marketing-Production/MaterialsManagement-HumanResources
12 04 01,04,07
QUALITYMANAGEMENT1.QualityfromTheCustomer’sPerspectiveDimensionsofQualityforManufacturedProductsDimensionsofQualityforServices
PracticeonQualityTools
• ProcessFlowcharts• 5Whys,Cause-And-EffectDiagrams• ChecksheetsAndHistograms• ParetoAnalysis• ScatterDiagrams
2.QualityfromTheProducer’sPerspectiveAFinalPerspectiveOnQualityTheCostofQualityTheCostofAchievingGoodQuality3.TheCostofPoorQualityTheQuality–ProductivityRatioQualityManagementSystem
13 04 04,05,07
1.TQMandQMSTheFocusofQualityManagement—Customers Practiceon
TheDemingWheel(PDCACycle)• ProcessControlCharts• StatisticalQualityControl• ISO9000• ISO14000
2.QualityManagementinTheSupplyChainTheRoleofEmployeesinQualityImprovementKaizenandContinuousImprovementQualityCircles3.ProcessImprovementTeamsSixSigmaTheBreakthroughStrategy:DMAIC
Totalinhours 39 13 52• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCo-OrdinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 43
Sl.No. SuggestiveActivitiesforTutorials
01
Belowaremonthlysalesoflightbulbsfromthelightingstore..Forecastsales forJuneusingthefollowing
• Naivemethod• Three-monthsimplemovingaverage• Three-monthweightedmovingaverageusingweightsof0.5,0.3and0.2• Exponentialsmoothingusinganalphaof0.2andaMayforecastof350.
MONTH Jan Feb March April May JuneSALES 50 200 80 40 360
02
DelphManufacturingCompanyisgoingtopurchaseanautopartscomponentfromoneoftwocompetingsuppliers.Delphisgoingtobaseitsdecision,inpart,onthesupplychainperformanceofthetwosuppliers.Thecompanyhasobtainedthefollowingdataforaveragerawmaterials,work-in-process,andfinishedgoodsinventoryvalue,aswellascostofgoodssoldforthesuppliers
Items Supplier1 Supplier2Costofgoodssold Rs8,360,000 14,800,000Rawmaterials 270,000 870,000Work-In-Progress 62,000 550,000Finishedgoods 33,000 150,000
Eachcompanyoperates52weeksperyear.Determinewhichsupplierhasthebestsupplychainperformanceaccordingtoinventoryturnsandweeksofsupply.Whatotherfactorswouldthecompanylikelytakeintoaccountinselectingasupplier?
03
Themaintenancedepartmentforasmallmanufacturingfirmhasresponsibilityformaintaininganinventoryofsparepartsforthemachineryitservices.Thepartsinventory,unitcost,andannualusageareasfollowsThedepartmentmanagerwantstoclassifytheinventorypartsaccordingtotheABCsystemtodeterminewhichstocksofpartsshouldmostcloselybemonitored
Part UnitCost(Rs) AnnualUsage
1 100 902 350 403 30 1304 20 1805 320 50
04
Thedesigncapacityforenginerepairinourcompanyis80trucks/day.Theeffectivecapacityis40engines/dayandtheactualoutputis36engines/day.Calculatetheutilizationandefficiencyoftheoperation.Iftheefficiencyfornextmonthisexpectedtobe82%,whatistheexpectedoutput?
05
Countyschoolbusesareinspectedeverymonthfor“defects.”Inarecentmonthlyinspection,27wornortornseatswerefound,22buseshaddirtyfloors,therewere14casesofexteriorscratchesandchippedpaint,therewere8crackedorbrokenwindows,theengineson4buseshadtroublestartingorwerenotrunningsmoothly,and2buseshadfaultybrakes.DevelopaParetochartforthebusinspectionsandindicatethemostsignificantquality-problemcategories.WhatdoesthistellyouaboutthelimitationsofapplyingParetochartanalysis?HowmighttheselimitationsbeovercomeinParetochartanalysis
06 StudyandprepareareportonInventorymanagementinASuperBazaar07 CasestudyonSupplychainManagementinAmazon,Flikartetc08 CasestudyonuseofERPinAnEducationInstitution(FromAdmissiontoAwardofDegree)09 CasestudyonlogisticsmanagementinSwiggy,Zomoto,Dunzoetc
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 44
4.CIEandSEEAssessmentMethodologies
Sl.No Assessment TestWeekDuration
Inminutes Maxmarks Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests30
2. CIE-2WrittenTest 9 80 303 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwo
skilltestreducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName OperationManagement Test I/II/III Sem IVCourseCode 20ME41P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels(R/U/A)
CourseOutcome Marks
I1 2
II3 4
III5 6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 01 OneQuestion-Problems/CasestudyonDemandforecasting/MasterScheduling/CapacityPlanning
45
2 01,03 BasedonthegivenCaseStudy,PrepareaJobProcesschartwithProcessSymbols/DevelopaMan-Machinechart
45
3 01,03 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6Weeks) 10TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 O2 OneQuestiononInventoryManagementandSupplyChainManagement(JIT/KanbanSystem/E-Business/)
45
2 O4 Forthegivencasestudy,PreparetheCostofachievinggoodQualityusinganyqualityTools
45
3 02,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12weeks) 10TotalMarks 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 45
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5
Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:Sl.No. Description
1 ProductionandOperationsManagement–CreatingValuealongtheSupplyChainByRusselandTaylor,WileyPublications,7thEdition
2 ModernProductionandOperationManagementByBuffaandSarin,WileyPublications,8thedition3 ProductionandOperationsManagementByChary,TataMcGrawHillPublications
4 ProductionandOperationsManagement-Concepts,ModelsandBehaviourByAdamandEbert,PrenticeHallPublications
8.LISTOFSOFTWARES/LEARNINGWEBSITES:
1. www.youtube.com/watch?v=SF53ZZsP4ik2. www.youtube.com/watch?v=iPZlQ3Zx5zc
9.SEESchemeofEvaluationDuration:180MinSL.No.
CO Particulars/Dimension Marks
1
O1,02,03
OneQuestion-Problems/CasestudyonDemandforecasting/MasterScheduling/CapacityPlanningORBasedonthegivenCaseStudy,PrepareaJobProcesschartwithProcessSymbols/DevelopaMan-Machinechart
40
2
O3,O4
OneTheoryQuestiononInventoryManagementandSupplyChainManagement(JIT/KanbanSystem/E-Business/)ORForthegivencasestudy,PreparetheCostofachievinggoodQualityusinganyqualityTools
40
3 01,0203,04 Vivavoce 20 TotalMarks 100
10.Tools/Equipment/Software’sRequired
1.ERPSoftware
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 46
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1.Rationale:Inrecentyearsthemanufacturingenvironmenthasundergonedramaticchange.Forachievingmarketgoals,itisessentialtoproducequalitypartsinlesstime.Evolutionofinformationtechnology,varietymanufacturingconceptswithzeroleadtimedemandandqualityconsciousnesshavesupportedfastadaptionofcomputerizednumericalcontrol (CNC)machines.As inhumanbeings’mentalability isbecomingmoreimportantthanphysicalabilitytodothemanualwork,similarlyCNCprogramminginthesamewayhasmoreimportancealongwithselectionanduseofCNCtooling.Inthiscoursethereforeanattempthasbeenmadetodevelopskillsrequiredforprogramming,toolingetcforCNCmachine.CNCmachinesnormallyarenotlimitedtomachine toolsonlybut realmofCNChaswidened in almost all areasofmanufacturing,processes andsupportactivities.ItisthereforeveryimportantforDiplomamechanicalengineerstomasterCNCtechnology.
2.CourseOutcomes/SkillSets:Attheendofthiscourse,studentwillbeableto:
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week4hours/week(2
hours/batchtwiceinaweek)
1 01 01
1.IntroductiontoCNCMachines-AdvantagesofCNCmachinesoverConventionalmachines2.ExplaintheConstructionfeaturesofCNCmachine-MachineStructure,bed,spindlemotoranddrive,axesmotorandballscrewsusingMultimedia3.ExplainGuideways,LMguides,console,controlswitches,coolantsystem,hydraulicsystemusingMultimedia
RefTable1
1.DemonstratePersonal,Conduct,ShopetiquettesandgeneralsafetypracticesinCNCmachineComplysafehandlingofCNCmachines,toolsandEquipment.2.DemonstrationofCNCmachineanditsparts-bed,spindlemotoranddrive,axesmotorandballscrews,guideways,LM
Programme MechanicalEngineering Semester IV
CourseCode 20ME42P TypeofCourse ProgrammeCore
CourseName CNCProgrammingandMachining ContactHours8hours/week104hours/semester
TeachingScheme
L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
CO-01 IdentifyvariouscomponentsofaCNCmachineandlisttheuseofthosecomponentsforanygivenCNCoperation.
CO-02 Studyagivenproductiondrawingandlisttherighttoolsneededtoproduceaproductasperthedrawing.
CO-03 Write a CNC turning and milling program for a given production drawing, simulate theprogramandexecutetheprograminproductionmode.
CO-04 Develop and/or import a 3-D model of a given component drawing, generate the CNCprogrammingcodesusingCAMsoftwareandexecutetheprograminproductionmode.
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 47
guides,console,controlswitches,coolantsystem,hydraulicsystem,3.Identificationofsafetyswitches,machineovertravellimitsandemergencystop.Machinestarting&operatinginReferencePoint,JOGandIncrementalModes
2 01,02 01
1.ExplainAxisconventionofCNCmachine2.ExplainCuttingtoolmaterials,cuttingtoolgeometry–inserttypes,holdertypes,insertcuttingedgegeometry.3.ISOnomenclatureforturningtoolholders,boringtoolholders,indexableinserts.-Toolholdersandinsertsforradialgrooving,facegrooving,threading,drilling
RefTable1
1.ConductapreliminarycheckofthereadinessoftheCNCmachineviz.,cleanlinessofmachine,referencing–zeroreturn,2.Functioningoflubrication,coolantlevel,correctworkingofsub-system
3 01,02 01,04
1.ExplainAutomatictoolexchangerusingMultimedia2.ExplaintheimportanceofToollengthcompensation,ToolnoseRadiuscompensationandToolWearcompensation.3.ExplainMachineZeroandWorkZero
RefTable1
1.PerformWorkandtoolsetting:-Jobzero/workcoordinatesystemandtoolsetupandlivetoolsetup2.CNCmachiningcentreoperationinvariousmodes:JOG,EDIT,MDI,SINGLEBLOCK,AUTO3.Settingthetooloffsets,entryoftoolnoseradiusandorientationinCNCconsole
4 03 01,04
1.ExplainProgrammingsequenceandformat-AbsoluteandIncrementalSystem2.ExplainGcodesandMcodes3.ExplainLinearinterpolationandCircularInterpolation
RefTable1
1.GeometryWearCorrection.GeometryandwearoffsetcorrectioninCNCConsole2.Programcheckingindryrun,singleblockmodes
5. 03 01
1.ExplaincuttingParameters–Feed,Speedanddepthofcutw.r.tCNCmachineasperCatalogue2.ExplainCannedCycle,MirroringandSubroutines
RefTable1
1.Learnvariousnumericalkeys,AddressKeys,functionalKeysofoperationalconsole
6. 03 01,04
WritethePartProgramforFacing,Turning,StepturningandTaperturning(WriteProgramfor3modelsandexecuteanyoneonthemachine)
RefTable1
1.InputtheProgramintotheSimulatorandoperatetheSimulator2.TransferthesimulatedProgramtomachine
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 48
3.SetthemachinewithnecessarytoolsandJob4.ExecutethePrograminAutomodetoproducetheJob.
7. 03 01,04
WritethePartProgramforTurning,ProfileturningandThreadcutting(WriteProgramfor3modelsandexecuteanyoneonthemachine)
RefTable1
1.InputtheProgramintotheSimulatorandoperatetheSimulator2.TransferthesimulatedProgramtomachine3.SetthemachinewithnecessarytoolsandJob4.ExecutethePrograminAutomodetoproducetheJob
8. 03 01,04
WriteaCNCmillingprogramforPocketmachining(WriteProgramfor3modelsandexecuteanyoneonthemachine)
RefTable1
1.InputtheProgramintotheSimulatorandoperatetheSimulator2.TransferthesimulatedProgramtomachine3.SetthemachinewithnecessarytoolsandJob4.ExecutethePrograminAutomodetoproducetheJob
9 03 01,04
Writeapartprogramfordrilling4holesinaplateSixholesalongPCDonacircularplate
RefTable1
1.InputtheProgramintotheSimulatorandoperatetheSimulator2.TransferthesimulatedProgramtomachine3.SetthemachinewithnecessarytoolsandJob4.ExecutethePrograminAutomodetoproducetheJob
10. 03 01,04,07WriteaProgramusingMirroringWriteaProgramusingSubroutines
RefTable1
1.InputtheProgramintotheSimulatorandoperatetheSimulator2.TransferthesimulatedProgramtomachine3.SetthemachinewithnecessarytoolsandJob4.ExecutethePrograminAutomodetoproducetheJob
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 49
11 04 01,04,07
GeneratethePartProgramforComponentrequiringTurning,StepturningProfileturningandThreadcuttingbyusingCAMsoftware(Programfor3modelsandexecuteanyoneonthemachine)
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
1.TransferthesimulatedProgramtomachine2.SetthemachinewithnecessarytoolsandJob3.ExecutethePrograminAutomodetoproducetheJob
12 04 01,04,07
GenerateaCNCprogramforcomponenthavingPocketmachiningusingCAMsoftware(Programfor3modelsandexecuteanyoneonthemachine)
1.TransferthesimulatedProgramtomachine2.SetthemachinewithnecessarytoolsandJob3.ExecutethePrograminAutomodetoproducetheJob
13
Demonstrate the manufacturing offollowing components on CNCmachinesusingYouTubeVideos1. CNCTurning2. Rollers3. Spacers4. Brackets
DiscussandPrepareaReportonthevideosPresentedforeachmanufacturedcomponent
DemonstratethemanufacturingoffollowingcomponentsonCNCmachinesusingYouTubeVideos
1. Spindles2. Frames3. EngineBlock4. BallBearings
DiscussandPrepareaReportonthevideosPresentedforeachmanufacturedcomponent
Totalinhours 39 13 52
• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCo-OrdinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)Sl.No. SuggestiveActivitiesforTutorials
01
DiscussthestepsforchoosingtheRightCNCmachinetoolusingvariousparameterslikeoperatorexperience,Materialtobecut,Partdifficultyandcomplexity,LMguides,Controlsystems,Costperpart,Availabilityofspace.www.hwaheonasia.com
02PresentationonMacrosandParametricProgramminginCNCbydiscussingbasicmacroskill-Macrocapability,commonfeaturesandapplications-Macrostructurewww.thomasnet.com
03
DiscussandpresentareportoninfluenceofcoolantinCNCbyexplainingPurpose-deliverymethodsofcoolants-Typesofcoolants-Healthandsafetyissues-Properties-Recyclinganddisposalofcuttinglubricantswww.Industr.com
04 EachstudenthastoPresentminimum5CNCProgrammingonMachininginvolvingTurning,MillingandDrilling.(CoursecoordinatorhastoensurenorepetitionofthePrograms)
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 50
4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests30
2. CIE-2WrittenTest 9 80 303 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskill
testreducedto20ltests20
5 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName OperationManagement Test I/II/III Sem IVCourseCode 20ME41P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels(R/U/A)
CourseOutcome Marks
I1 2
II3 4
III5 6
NotefortheCoursecoordinator:Eachquestionmayhaveone,twoorthreesubdivisions.Optionalquestionsineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)CIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 02,04 OneQuestiononWritingCNCprogramForTurningModel,SimulationandPreparationoftheMODELonCNCMachine
• WritingCNCprogram—30Marks• Editingtheprogram—30Marks• SimulationandPreparationoftheMODELonCNCMachine-30
Marks
90
2 02,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6Weeks)
10
TotalMarks 100
5.(b)CIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 51
1 02,03 OneQuestiononWritingCNCprogramForMillingModel,SimulationandPreparationoftheMODELonCNCMachine
• WritingCNCprogram—25Marks• EditingtheProgram—15Marks• SimulationandPreparationoftheMODELonCNCMachine-10Marks
50
2
02,04
OneQuestiononGeneratingCNCTurningProgram/MillingProgram,UsingCAMSoftware,SimulationandPreparationoftheMODELonCNCMachine.
• PreparationofSolidModelforagivenDrawingusingsoftware-25marks
• GenerateTurningProgram/MillingProgram,UsingCAMSoftware-05Marks
• InterfacewiththeCNCmachineandproducethemodel-10Marks
40
3 02,03,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12Weeks)
10
TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:Sl.No. Description
1Automation,ProductionSystems,andComputer-AidedManufacturingbyMikellP.GrooverPrentice-HallInternationalpublication
2 CAD/CAMPrinciplesandApplicationsPNRaoMcGrawHillEducation3 CNCMachines.PablaB.S.,AdithanM.NewAgeInternational,NewDelhi,2014(reprint)4 ComputerNumericalControl-TurningandMachiningcenters.QuesadaRobertPrenticeHall20148.LISTOFSOFTWARES/LEARNINGWEBSITES:
1. http://www.nptel.ac.in2. http://www.youtube.com/watch?v=M3eX2PKM1RI3. http://www.youtube.com/watch?v=EHQ4QIDqENI&list=PLBkqkLQO2nAt5MNLo4. http://www.youtube.com/watch?v=hJFLcvtiNQI5. http://www.youtube.com/watch?v=BIM1AyxfYkw.6. http://www.mtabindia.com7. http://www.swansoftcncsimulator.com
9.SEESchemeofEvaluationDuration:180MinSL.No.
CO Particulars/Dimension Marks
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 52
1
02,03
OneQuestiononWritingCNCprogramForTurningModel,SimulationandPreparationoftheMODELonCNCMachine
• WritingCNCprogram—30Marks• SimulationandPreparationoftheMODELonCNCMachine-20Marks
OROneQuestiononWritingCNCprogramForMillingModel,SimulationandPreparationoftheMODELonCNCMachine
• WritingCNCprogram—30Marks• SimulationandPreparationoftheMODELonCNCMachine-20
Marks
50
2 02,04 OneQuestiononPreparingaSolidModelandGeneratingCNCTurningProgram/MillingProgram,UsingCAMSoftware,
• PreparationofSolidModelforagivenDrawingusingsoftware–20marks
• GenerateCNCTurningProgram/MillingProgram,UsingCAMSoftware-10Marks
30
3 01,02,03,04 Vivavoce 20TotalMarks 100
10.Equipment/softwarelistwithSpecificationforabatchof20students
Sl.No.
Particulars Specification Quantity
01CNCTurningCentre(TutororProductive)
Minimumdiameter25mm,Length120mmwithATC.(Approximate)
01
02
CNCMillingCentre(TutororProductive)Xaxistravel-225mm,Yaxistravel-150mm,Zaxistravel-115mm,WithATC.(Approximate)
Xaxistravel-225mm,Yaxistravel-150mm,Zaxistravel-115mm,WithATC.(Approximate)
01
03Simulationsoftwarelikes:CNCSimulatorPro,SwansoftCNC,etc.
20user
04 LatestversionofCAD/CAMintegrationsoftwarelikeMASTERCAM,NXCAMOREDGECAM
20user
05 Desktopcomputer Latestconfiguration 20no
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 53
GovernmentofKarnataka
DEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1. Rationale: Design department of industry is one of the major job areas for Diploma engineers. ThefundamentalknowledgeofStrengthofMaterials,EngineeringMaterials,andComputerAidedDesignandDraftingisessentialtomeetjobrequirementinthissector.Toenableastudenttoworkhere,theyshouldknowhowtodesignasimplemachineelement,usualproceduresindevelopmentofproduct,fundamentalknowledgeindesignof simplemachineelements suchas shafts, springs, couplingsetc, codes,norms, standardsandguidelines forselectionofappropriatematerial.Inadditiontothis,Diplomaengineersarerequiredtoreadandinterpretthedrawings.Therefore,itisessentialthattheyhavecompetencyinpreparingdrawingsofmachineparts.Thiscourseaimsatdevelopinganalyticalabilitiesinthestudenttogivesolutionstosimpleengineeringdesignproblemsusingstandardprocedures.Hencethiscoursehasbeenintroducedwiththeexpectationsthateffortswillbemadetoprovideappropriatelearningexperiencesintheuseofbasicprinciplestothedesignsolutionforappliedproblemstodeveloptherequiredskillandcompetencies.
2.CourseOutcomes/SkillSets:AttheendoftheCourse,thestudentwillbeableto:CO-01 ExplainthekeyprinciplesofproductdesignconsideringStrength,AestheticandErgonomic
CO-02 Design simple machine elements like shafts, springs, couplings and knuckle joints usingstandarddata.
CO-03 PrepareCADPartandAssemblydrawingsforcouplingsandknucklejointsbasedondesignedparameter.
CO-04 ProduceComponentbasedondesignedParametersusing3-DPrintingTechniques
3.CourseContent
Week CO PO*
Lecture(Knowledge)
Tutorial(Activity)
Practice(Skill)
3hours/week 1hour/week
4hours/week(2hours/batchtwice
inaweek)
1 01 01
Product Development andDesign:1.Explain Product Development-Stages of Product Development-NeedandFeasibilitystudy2.Explain Development of design-SelectionofMaterialsandProcess3.Explain Protype –launching ofproduct–Productlifecycle
RefTable1DiscusscasestudiesofProduct developmentbyusingVideo
2
01
01
Generalconsiderationindesign:Basedon• Functionalrequirement• Effectonenvironment• Life,Reliability,Safety
RefTable1 Casestudy
Programme MechanicalEngineeringDiploma Semester IV
CourseCode 20ME43P TypeofCourse ProgrammeCore
CourseName ProductDesignandDevelopment ContactHours8hours/week104hours/semester
TeachingScheme L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 54
• PrinciplesofStandardization• AssemblyFeasibility• Maintenance-Cost-Quantity• LegalissuesandPatents• AestheticandErgonomicfactors• ChoiceofMaterials• FeasibilityofManufacturingProcesses
3 01 01
AestheticandErgonomicconsiderationinDesign:• ExplainAestheticconsiderations-Basictypesofproductforms,Designingforappearance,shape,Designfeatures,Materials,Finishes,proportions,SymmetryContrastetc.• Morgan’scolorcode.• Ergonomicconsiderations-Relationbetweenman,machineandenvironmentalfactors.Designofdisplaysandcontrols.
RefTable1
CaseStudyonErgonomicsandAestheticdesignprinciples.
4 02 03,04
TorsionofShaft:1.AssumptionsinShearstressinashaftsubjectedtotorsion–StrengthandRigidity(SolidandHollowshaft)2.PowerTransmittedbySolidandHollowshaft-ASMEandBISCodeforpowerTransmission3.ProblemsonShaftssubjectedtoonlyShearbasedonRigidityandStrength
RefTable1
1.ValidatetheProblemsonShaftsforStrengthandRigidityusingAnsys(OneeachonStrengthandRigidity)
5 02 03,04
1.ProblemsonShaftssubjectedtoonlyShearbasedonRigidityandStrength2.ProblemsonShaftsubjectedtoonlyBending3.ProblemsonShaftsubjectedtoonlyBending
RefTable1
1.RecapofCADcommands
2.PracticeonSectionofSolids-a)Prismsb)Pyramid
6 02 03,04
1ProblemsonShaftsubjectedtocombinedShearandBending.2.ProblemsonShaftsubjectedtocombinedShearandBending3.ProblemsonShaftsubjectedtocombinedShearandBending
RefTable1
1.PracticeonSectionofSolids-a)Cylinderb)Cone
7 02,03 03,04
Springs:1.Classificationofsprings-Applicationofsprings-Leafsprings–Application
RefTable1
SectionsonSimpleMachineElements(CAD)a)Sectionalfrontview,Frontviewwith
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 55
2.TerminologyofHelicalspring-MaterialsandSpecificationofsprings3.Designofhelicalspring
RighthalfinSection,FrontviewwithLefthalfinSectionb)SectionalTopViewc)SectionalSideView
8 02,03 03,04 Designofhelicalspring RefTable1
SectionsonSimpleMachineElements(CAD)a)Sectionalfrontview,FrontviewwithRighthalfinSection,FrontviewwithLefthalfinSectionb)SectionalTopViewc)SectionalSideView
9 02,03 03,04
Coupling:DesignofMuffcoupling
RefTable1
UsingCAD,preparePartModelsforMuffcouplingbasedondesignedparameterandassemblethesame.ExtracttheSectionalviewsfortheabovemachineelementindicatingSurfaceTextureandBillofMaterials
10 02,03 03,04DesignofProtectedtypeFlangeCoupling
RefTable1
UsingCAD,preparePartModelsforProtectedtypeFlangeCouplingbasedondesignedparameterandassemblethesame.ExtractSectionalviewsfortheabovemachineelementindicatingSurfaceTextureandBillofMaterials
11 02,03, 03,04,07 DesignofKnuckleJoint
UsingCAD,preparePartModelsforKnuckleJointbasedondesignedparameterandassemblethesame.ExtractSectionalviewsfortheabovemachineelementindicatingSurfaceTextureandBillofMaterials
12 04 03,04,073DPrinting1. Introduction,Process,Classifications,Advantagesof
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 56
additiveoverconventionalManufacturing,Applications,ModellingforAdditiveManufacturing2.AdditiveManufacturingTechniques,3DPrintingMaterialsanditsforms,PostProcessingRequirementandTechniques.
3. ProductQuality,InspectionandTesting,Defectsandtheircauses,AdditiveManufacturingApplicationDomains
Studythelatesttechnologicalchangesinthiscourseandpresenttheimpactofthesechangesonindustry
Preparationof3DPrinterforprinting–Modelling,SavingCADfileintoSTLfile,Slicing,Materialloadingandprintingparameterselection
13 04 03,04,07
1.WorkingofFusedDepositionModelling(FDM)Machine-SingleandMultiNozzleprinters,MachineConfiguration-Cartesian,Delta,Polarandroboticarmconfiguration3Dprinters
2.CommonFDMmaterials-PLA,ABS,PA,TPU,PETG,PEEKandPEI,PrinterParameters-Temperatureofthenozzleandtheplatform,thebuildspeed,thelayerheight,Warping,LayerAdhesion,SupportStructure,In-fill&ShellThickness
3.Benefits&LimitationsofFDM,SoftwareTools-3Dmodelling,Slicers&3DPrinterHosts
PrintingofDesignedandModelledcomponent(flangecouplingandknucklejoint)onanyavailable3Dprintingmachineandcarryoutpostprocessingofadditivelymanufacturedproduct(Inspectionanddefectanalysis).
Totalinhours 39 13 52
• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCo-OrdinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)Sl.No. SuggestiveActivitiesforTutorials
01
PresentationondesignofBicyclesforIndianchildrenfocusingonAestheticandErgonomicsbyExplainingmarketanalysis-userstudy–Problemidentification–Productdesignandspecification-Conceptgeneration-MaterialandManufacturingProcesses-Finalconceptselectionwww.sastechjournal.com
02PresentationontypesofsuspensionspringsusedinAutomobilevehiclesbyexplainingleaf-spring,Coilspring,TorsionSpring,Airbags,RubberSpringswww.theengineerspost.com
03PresentationondifferenttypesofKeysusedinTransmissionsystemandimportancesuchasparallelkey,Saddlekey,SunkKey,Gibheadedkey,FeatherKey,WoorruffKeywithAdvantagesandapplications
04 PresentationonAntifrictionBearingbyexplainingrollingcontact-journalballbearingconstruction-Cylindricalbearing–Needlebearing–FootstepBearing–PlumberBearing
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 57
05 PresentationonFrictionClutchesusedinAutomobilesbyexplainingparts-Singleplate-Multiplate-Purpose–Application
06 The Role of Additive Manufacturing in the Era of Industry 4.0 07 Application of Additive Manufacturing in health care industry 4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests302. CIE-2WrittenTest 9 80 30
3 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskilltest
reducedto205 CIE-5SkillTest-Practice 12 180 100
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTest
CourseName Production Design andDevelopment
Test I/II/III Sem IV
CourseCode 20ME43P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels(R/U/A)
CourseOutcome Marks
I1 2
II3 4
III5 6
Note for theCoursecoordinator:Eachquestionmayhaveone, twoor threesubdivisions.Optionalquestions ineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1
02
OneQuestiononDesignofShaftSubjectedtoStrengthandRigidity• FixingtheDiameterofShaftafterdesign---30Marks• ValidatetheDesignedparametersofShaftforStrengthand
TwistingusingAnsys-30Marks
60
2 03 OnequestiononSectionofSolids(Prism/Pyramid/Cone/Cylinder)• PlacingtheSectionplaneanddrawingthesection–20Marks• ExtractingtheTrueshapeoftheSection–10Marks
30
3 01,02,03 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6Weeks)
10
TotalMarks 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 58
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1
03,04
OneQuestiononDesignandAssemblydrawingofSimpleMachinepartslikeMuffCoupling/FlangeCoupling/KnuckleJoint
• DesignofSimpleMachinepartbyusingDataHandBook--35Marks• PreparationofPartModelsfortheDesignedvaluesbyusingCAD
Software--35Marks• AssemblyofPartModelsusingCADsoftwareWithBillofMaterials-
-20Marks
90
2 03,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12Weeks)
10
TotalMarks 100
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:Sl.No. Description1 ATextbookofMachineDesignR.S.Khurmi&J.K.GuptaS.Chandpublication2 MachinedesignSGKulkarniMcGrawHillEducationPublications3 IntroductiontoMachinedesignVBBhandariMcGrawHillEducationPublications4 DesignOfMachineElementsVolI,VolIIJ.B.K.Das,P.L.SrinivasMurthySapnaPublication5 MachineComponentDesignWilliamOrthweinJaicopublication
6 Design Data Hand Book forMechanical Engineers KMahadevan & K Balaveera Reddy CBSpublications
7 Khanna Editorial, “3D Printing and Design”, Khanna Publishing House, Delhi.
8 J.D. Majumdar and I. Manna, “Laser-Assisted Fabrication of Materials”, Springer Series in Material Science, 2013
9D.T. Pham and S.S. Dimov, “Rapid manufacturing: The technologies and applications of rapid prototyping and rapid tooling”, London-New York, Springer, 2001
10 Lan Gibson, David W. Rosen and Brent Stucker, “Additive Manufacturing Technologies: Rapid Prototyping to Direct Digital Manufacturing”, Springer, 2010
11Andreas Gebhardt, “Understanding Additive Manufacturing: Rapid Prototyping, Rapid Tooling, Rapid Manufacturing”, Hanser Publisher, 2011.
12 CK Chua, Kah Fai Leong, “3D Printing and Rapid Prototyping- Principles and Applications”, World Scientific, 2017
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 59
13 L. Lu, J. Fuh and Y.S. Wong, “Laser-Induced Materials and Processes for Rapid Prototyping”, Kulwer Academic Press, 2001
14 Zhiqiang Fan And Frank Liou, “Numerical Modelling of the Additive Manufacturing (AM) Processes of Titanium Alloy”, InTech, 2012
8.LISTSOFTWARES/WEBSITES
1.http://nptel.ac.in/courses/Webcourse-contents/IIT%20Kharagpur/Machine%20design1/left_home.html2http://nptel.ac.in/courses/Webcourse-contents/IIT%20Kharagpur/Machine%20design1/left_mod4.html
9.SEESchemeofEvaluationDuration:180Min
SL.No.
CO Particulars/Dimension Marks
1
02,03
OneQuestiononDesignandAssemblyofSimpleMachinepartslikeMuffcoupling/FlangeCoupling/KnuckleJoint
• DesignofSimpleMachinepartbyusingDataHandBook-----35Marks
• PreparationofPartModelsfortheDesignedvalvesByusingCADSoftware—25Marks
• AssemblyofPartModelsByusingCADSoftwareWithBillofMaterials---20Marks
80
2 01,02,03,04 Vivavoce 20
TotalMarks 100
10.Equipment/softwarelistwithSpecificationforabatchof20students
Sl.
No.Particulars Specification Quantity
01 LatestversionofCADsoftware ------------ 20user
02 Desktopcomputer Latestconfiguration 20no’s
03 Laserprinter ----------------- 02no’s04 3-DPrintingMachine 01no
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 60
GovernmentofKarnatakaDEPARTMENTOFCOLLEGIATEANDTECHNICALEDUCATION
1.Rationale:Inpresentscenario,Manufacturingindustriesaremovingtowardscompleteautomation.SmallandmediumindustriesareinaphaseofswitchingtoPLCandSCADAtechnologyfordataacquisitionandcontrol. Industrialautomationsystemsareused tocontrolandmonitoraprocess,machineordevice inacomputerized manner that usually fulfils repetitive functions or tasks. They are intended to operateautomaticallyinordertoreduceandimprovehumanworkintheindustry.Advantagesofthistechnologyiscommonlyattributedtohigherproductionratesandincreasedproductivity,moreefficientuseofmaterials,better product quality, improved safety, shorter workweeks for labour, and reduced factory lead times.TheAutomation Engineerwill design, program, simulate and commissionautomatedmachines and plant-wideprocessestoperformmanyjobfunctions.Dependingonthesizeoftheorganization,theengineerwillperform some or all of these responsibilities. Therefore, it is necessary for diploma engineers to haveknowledgeofbothPLCandSCADAtechnology.Thiscourseattemptstoprovidebasictheoreticalandpracticalaspectsofautomationtechnologiestodevelopoperationalcompetency.Hencethiscourseisthefoundationfordiplomaengineerswhowanttofurtherspecialiseinthefieldofindustrialautomation2.CourseOutcomes:Attheendofthiscourse,studentwillbeableto
3.CourseContent
Week CO PO*
Lecture
(Knowledge)
Tutorial(Activity)
Practice
(Skill)
3hours/week 1hour/week4hours/week(2
hours/batchtwiceinaweek)
1 01 01 Introduction: RefTable1 Study the followingappliances/ automation
Programme MechanicalEngineering Semester IV
CourseCode 20ME44P TypeofCourse ProgrammeCore
CourseName ElementsofIndustrialAutomation ContactHours8hours/week104hours/semester
TeachingScheme
L:T:P::3:1:4 Credits 6
CIEMarks 60 SEEMarks 40
CO-01 Selecttherightsensorand/oractuatorforautomatingagivenapplicationanddemonstrateprocessvariablesusingsensorsand/ortransducers.
CO-02 PerformspecifiedcontrolfunctionsusingaProgrammableLogicController(PLC)andlistvariousapplicationsofembeddedsystems.
CO-03 Designandtestanautomationsystemforarequiredoperationalspecificationandtroubleshoottoresolveanygivenissue(s).
CO-04 ExplaintheconceptsofSCADA,HMIandDCSandlisttheirvariousapplications
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 61
1. Need and benefits ofIndustrial Automation,Automation Hierarchy, Basiccomponents of automationsystem, description of eachcomponent
2. Automation technology as apart of engineering sciences,Keydevelopmentmilestones inthe history of automationtechnology, Effects ofautomationonpeople.
3.Typesofautomationsystem:-RelaylogicandPLC
systems and identifyvarious elements used andtheirfunction
1. AirconditioningSystem2. Automatic water levelcontrol3. Elevator( for ThreeFloor)4. WashingMachine
Write the Block DiagramForeachandexplainwithaMultimediaPresentation
2 01 01
Programmable logiccontroller:
1. Introduction, CompareRelayLogicControlandPLCLogic Control, InternalArchitectureofPLC
2. I/O Modules (Interfaces),Memoryorganization.
Inputdevices:
• MechanicalSwitches• ProximitySwitches
3.Inputdevices:
• PhotoelectricSensorsandSwitches• Encoders• TemperatureSensors• Position/DisplacementSensors
RefTable1
DemonstratetheworkingofbelowshownSwitches/Sensor.
a. VariousindustrialSwitches(PushButton,ON/OFF,Toggle,Emergency,RotarySwitchesetc.)
b. Proximity-Inductive,CapacitiveandOpticalSensor
c. TemperatureSensordFloatSensors
Note: Connect each
sensor directly to the
LED/Lamp with
appropriate power
supply
3 01 01
1.Inputdevices:
• StrainGauges• PressureSensors• Liquidleveldetectors2.Inputdevices:
• Fluidflowmeasurement• SmartSensors3.OutputDevices:
• Relay• Directional controlValve
RefTable1
You tube presentation onInputandOutputdevices
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 62
4 01 01
1. ADCandDAC
2.Motors- DC motor,Synchronous motor, Servomotor,
3.Induction motor, Steppermotor
RefTable1
Demonstrate the Forwardand Reversal of Stepper,Servo and DCMotors withthehelpofDrivers.
Note: Demonstrate the
above without using any
controllers
5 02 02
PLCProgramming:
1. Programming standards,List Different PLCProgramming, Ladderdiagram,
2. Standard IEC 1131-3Symbols used for I/ODevices
3. Ladder diagram for logicgates.AND,OR,NOT,NAND,NOR,XOR,XNOR
RefTable1
• Execute energizedmotor or bulb usingSwitches in series orParallel• Write ladderdiagram to testdigitallogicgatesandExecute/Simulatethesame.
6 02 01
1. Writing Equivalentladderdiagramfor
Electric Switch,Belt drive ,motorcircuit
Latching,SequentialO/P
2.
IntroductiontoTimerfunctions.Applicationsoftimingfunctionsinprocesscontrol--OnDelayTimerFunction,Off-delayTimerFunction
RefTable1
• There are 3 mixingdevices on a processingline A,B ,C. After theprocessbeginmixer-Aistostart after 7 secondselapse, nextmixer-B is tostart 3.6 second after A.Mixer-C is to start 5secondsafterB.Allofthenremain ON until amasterenableswitchisturnedoff.Develop PLC ladderdiagram, timing diagramandsimulatethesame• Write a LadderProgram to count thenumber of Items moving
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 63
3. PLC counter functions,ApplicationsofPLCcounterfunctioninprocesscontrol
on a conveyor Belt andExecute/Simulate thesame
7 03 02
1) Relay, Jumps andSubroutines
2) DevelopLadderProgramfor relay based motorcontrol automation suchthat the motor reversesits direction when thelimit switches areactivated
3) Develop a PLC ladderdiagram to construct an alarmsystem which operates asfollows.
- IfoneinputisONnothinghappens.- IfanytwoinputsareON,aredlightgoesON.- If any three inputs areON,analarmsirenssound.- If all are ON, the firedepartmentisnotified.
RefTable1
• Execute the LadderProgram for relay basedmotor control automationsuch that the motorreversesitsdirectionwhenthe limit switches areactivated and alsoDemonstratebyinterfacingwithPLC
• Simulate the PLCladder diagram developedfor an alarm system andalso Demonstrate byinterfacingwithPLC
8 03 02
1 & 2) Develop PLC programfor the following applicationa)TrafficLight
3)DevelopPLCprogramforthefollowing application b)WaterLevelIndicator
RefTable1
ExecuteaPLCprogramforthefollowingapplications
i) Trafficlightcontrolling
ii)Waterlevelcontrolling
9 03 02
1 & 2) Develop automaticdoor system using opticalsensorandlinearactuator
3) Develop Automatic Elevatorcontrol
RefTable1
• Execute automaticdoorsystemusingopticalsensor and linearactuator• Design ladderdiagram for an AutomaticElevatorcontrolAlso,Testandsimulatetheladder diagram designedtooperateandcontrolthe
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 64
Automatic Elevatorcontrol
10 03 02
1 & 2) Design ladderdiagram for car parking.(Hint: car is tobedetectedandentertheparkingspaceto a particular location ifspaceisavailable.Ifthereisno space, a lamp shouldindicatethatparkingisfull)
3) Design ladder diagramfor operating andcontrollingtheLift.
RefTable1
• Simulate a ladderdiagramforcarparking.• Test and simulate aladder diagramdesigned to operateandcontroltheLift
11 02 02,07
1)EmbeddedSystem-BlockDiagram of EmbeddedSystem
2)Applications ofEmbeddedSystem
• RoboticsDrones• BrakingSystem• Air conditioning,
Refrigerator• EnginecontrolSystem,
3)Applications of EmbeddedSystem
• Automatic Washingmachine
• MicrowaveOven• Keyless entry in
Automobiles.
Study the
latest
technologica
lchangesin
this course
and present
the impact
of these
changes on
industry
You tube Presentationon Applications ofEmbeddedSystem
12 04 01,07
1)Concepts on DistributedcontrolSystem,
2)ConceptsonHMI
3)IntroductionstoSCADA
• MultimediaExposuretoDCSsystem• Demonstrate the HMIinterfacetocontrolLightinAND/ORLogic
13 04 01,07
1)Typical SCADA blockdiagram,
2)BenefitsofSCADA,
3)ApplicationsofSCADA
• MultimediaExposuretoSCADAsystemOR• Makecasestudyvisitingany nearby industry(Packaging/MilkDairy/Processing) usingHMI, SCADA/DCSsystems.
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 65
Totalinhours 39 13 52
• *PO=ProgramOutcomeaslistedanddefinedinyear1curriculum
• CourseCo-OrdinatormustpreparePO–COmappingwithstrength(Low/Medium/High)beforecourseplanning
Table1:SuggestiveActivitiesforTutorials:(TheListisonlysharedasanExampleandnotinclusiveofallpossibleactivitiesofthecourse.StudentandFacultyareencouragedtochooseactivitiesthatarerelevanttothetopicandontheavailabilityofsuchresourcesattheirinstitution)
Sl.No. SuggestiveActivitiesforTutorials
01 WriteaPLCLadderProgramtoSwitchingon/offtheLampwhethertheyareatthebottomorthetopofthestaircase.
02
Theproductionlinemaybepoweredoffaccidentallyorturnedofffornoonbreak.TheprogramistocontrolthecountertoretainthecountednumberandresumecountingafterthepoweristurnedONagain.Whenthedailyproductionreaches500,thetargetcompletedindicatorwillbeONtoremindtheoperatorforkeepingarecord.PresstheClearbuttontoclearthehistoryrecords.Thecounterwillstartcountingfrom0again.WriteaPLCLadderProgramtoperformthisoperation.
03WriteaPLCLadderProgramProvidinglubricantforthegearboxbeforethelathespindlestartstorunwhichaimstoensurethattheoilpumpmotorstartsfirstandthemainmotorstartssubsequently.
04WriteaPLCLadderProgramsuchthatOncethephotoelectricsensordetects10products,theroboticarmwillbegintopackup.Whentheactioniscompleted,theroboticarmandthecounterwillbereset.
05
DevelopPLCProgrammingExamplesonIndustrialAutomationaccordingtothelogicgivenbelow,
• ASaw,FanandoilpumpallgoONwhenastartbuttonispressed.• Ifthesawhasoperatedlessthan20s,theoilpumpshouldgooffwhenthesawis
turnedoffandthefanistorunforanadditional5saftertheshutdownofthesaw.
• Ifthesawhasoperatedformorethan20s,thefanshouldremainonuntilresetbyaseparatefanresetbuttonandtheoilpumpshouldremainonforanadditional10safterthesawisturnedoff.
06 DevelopandSimulateaPLCLadderDiagramforBottleFillingPlant
07 StudyandpresentaReportonhomeAutomation
08 StudyandpresentaReportonEmbeddedsystemsinAutomation
09 StudyandpresentaReportonAutomationinProcessingIndustries
4.CIEandSEEAssessmentMethodologiesSl.No
Assessment TestWeekDurationInminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests30
2. CIE-2WrittenTest 9 80 303 CIE-3WrittenTest 13 80 304. CIE-4SkillTest-Practice 6 180 100 Averageoftwoskill
testreducedto205 CIE-5SkillTest-Practice 12 180 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 66
6CIE-6PortfoliocontinuousevaluationofTutorialsessionsthroughRubrics
1-13 10 10
TotalCIEMarks 60SemesterEndExamination(Practice) 180 100 40
TotalMarks 100
5.FormatforCIEwrittenTestCourseName ElementsofAutomation Test I/II/III Sem IVCourseCode 20ME44P Duration 80Min Marks 30Note:Answeranyonefullquestionfromeachsection.Eachfullquestioncarries10marks.
Section AssessmentQuestions CognitiveLevels(R/U/A)
CourseOutcome Marks
I1 2
II3 4
III5 6
Note for theCoursecoordinator:Eachquestionmayhaveone, twoor threesubdivisions.Optionalquestions ineachsectioncarrythesameweightageofmarks,Cognitivelevelandcourseoutcomes.
5.(a)ForCIESkillTest-4Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 02 SelectasuitableSensor/SwitchforagivenProcessVariableandactivate
• SelectionofSensor/Transducer–05Marks• ActivationandResult–15Marks
20
2 02 Selectasuitablemotorforthegivencaseandenergize• SelectionoftheMotor–10Marks• EnergizeandResult–20Marks
30
3 03 DevelopandSimulateasimpleladderdiagramforagivenCase• WritingLadderProgram–20Marks• SimulateandTroubleshoot-20Marks
40
4 01,02,03 PortfolioevaluationbasedontheaverageofallPracticeSessions(1-6Weeks)
10
TotalMarks 100
5.(b)ForCIESkillTest-5Duration:240MinSL.No.
CO Particulars/Dimension Marks
1 03 DeviceandSimulatealadderdiagramforthegivenCaseStudy(PLCBased)
• WritingLadderProgram–40Marks• SimulateandTroubleshoot-20Marks
60
2 04 PrepareaSCADABlockDiagramforthegivenCase 303 03,04 PortfolioevaluationbasedontheaverageofallPracticeSessions(7-12
Weeks)10
TotalMarks 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 67
6.RubricsforAssessmentofActivity(QualitativeAssessment)
Sl.No.
Dimension Beginner Intermediate Good Advanced Expert StudentsScore
2 4 6 8 101 Descriptor Descriptor Descriptor Descriptor Descriptor 82 Descriptor Descriptor Descriptor Descriptor Descriptor 63 Descriptor Descriptor Descriptor Descriptor Descriptor 24 Descriptor Descriptor Descriptor Descriptor Descriptor 2
AverageMarks=(8+6+2+2)/4=4.5 5
Note:DimensionandDescriptorshallbedefinedbytherespectivecoursecoordinatoraspertheactivities
7.Reference:Sl.No. Description1 ProgrammablelogicControllersByW.BOLTON2 DigitalelectronicsByFLYOD3 ExploringPLCwithapplicationsByPRADEEPKUMARSRIVATSAVA
4 Automation , Production systems and Computer integrated Manufacturing By MIKELLGROOVER
5 SensorsHandbook-SABRIESOLOMAN-MC-GRAWHILLpublications
6 HandbookofModernSensors”Physics ,DesignsandApplications- JACOBFRADEN-SpringerPublications
7 ElectricMotorsandDrivesBYAUSTINHUGHESandBILLDRURY
8.LISTOFSOFTWARE/LEARNINGWEBSITES
1.http://www.vlab.com2.http://www.mtabindia.com3.http://www.nptel.ac.in
9.SEESchemeofEvaluationDuration:180Min
10.Equipment/softwarelistwithSpecificationforabatchof20students
Sl.
No.Particulars Specification Quantity
01 PLCTrainerKitwiththefollowingModules 05No
SL.No.
CO
Particulars/Dimension Marks
1
02
SelectasuitableSensor/SwitchforagivenProcessVariableandactivate• SelectionofSensor/Transducer–10Marks• ActivationandResult–20MarksOR
Selectasuitablemotorforthegivencaseandenergize• SelectionoftheMotor–10Marks• EnergizeandResult–20Marks
30
3 03 DeviceandSimulatealadderdiagramforthegivenCaseStudy• WritingLadderProgram–30Marks• SimulateandTroubleshoot–20Marks
50
4 01,02,03,04 Vivavoce 20
TotalMarks 100
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 68
• DoorController• CarParkingApplication• WaterLevelController• ConveyorControllerApplication• LiftcontrolApplication
WithdifferentLengthPatchCords
02
Switches• MechanicalSwitches• ProximitySwitches• PhotoelectricSensorsandSwitches
05Noeach
03
Sensors• TemperatureSensors• Position/DisplacementSensors• StrainGauges• PressureSensors• Liquidleveldetectors• Fluidflowmeasurement• SmartSensors• ProximitySensors
05Noeach
04 InductionMotorwithDOLStarter 3PhaseAc50Hz 0105 SynchroniseMotorwithDOLStarter 3PhaseAc50Hz 0106 StepperMotor Standardsize 0107 Relays Standardsize 1008 CounterandTimers Standardsize 10
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 69
GovernmentofKarnatakaDepartmentofCollegiateandTechnicalEducation
Programme AuditCourse Semester IV
CourseCode 20ME45T TypeofCourse Audit
CourseName IndianConstitution ContactHours2hours/week26hours/semester
TeachingScheme L:T:P::2:0:0 Credits 2
CIEMarks 50 SEEMarks Nil
1.CourseOutcomes:AttheendoftheCourse,thestudentwillbeableto:
CO-01 CO1 UnderstandPreamble,salientfeaturesandimportanceofIndianConstitution.
CO-02 CO2 UnderstandFundamentalrights,dutiesandDirectiveprinciplesofstatepolicy.
CO-03
CO3
Understand Parliamentary system of governance, Structure, Functions, Power ofCentral,stategovernments(Legislative,Executive)andJudiciary.
CO-04 CO4 Understand Panchayat Raj Institutions and Local self-governments, UPSC, KPSC,NHRC,Statusofwomen,RTEetc.
2.CourseContent
Week CO DetailedCourseContentContactHours
1 1IntroductiontoconstitutionofIndia-FormationandCompositionoftheConstituentAssembly-SalientfeaturesoftheConstitution-PreambletotheIndianConstitution
2
2 1,2 FundamentalRights-Definition,Therighttoequality,Therighttofreedom,Therightagainstexploitation,Therighttofreedomofreligion. 2
3 1,2 CulturalandeducationalrightsandTherighttoconstitutionalremedies.FundamentalDuties,Directiveprinciplesofstatepolicy. 2
4 1,3Parliamentarysystemofgovernance-StructureofParliament-LokSabhaandRajyaSabha.Functionsofparliament-Legislative,Executive,FinancialFunctionPowersofLokSabhaandRajyaSabha.
2
5 1,3Procedurefollowedinparliamentinmakinglaw,Annualfinancialstatement(Budget)–procedureinparliamentwithrespecttoestimates,Appropriationbill,Supplementary,additionalgrants,Voteonaccount,votesoncreditandexceptiongrant,specialprovisions,rulesofprocedure.
2
6 1,3 Structureofunionexecutive,PowerandpositionofPresident.VicePresident,Primeministerandcouncilofministers. 2
7 1,3 Structureofthejudiciary:JurisdictionandfunctionsofSupremeCourt,highcourt,andsubordinatecourts. 2
8 1,3FederalismintheIndianconstitution-DivisionofPowers:Unionlist,Statelistandconcurrentlist.Structureofstatelegislation,LegislativeassemblyandLegislativecouncil.
2
9 1,3Functionsofstatelegislature,Structureofstateexecutive-PowersandpositionsofGovernor,Speaker,DeputySpeaker,ChiefMinisterandcouncilofminister.
2
10 4Localself-government-meaning-Threetiersystem,VillagePanchayat-TalukpanchayatZillapanchayat,Localbodies-MunicipalitiesandCorporations,BruhathMahanagaraPalike,FunctionsofElectioncommission,UPSC,KPSC.
2
DepartmentofCollegiateandTechnicalEducation,GovernmentofKarnataka 70
11 4
Amendmentoftheconstitution,HumanRights-Definition-constitutionalprovisions-righttolifeandliberty-HumanRightsofWomen-DiscriminationagainstwomenstepsthataretobetakentoeliminatediscriminationagainstwomeninEducation,employment,healthcare,Economicandsociallife,
2
12 4
StatusofWomeninIndia-Womeninruralareas,ConstitutionalSafeguards-DowryProhibitionact1961-Domesticviolenceact2005-Sexualharassmentatworkplacebill2006.HumanRightsofChildren-Whoisachild-listtheRightsoftheChild-Righttoeducation,ProtectionofChildrenfromSexualOffencesAct(POCSO)-2012-
2
13 1,4
NationalHumanRightsCommissionConstitution-PowersandfunctionoftheCommission-Employeerights-Provisionsmade,Contractual-Noncontractualemployeerights-Whistleblowing-definition-Aspects-IntellectualPropertyRights(IPR)–Meaning-Needforprotection-Brieflydescriptionofconceptofpatents,Copyright,Trademark
2
TotalinHours 26Hrs
REFERENCES
1. IntroductiontotheConstitutionofIndia-Dr.DurgaDasBasu2. EmpowermentofruralwomeninIndia-HemalathaH.MandRameshwariVarma,HemaPrakashana.
4.CIEandSEEAssessmentMethodologiesSl.No
AssessmentTestWeek
Duration
Inminutes
Maxmarks
Conversion
1. CIE-1WrittenTest 5 80 30 Averageofthreetests
302. CIE-2WrittenTest 9 80 30
3 CIE-3WrittenTest 13 80 30
4. CIE-4MCQ 6 60 20 AverageoftwoCIE=205 CIE-5OpenBookTest 12 60 20
TotalCIEMarks 50
SemesterEndExamination(Practice) - - -
TotalMarks 50