curriculum and syllabus - Dr.MGR Educational and Research ...

1 B.Tech Aeronautical Engineering - 2018 Regulation

DEPARTMENT OF MECHANICAL ENGINEERING

CURRICULUM AND SYLLABUS

(2018 REGULATION)

BACHELOR OF TECHNOLOGY AERONAUTICAL ENGINEERING

(FULL TIME)


DECLARATION

I, Dr.M.Ganesan, Head of Mechanical

Engineering Department, hereby declare that

this copy of the syllabus (B.Tech –Aeronautical

Engineering Full time 2018 Regulation) is the

final version which is being taught in the class

and uploaded in our University website. I

assure that the Syllabus available in our

University website is verified and found correct.

The Curriculum and Syllabi have been ratified

by our Academic Council/Vice Chancellor.

Date: Signature


B.Tech – Aeronautical Engineering (Full Time)

For students admitted in 2020-21 Batch onwards.

Curriculum and Syllabus

2018 Regulation

I SEMESTER

S.No Sub. Code Subject Name Ty/Lb/E

TL L

T/S.

Lr P/R C

1 BEN20001/

BEN18001

Technical English – I TY 1 0/0 2/0 2

2 BMA20001/

BMA18001

Mathematics – I TY 3 1/0 0/0 4

3 BPH20001/

BPH18001

Engineering Physics – I TY 2 0/1 0/0 3

4 BCH20001/

BCH18001

Engineering Chemistry – I TY 2 0/1 0/0 3

5 BES20001/

BES18001

Basic Electrical & Electronics

Engineering

TY 2 0/1 0/0 3

6 BES20002/

BES18002

Basic Mechanical & Civil Engineering TY 2 0/1 0/0 3

PRACTICALS*

1 BES20L01/

BES18L01 Basic Engineering Workshop

Lb 0 0/0 2/0 1

2 BES20ET1/

BES18ET1

Orientation to Entrepreneurship &

Project Lab

ETL 0 0/0 2/0 1

Credits Sub Total: 20


TOTAL CREDITS: 36

C: Credits L: Lecture T: Tutorial S.Lr: Supervised Learning P: Practical R: Research Ty/Lb/ETL: Theory

/Lab/Embedded Theory and Lab * Internal Evaluation

II SEMESTER


TL L

T/S

Lr P/R C

1 BMA20003/

BMA18003

Mathematics – II TY 3 1/0 0/0 4

2 BPH20002/

BPH18002

Engineering Physics - II TY 2 0/1 0/0 3

3 BCH20002/

BCH18002

Engineering Chemistry – II TY 2 0/1 0/0 3

4 BES20003/

BES18003

Environmental Science* TY Non Credit Course

PRACTICALS*

1 BEN20ET1/

BEN18ET1

Communication Lab ETL 1 0/0 2/0 1

2 BES20ET2/

BES18ET2

Basic Engineering Graphics ETL 1 0/0 2/0 2

3 BES20L02/ BES18L02

Integrated Physical Science Lab Lb 0 0/0 2/0 1

4 BES20ET3/

BES18ET3

C Programming and Lab ETL 1 0/0 2/0 2


III SEMESTER

S.No Sub. Code Subject Name Ty/Lb/

ETL L

T/S.

Lr P/R C

1 BMA20051 Mathematics III for Aeronautical

Engineers

TY 3 1/0 0/0 4

2 BAE20001 Aero Engineering Thermodynamics TY 3 1/0 0/0 4

3 BAE20002 Engineering Mechanics TY 3 0/0 0/0 3

4 BAE20003/

BME18006

Strength of Materials TY 3 0/0 0/0 3

5 BCE20I01 Fluid Mechanics TY 3 0/0 0/0 3

6 BAE20004 Elements of Aeronautical Engineering Ty 3 0/0 0/0 3

PRACTICALS*

1 BCE20IL1/

BCE18IL4

Fluid Mechanics and Machinery

Laboratory

Lb 0 0/0 3/0 1

2 BAE20L01 Thermodynamics and Strength of

Materials Laboratory

Lb 0 0/0 3/0 1

3 BAE20L02 CAD and Aircraft Components Drawing Lb 0 0/0 3/0 1


IV SEMESTER


TL L

T/S.

Lr P/R C

1 BAE20005 Aerodynamics – I TY 3 0/0 0/0 3

2 BAE20006 Propulsion – I TY 3 0/0 0/0 3

3 BAE20007 Flight Mechanics TY 3 1/0 0/0 4

4 BAE20008 Aircraft Structures TY 3 1/0 0/0 4

5 BEE20I01 Fundamentals of Aircraft Control And

Instrumentation Systems

TY 3 0/0 0/0 3

7

BHS20NC1/

BHS18NC1

BHS20NC2/

BHS18NC2

The Indian Constitution*/ The Indian

Traditional Knowledge*

TY 1 Non Credit Course

PRACTICALS*

1 BAE20ET1 Manufacturing Technology ETL 1 0/1 3/0 3

2 BAE20L03 Aircraft Structures Laboratory Lb 0 0/0 3/0 1

2 BAE20L04 Aero Engine and Airframe Laboratory Lb 0 0/0 3/0 1

4 BAE20TS1 Technical Skill-I Lb 0 0/0 3/0 1

5 BEN20SK1/

BEN18SK1

Soft Skill I (Career & Confidence

Building) ETL 0 0/0 3/0 1



V SEMESTER


TL L T/S.Lr P/R C

1 BAE20009 Aircraft Stability and Control TY 3 0/0 0/0 3

2 BAE20010 Composite Materials and Structures TY 3 0/0 0/0 3

3 BAE20011 Aerodynamics – II TY 3 0/0 0/0 3

4 BAE20012 Propulsion – II TY 3 0/0 0/0 3

5 BAE20EXX Elective -I TY 3 0/0 0/0 3

6 BXX20OEX Open Elective – I TY 3 0/0 0/0 3

PRACTICALS*

1 BAE20ET2/

BME18ET4

Finite Element Method ETL 1 0/0 3/0 3

2 BAE20L05 Aerodynamics Laboratory Lb 0 0/0 3/0 1

3 BAE20TS2 Technical Skill – II Lb 0 0/0 3/0 1


VI SEMESTER


TL L

T/S.

Lr P/R C

1 BAE20013 Heat Transfer TY 3 0/0 0/0 3

2 BAE20014 Aircraft Design TY 3 0/0 0/0 3

3 BAE20015 Fundamentals of Structural Health

Monitoring

TY 3 0/0 0/0 3

4 BAE20EXX Elective – II TY 3 0/0 0/0 3

5 BXX20OLX Open Elective - II TY 3 0/0 0/0 3

PRACTICALS*

1 BAE20ET3 Computational Fluid Dynamics ETL 1 0/1 3/0 3

2 BAE20L06 Propulsion Laboratory Lb 0 0/0 3/0 1

3 BAE20L07 Aircraft Design Project Lb 0 0/0 3/0 1

4 BEN20SK2/

BEN18SK2

Soft Skill II (Qualitative and

Quantitative Skills) ETL 0 0/0 3/0 1

5 BAE20TS3 Technical Skill – III Lb 0 0/0 3/0 1

Credits Sub Total:22


VII SEMESTER


TL L

T/S.

Lr P/R C

1 BAE20016 Airline and Airport Management TY 3 0/0 0/0 3

2 BAE20017 Avionics TY 3 0/0 0/0 3

3 BAE20EXX Elective – III TY 3 0/0 0/0 3

4 BAE20EXX Elective – IV TY 3 0/0 0/0 3

PRACTICALS*

1 BAE20L08 Aircraft Systems Laboratory Lb 0 0/0 3/0 1

2 BAE20L09 Aircraft Repair and Non-Destructive

Testing Laboratory

Lb 0 0/0 3/0 1

3 BAE20L10 Project Phase - I Lb 0 0/0 3/3 2

4 BHS20FLX Foreign Language Lb

0 0/0 3/0 1

5 BXX20OLX Open Lab Lb

0 0/0 3/0 1

Credits Sub Total:18

VIII SEMESTER

S.No Sub. Code Title of Subject Ty/Lb/E

TL L T/S.Lr P/R C

1 BAE20018 Wind Tunnel Techniques TY 3 0/0 0/0 3

2 BAE20EXX Elective – V TY 3 0/0 0/0 3

PRACTICALS*

1 BAE20L11 Project Phase – II Lb 0 0 12/12 8


Number of Credits for I year : 36

Number of Credits for

III semester to VIII semester : 124

TOTAL CREDITS : 160


SEMESTER –V

ELECTIVE -I

Subject Code Title of Subject Ty/Lb/E

TL L T/S.Lr P/R C

BAE20E01 Theory of Elasticity Ty 3 0 0 3

BAE20E02 Aircraft General Engineering and Maintenance

Practices

Ty 3 0 0 3

BAE20E03 Space Mechanics Ty 3 0 0 3

BAE20E04 Industrial Aerodynamics Ty 3 0 0 3

BAE20E05/

BME18E03

Turbo Machines Ty 3 0 0 3

SEMESTER –VI

ELECTIVE -II


TL L T/S.Lr P/R C

BAE20E06 Helicopter Theory Ty 3 0 0 3

BAE20E07 Experimental Stress Analysis Ty 3 0 0 3

BAE20E08 Fatigue and Fracture Mechanics Ty 3 0 0 3

BAE20E09 UAV Systems Ty 3 0 0 3

BAE20E10 Disaster Management Ty 3 0 0 3

SEMESTER- VII

ELECTIVE -III


TL L T/S.Lr P/R C

BAE20E11 Advanced Aerospace Materials Ty 3 0 0 3

BAE20E12 Airframe Maintenance and Repair Ty 3 0 0 3

BAE20E13 Aero Engine Maintenance and Repair Ty 3 0 0 3

BAE20E14 Air Traffic Control and Planning Ty 3 0 0 3

BAE20E15 Aircraft Performance Ty 3 0 0 3

ELECTIVE -IV


TL L T/S.Lr P/R C

BAE20E16 Hypersonic Aerodynamics Ty 3 0 0 3

BAE20E17 Experimental Aerodynamics Ty 3 0 0 3

BAE20E18 Rockets and Missiles Ty 3 0 0 3

BAE20E19 Structural Dynamics Ty 3 0 0 3

BAE20E20 Control Engineering Ty 3 0 0 3


Open Electives-Department of Civil Engineering

OPEN ELECTIVE - THEORY

Subject

Code

Title of Subject

Ty /

Lb/

ETL

L

T

P

C

BCE20OE1/

BCE18OE1

Water Pollution and its Management Ty 3 0/0 0/0 3

BCE20OE2/

BCE18OE2

Environment,Health and Safety Inindustries Ty 3 0/0 0/0 3

BCE20OE3/

BCE18OE3

Green Building and Vastu Concepts Ty 3 0/0 0/0 3

BCE20OE4/

BCE18OE4

Climate Change and Sustainable Development Ty 3 0/0 0/0 3

BCE20OE5/

BCE18OE5

Intelligent Transportation Systems Ty 3 0/0 0/0 3

BCE20OE6/

BCE18OE6

Geographical Information System and Mapping Ty 3 0/0 0/0 3

BCE20OE7/

BCE18OE7

Industrial Pollution Prevention and Cleaner Production Ty 3 0/0 0/0 3

BCE20OE8/

BCE18OE8

Air Pollution and Control Ty 3 0/0 0/0 3

OPEN ELECTIVE - LAB

BCE20OL1/

BCE18OL1

Building Drawing Practice

using Autocadd

Lb 0 0/0 3/0 1

BCE20OL2/

BCE18OL2

Geographical Information system and Mapping Lab Lb 0 0/0 3/0 1

BCE20OL3/

BCE18OL3 Environmental Engineering laboratory Lb 0 0/0 3/0 1

Open Electives-Department of Electrical and Electronics Engineering

OPEN ELECTIVE

S.NO. SUBJECT

CODE

SUBJECT NAME

Ty/

Lb/

ETL

L T/

SLr

P/R

C

1 BEE20OE1/

BEE18OE1 Electrical Safety for Engineers Ty 3 0/0 0/0 3

2 BEE20OE2/

BEE18OE2 Energy Conservation Techniques Ty 3 0/0 0/0 3

3 BEE20OE3/

BEE18OE3 Electric Vehicle Technology Ty 3 0/0 0/0 3

4 BEE20OE4/

BEE18OE4 Biomedical Instrumentation Ty 3 0/0 0/0 3

5 BEE20OE5/

BEE18OE5 Introduction to Power Electronics Ty 3 0/0 0/0 3

6 BEE20OE6/

BEE18OE6 Industrial Instrumentation Ty 3 0/0 0/0 3

7 BEE20OE7/

BEE18OE7 Solar Energy Conversion System Ty 3 0/0 0/0 3

8 BEE20OE8/

BEE18OE8 Wind Energy Conversion System Ty 3 0/0 0/0 3

9 BEE20OE9/

BEE18OE9 Energy Storage Technology Ty 3 0/0 0/0 3


OPEN LAB

1 BEE20OL1/

BEE18OL1 Transducer Lab Lb 0 0/0 3/0 1

2 BEE20OL2/

BEE18OL2 PLC and SCADA Lab Lb 0 0/0 3/0 1

3 BEE20OL3/ BEE18OL3

Electrical Maintenance Lab Lb 0 0/0 3/0 1

4 BEE20OL4/ BEE18OL4

Power Electronics Lab Lb 0 0/0 3/0 1

5 BEE20OL5/

BEE18OL5 Bio Medical Instrumentation Lab Lb 0 0/0 3/0 1

Open Electives-Department of Chemical Engineering

OPEN ELECTIVES

S.N

O.

SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/ SLr P/R C

1 BCT20OE1/ BCT18OE1

Fundamentals of Nanoscience Ty 3 0/0 0/0 3


Electrochemical Engineering Ty 3 0/0 0/0 3

3 BCT20OE3/

BCT18OE3

Alternative Fuels And Energy System Ty 3 0/0 0/0 3


Petrochemical Unit Processes Ty 3 0/0 0/0 3

5 BCT20OE5/

BCT18OE5

Principles of Desalination

Technologies Ty 3 0/0 0/0 3

6 BCT20OE6/

BCT18OE6 Piping Design Engineering Ty 3 0/0 0/0 3

7 BCT20OE7/

BCT18OE7 E-Waste Management Ty 3 0/0 0/0 3

Open Electives-Department of Biotechnology

OPEN ELECTIVES

S.N

O.

SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

SLr

P/R C

1. BBT20OE1/B

BT18OE1 Food and Nutrition Ty 3 0/0 0/0 3

2. BBT20OE2/B

BT18OE2 Human Physiology Ty 3 0/0 0/0 3

3. BBT20OE3/B

BT18OE3 Clinical Biochemistry Ty 3 0/0 0/0 3

4. BBT20OE4/B

BT18OE4 Bioprocess Principles Ty 3 0/0 0/0 3

5. BBT20OE5/B

BT18OE5

Biosensors and biomedical Devices in

Diagnostics Ty 3 0/0 0/0 3

6. BBT20OE6/B

BT18OE6 Basic Bioinformatics Ty 3 0/0 0/0 3


OPEN LABS

1. BBT20OL1/B

BT18OL1 Basic Biochemistry Lab Lb 0 0/0 3/0 1

2. BBT20OL1/B

BT18OL2 Basic Bioprocess Lab

Lb 0 0/0

3/0 1

3. BBT20OL3/B

BT18OL3 Basic Microbiology Lab

Lb 0 0/0

3/0 1

4. BBT20OL4/B

BT18OL4 Basic Bioinformatics Lab

Lb 0 0/0

3/0 1

Open Electives-Department of Computer Science and Engineering

OPEN ELECTIVES

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

SLr

P/R C

1 BCS20OE1/

BCS18OE1 Cyber Security & Forensics

Ty 3 0/0 0/0 3

2 BCS20OE2/

BCS18OE2 Artificial Intelligence and Expert System

Ty 3 0/0 0/0 3

3 BCS20OE3/

BCS18OE3 Python Programming

Ty 3 0/0 0/0 3

4 BCS20OE4/

BCS18OE4 Computer Hardware and Maintenance

Ty 3 0/0 0/0 3

5 BCS20OE5/

BCS18OE5 Data Base Concepts

Ty 3 0/0 0/0 3

6 BCS20OE6/

BCS18OE6 Introduction to Machine Learning

Ty 3 0/0 0/0 3

OPEN LAB

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

SLr

P/R C

1 BCS20OL1/

BCS18OL1 Visual Programming Lab Lb 0 0/0 3/0 1

2 BCS20OL2/

BCS18OL2 Web Design Lab Lb 0 0/0 3/0 1

3 BCS20OL3/

BCS18OL3 Python Programming Lab Lb 0 0/0 3/0 1

4 BCS20OL4/

BCS18OL4 Computer Network Lab Lb 0 0/0 3/0 1

5 BCS20OL5/

BCS18OL5 PHP / MySQL Programming Lab Lb 0 0/0 3/0 1


Open Electives-Department of Information Technology

OPEN ELECTIVES

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

S.Lr

P/R C

1 BIT20OE1/

BIT18OE1 Web Design

Ty 3 0/0 0/0 3

2 BIT20OE2/

BIT18OE2 Digital Marketing

Ty 3 0/0 0/0 3

3 BIT20OE3/

BIT18OE3 Information Security Management

Ty 3 0/0 0/0 3

4 BIT20OE4/

BIT18OE4 Introduction to Multimedia

Ty 3 0/0 0/0 3

OPEN LAB

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

S.Lr

P/R C

1 BCS20OL1/

BCS18OL1 Visual Programming Lab Lb 0 0/0 3/0 1

2 BCS20OL2/

BCS18OL2 Web Design Lab Lb 0 0/0 3/0 1

3 BCS20OL3/

BCS18OL3 Python Programming Lab Lb 0 0/0 3/0 1

4 BCS20OL4/

BCS18OL4 Computer Network Lab Lb 0 0/0 3/0 1

5 BCS20OL5/

BCS18OL5 PHP / MySQL Programming Lab Lb 0 0/0 3/0 1

Open Electives - Electronics and Communication Engineering

OPEN ELECTIVES

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

S.Lr

P/R C

1 BEC200E1/

BEC18OE1 Internet of Things and its Applications Ty 3 0/0 0/0 3

2 BEC20OE2/

BEC18OE2 Cellular Mobile Communication Ty 3 0/0 0/0 3

3 BEC20OE3/

BEC18OE3 Satellite and its Applications Ty 3 0/0 0/0 3

4 BEC20OE4/

BEC18OE4 Fundamentals of Sensors Ty 3 0/0 0/0 3

5 BEC20OE5/

BEC18OE5 Basics of Microprocessors and Microcontrollers Ty 3 0/0 0/0 3

6 BEC20OE6/

BEC18OE6 Industry 4.0 Concepts Ty 3 0/0 0/0 3


OPEN LABS

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

S.Lr

P/R C

1 BEC20OL1/

BEC18OL1 Sensors and IoT Lab Lb 0 0/0 3/0 1

2 BEC20OL2/

BEC18OL2 Robotics Control Lab Lb 0 0/0 3/0 1

3 BEC20OL3/

BEC18OL3 Basics of MATLAB Lb 0 0/0 3/0 1

Open Electives- Dr APJ Abdul Kalam Center for Research

S.NO. SUBJECT

CODE

SUBJECT NAME Ty/

Lb/

ETL

L T/

S.Lr

P/R C

1 BMG20OE1/

BMG18OE1/

BMG13E12

Technical Entrepreneurship

TY

2

0/1

2/0 3

2 BMG20OE2/

BMG18OE2

Advanced Program in Entrepreneurship TY 2 0/1 2/0

3


SEMESTER – I


Subject Code

BEN 20001/

BEN18001

Subject Name : : TECHNICAL

ENGLISH - I

Ty/

Lb/

ETL

L

T/SLr

P/R

C

Prerequisite : None Ty 1 0/0 2/0 2

L : Lecture T : Tutorial SLr : Supervised Learning P: Practical R : Research C : Credits

Ty/Lb/ETL : Theory / Lab / Embedded Theory and Lab

OBJECTIVES

Strengthen their vocabulary in both technical and business situations

Get practice in functional grammar

Learn the effective way of corresponding with officials

Learn to give instructions, suggestions, and recommendations and comprehend and infer the information

from the given passages.

Train learners in organized academic and professional writing

COURSE OUTCOMES (Cos) Students completing this course were able to

CO1 Recall basic grammar, spelling and phonetics concept.

CO2 Discuss ideas and concepts in groups.

CO3 Interpret charts, diagrams, reports and advertisements.

CO4 Analyse and evaluate scientific and technical concepts for organized oral and written presentation

CO5 Apprise, argue and support using critical judgments on any given topic

Mapping of Course Outcome with Program Outcome (POs)

Cos/POs PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12

CO1 1 3 3 3

CO2 3 3 3 3 1 3 3 1 3 3 1 3

CO3 3 2 1 3 3 2 2 2 3 3

CO4 3 3 3 3 1 2 1 3 2 3 1 3

CO5 1 2 2 3 3 2 2 3 3 2 3

COs/PSOs PSO1 PSO2 PSO3 PSO4

CO1 3

CO2 3 2 1

CO3 3 2 1

CO4 3 2 1

CO5 3 2 1

3/2/1 Indicates Strength Of Correlation, 3 – High, 2- Medium, 1- Low

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Subject Code Subject Name : : TECHNICAL Ty/

BEN 20001/ ENGLISH - I Lb/ L T/SLr P/R C

BEN18001 ETL


UNIT IVOCABULARYBUILDING 6

The concept of Word Formation-Root words and affixes from foreign languages and their use in English to form

derivatives.-Homophones- Words often confused-Verbal analogy

UNITII BASICWRITINGSKILLS 6

Using Idioms and phrases in sentences-Sentence structures: statements, interrogative and imperative-Use of

Conditional/if‘ clauses in sentences-Importance of proper punctuation-Creating coherence with sentence markers-

Organizing coherent paragraphs in essays

UNITIII IDENTIFYING COMMON ERRORSINWRITING 6

Subject-verb agreement-Noun-pronoun agreement- Misplaced modifiers-Articles-repositions-Redundancies and Clichés

UNIT IV WRITING PRACTICE- NATURE AND STYLE OFTECHNICALWRITING 6

Describing Gadgets- Defining Concepts-Classifying data-Comprehension-Essay Writing-Informal and Formal Letter

Writing:

UNIT V ORAL COMMUNICATION ANDINTERACTIVELEARNING 6

(This unit involves interactive practice sessions in Language Lab) Activities to develop knowledge in Word formation,

Vocabulary and analytical thinking-Instructions and – Recommendations-Formal and Informal Registers in Speech-

Listening and taking notesTotal no. of Periods:30

TEXT BOOK :

1. Quest : A Textbook of Communication Skills, Vijay Nicole, 2017.

2. Pushkala, R, Padmasani Kannan S, Anuradha V, Chandrasena M Rajeswaran

Reference Books:

Practical English Usage. Michael Swan. OUP. 1995.

Remedial English Grammar. F.T. Wood. Macmillan.2007

On Writing Well. William Zinsser. Harper Resource Book.2001

Study Writing. Liz Hamp-Lyons and Ben Heasly. Cambridge University Press.2006.

Communication Skills. Sanjay Kumar and Pushp Lata. Oxford University Press.2011.

Exercises in Spoken English. Parts. I-III. CIEFL, Hyderabad. Oxford UniversityPress

Pronunciation in Use ,Mark Hancock. Cambridge University Press. 2012


Subject Code Subject Name : MATHEMATICS-I Ty/Lb/

ETL L T/SLr P/R C

BMA 20001/

BMA18001 Prerequisite : None Ty 3 1/0 0/0 4



OBJECTIVES

Apply the Basic concepts in Algebra

Use the Basic concepts in Matrices

Identify and solve problems in Trigonometry

Understand the Basic concepts in Differentiation

Apply the Basic concepts in Functions of Several variables


CO1 Demonstrate knowledge of Basic concepts of Mathematics science & Engineering mathematics

CO2 Calculate the required parameters using basic mathematical theorems, laws and formulae

CO3 Apply mathematical techniques to solve problems

CO4 Examine the relevant methods, tools and techniques to provide solutions

CO5 Combine scientific & math principles, apply to real time problems for accurate results



CO1 3 3 1 1 2 2 1 3 3 3

CO2 3 3 1 2 3 1 1 1 3

CO3 3 3 2 2 3 2 1 2 3 1 2

CO4 3 3 2 2 1 2 1 1 2 3 1 2

CO5 3 3 2 2 2 2 1 1 2 2 1 3


CO1 3 1 1

CO2 3 1

CO3 3 1 1 1

CO4 3 1 1

CO5 3 1 2 1

3/2/1 Indicates Strength Of Correlation, 3 –High, 2- Medium, 1- Low

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Subject Code Subject Name : MATHEMATICS-I Ty/Lb/ ETL

L T/SLr P/R C

BMA 20001/

BMA18001


UNITIALGEBRA 12

Binomial, Exponential, Logarithmic Series (without proof of theorems) –Problems on Summation, Approximation and

Coefficients.

UNITIIMATRICES 12

Characteristic equation – Eigen values and Eigen vectors of a real matrix – Properties of Eigen values – Cayley -

Hamilton theorem (without proof) – Orthogonal reduction of a symmetric matrix to Diagonal form.

UNITIIITRIGONOMETRY 12

Expansions of Sin nθ, Cos nθ in powers of Sinθ and Cosθ – Expansion of Tan nθ – Expansions of Sinnθ and Cosnθ in

terms of Sines and Cosines of multiples of θ – Hyperbolic functions – Separation into real and imaginary parts.

UNITIV DIFFERENTIATION 12

Basic concepts of Differentiation – Elementary differentiation methods – Parametric functions – Implicit function –

Leibnitz theorem(without proof) – Maxima and Minima – Points of inflection.

UNIT V FUNCTIONS OFSEVERALVARIABLES 12

Partial derivatives – Total differential – Differentiation of implicit functions – Taylor‘s expansion – Maxima and Minima

by Lagrange‘s Method of undetermined multipliers – Jacobians.

Total no. of periods: 60

TEXT BOOKS

Kreyszig E., Advanced Engineering Mathematics (10 th ed.), John Wiley & Sons,(2011).

Veerarajan T., Engineering Mathematics (for first year), Tata McGraw Hill Publishing Co.,(2008).

REFERENCES

Grewal B.S., Higher Engineering Mathematics, Khanna Publishers,(2012).

John Bird, Basic Engineering Mathematics (5th ed.), Elsevier Ltd,(2010).

P.Kandasamy, K.Thilagavathy and K. Gunavathy, Engineering Mathematics Vol. I (4th Revised ed.), S.Chand& Co.,

Publishers, New Delhi(2000).

John Bird, Higher Engineering Mathematics (5th ed.), Elsevier Ltd,(2006).


Subject Code Subject Name : ENGINEERING

PHYSICS - I

Ty/Lb/ ETL

L T/SLr P/R C

BPH 20001/

BPH18001




OBJECTIVES

Outline the relation between Science, Engineering & Technology.

Demonstrate competency in understanding basic concepts.

Apply fundamental laws of Physics in Engineering & Technology.

To identify & solve problems using physics concepts.

Produce and present activities associated with the course through effective technical communication


CO1 Demonstrate competency in understanding basic concepts.

CO2 Utilize scientific methods for formal investigations & demonstrate competency with experimental

methods and verify the concept to content knowledge.

CO3 Identify and provide solutions for engineering problems.

CO4 Relate the technical concepts to day to day life and to practical situations.

CO5 Think analytically to interpret concepts.



CO1 3 3 1 2 2 2 1 1 2 1

CO2 3 3 2 2 2 2 1 2 2 1 1

CO3 3 3 3 2 2 2 1 1 1 2 1 2

CO4 3 3 2 2 1 2 2 1 2 2 1 2

CO5 3 3 2 1 1 2 1 2 1 2 1 1


CO1 3 1 1

CO2 3 1 1 1

CO3 3 1 1 1

CO4 3 1 1

CO5 3 1 1


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Subject Code :

BPH 20001/

BPH18001

Subject Name : ENGINEERING

PHYSICS - I

Ty/Lb/ET

L L

T/

SLr P/R C


UNITI MECHANICS & PROPERTIESOF MATTER 9

Mechanics : Introduction- scalar and vector quantities - rigid body - moment of inertia - forces in nature - Newton‘s laws

of motion - derivation of Newton‘s second law of motion - motion of rocket – dynamical concepts - kinematics -

conservation of energy and momentum - conservative and non-conservative forces - mechanics of continuous media -

friction and itsapplications.

Properties of Matter: Elasticity - stress, strain and Hook‘s law - Poisson‘s ratio - three moduli of elasticity - twisting

couple on a wire - viscosity - flow of liquid through a narrow tube: Poiseuille‘s law - Ostwald`s viscometer - flow of

blood in human body.

UNITII SHM ANDACOUSTICS 9

SHM: Simple harmonic motion - differential equation of SHM - graphical representation of SHM - average kinetic

energy of vibration - total energy of vibration - free and forced vibrations - damped and undamped vibrations - resonance

- transverse wave on a string - law of transverse vibration of string - verification of the laws of transverse vibration of

string - standing waves.

Acoustics : Fundamentals of acoustics - reverberation- reverberation time - factors affecting acoustics Ultrasonics-

Productionofultrasonicwaves-detectionofultrasonicwaves-acousticgrating-application of ultrasonicwaves.

UNIT IIIWAVEOPTICS 9

Huygen`s principle - interference of light - wavefront splitting and amplitude - airwedge - Newton`s rings - Michelson

interferometer and its applications - Fraunhofer diffraction from a single slit - Rayleigh criterion for limit of resolution -

diffraction grating and resolving power of a telescope.

UNITIV ELECTROMAGNETICTHEORY 9

Electric field - coulomb`s law - alternating emf - rms and average value of an alternating current & voltage - resistors,

capacitors and inductor - energy stored in a capacitor - LCR circuit & resonance – magnetism- definition - types - Biot

Savart law - energy stored in a magnetic field - Domain theory - electromagnetic induction - self and mutual inductance -

Faraday`s law of electromagnetic induction -Lenz law.

UNITV LASER 9

Laser principle and characteristics - amplification of light by population inversion - properties of laser beams: mono-

chromaticity, coherence, directionality and brightness - different types of lasers - Ruby laser-Nd-YAG laser-He-Ne laser-

CO2 laser - semiconductor laser - applications of lasers in science, engineering and medicine.

Total No of Periods: 45 TEXT BOOKS

Brijlal, M. N. Avadhanulu & N. Subrahmanyam, Text Book of Optics, S. Chand Publications, 25th edition,2012

R. Murugeshan, Electricity and Magnetism, S.Chand Publications, 10th edition,2017

R. Murugeshan & Kiruthiga Sivaprasath, Modern Physics, S.Chand Publications,2016

REFERENCE BOOKS

Dr. Senthil Kumar Engineering Physics I VRB Publishers,2016

N Subrahmanyam & Brijlal, Waves and Oscillations, Vikas Publications, NewDelhi,1988

N Subrahmanyam & Brijlal, Properties of Matter, S. Chand Co., New Delhi,1982

N Subrahmanyam & Brijlal, Text book of Optics, S. Chand Co., New Delhi,1989

R. Murugeshan, Electricity and Magnetism, S. Chand & Co., New Delhi,1995

Thygarajan K & Ajay Ghatak, Laser Theory and Applications, Macmillan, New Delhi,1981



CHEMISTRY - I

Ty/Lb/ ETL

L T/SLr P/R C

BCH 20001/

BCH 18001




OBJECTIVES

Providing an insight into basic concepts of chemical thermodynamics.

To create awareness about the water quality parameters, water analysis and softening of water from

industrial perspective.

Imparting fundamentals of emf, storage and fuel cells.

Creating awareness about corrosion and its control methods.

Introducing modern materials such as composites along with basic concepts of polymer chemistry and

plastics.

COURSE OUTCOMES (Cos)

Students completing this course were able to

CO1 Gain a clear understanding of the basic science as applied to engineering problems

CO2 Describe the ideas applied to demonstrate the competence through effective communication

CO3 Recall the information and analyze the health,ethical and engineering problems

CO4 Identify the environmental and societal issues and design solutions

CO5 Apply appropriate techniques by recognizing the need.



CO1 3 3 3

CO2 3 3 2 3 3 2

CO3 3 2 2 2 3 3 3

CO4 3 3 3 3 3 3

CO5 3 3 3 3


CO1 3 3 3

CO2 3 2 2

CO3 3 3

CO4 3 3

CO5 3 3


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Subject Code :

BCH 20001/

BCH18001

Subject Name : ENGINEERING CHEMISTRY – I Ty/Lb/ETL L T/ SLr P/R C


UNITCHEMICALTHERMODYNAMICS 8

Introduction, Terminology in thermodynamics –System, Surrounding, State and Path functions, Extensive and intensive

properties. Laws of thermodynamics – I and II laws-Need for the II law. Enthalpy, Entropy, Gibbs free energy, Helmholtz

free energy - Spontaneity and its criteria. Maxwell relations, Gibbs -Helmholtz equation (relating E & A) and (relating H

& G), Van‘t Hoff equations.

UNIT II TECHNOLOGYOFWATER 9

Water quality parameters – Definition and expression. Analysis of water – alkalinity, hardness and its determination

(EDTA method only). Boiler feed water and Boiler troubles-Scales and sludges, Caustic embrittlement, Priming and

Foaming and Boiler corrosion. Water softening processes – Internal and external conditioning – Lime soda, Zeolite,

Demineralisation methods. Desalination processes-RO and Electrodialysis

.Domestic water treatment.

UNIT III ELECTROCHEMISTRY AND ENERGYSTORAGEDEVICES 10

Conductance – Types of conductance and its Measurement. Electrochemical cells – Electrodes and electrode potential,

Nernst equation – EMF measurement and its applications. Types of electrodes- Reference electrodes- Standard hydrogen

electrode- Saturated calomel electrode-Quinhydrone electrode – Determination of PH using these electrodes. Reversible

and irreversible cells– Fuel cells- H2–O2 fuel cell, Batteries-Lead storage battery,Nickel– Cadmium and Lithium-Battery.

UNIT IVCORROSION ANDPROTECTIVECOATING 9

Introduction–Causes of Corrosion–Consequences- Factors affecting corrosion. Theories of corrosion-Chemical corrosion

and Electrochemical corrosion. Methods of corrosion control – corrosion inhibitors, Sacrificial anode and Impressed

current cathodic protection. Protective coatings- Metallic coatings- Chemical conversion coatings-paints-Constituents and

functions.

UNIT V POLYMERSANDCOMPOSITES 9

Monomers – Functionality – Degree of polymerization-Tacticity.Polymers – Classification, Conducting

Polymers,Biodegradable polymers- Properties and applications.Plastics – Thermoplastics and thermosetting

plastics,Compounding of plastics – Compression moulding, injection moulding and extrusion processes.

Polymer composites□ introduction□ Types of composites□ particle reinforced□ fiber reinforced□ structural

composites□ examples. Matrix materials, reinforcement materials-Kevlar, Polyamides, fiber glass, carbon fibers,

ceramics and metals .

Total No. of periods: 45

TEXTBOOKS

S.Nanjundan & C.SreekuttanUnnithan, “Applied Chemistry”, Sreelakshmi Publications,(2007)

Dr.R.Sivakumar and Dr.N.Sivakumar” Engineering Chemistry” Tata McGraw Hill Publishing Company Ltd, Reprint2013.

REFERENCES

P.C. Jain & Monika Jain, “Engineering Chemistry”, Dhanpat Rai publishing Co., (Ltd.)(2013).

J. C. Kuriacose & J. Rajaram, “Chemistry in Engineering & Technology”, Tata Mc Graw Hill (1996).

B.R.Puri, L.R.Sharma & M.S.Pathania, “Principles of Physical Chemistry”, Vishal publishing co., (2013).


Subject Code Subject Name : BASIC ELECTRICAL

& ELECTRONICS ENGINEERING

Ty/Lb/ ETL

L T/SLr P/R C

BES 20001/

BES 18001




OBJECTIVES

Understand the concepts of circuit elements, circuit laws and coupled circuits.

Gain information on measurement of electrical parameters.

Acquire knowledge on conventional &non-conventional energy production.

Identify basic theoretical principles behind the working of modern electronic gadgets.

Demonstrate digital electronic circuits and assemble simple devices.



CO1 Interpret Fundamental principles, laws, and their practical applications

CO2 Verify the concept of electric & magnetic circuits and interpret results.

CO3 Analyze various sources of power & energy, generation methods & conservation

CO4 Identify & Apply schematic symbols and understand the working principles of electronic devices &

instruments

CO5 Design analog& digital circuits using basic concepts to solve problems



CO1 3 3 2 3 2 3 1 1 1 3 2 1

CO2 3 3 3 3 3 3 3 1 1 2 2 1

CO3 3 3 3 2 3 3 2 1 2 2 3 1

CO4 3 3 3 2 3 2 2 1 3 3 2 1

CO5 3 3 3 2 3 3 2 2 2 2 2 1


CO1 3 1 1

CO2 3 1 1

CO3 3 1 1 1

CO4 3 1 1 1

CO5 3 1 1 1


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Subject Code Subject Name : BASIC ELECTRICAL &

ELECTRONICS ENGINEERING

Ty/Lb/

ETL

L T/SLr P/R C

BES 20001/

BES 18001


UNITI ELECTRIC CIRCUITS 9

Electrical Quantities – Ohms Law – Kirchhoff‘s Law – Series and Parallel Connections – Current Division and Voltage

Division Rule - Source Transformation – Wye (Υ) – Delta (∆) , Delta (∆) – Wye (Υ) Transformation – Rectangular to

Polar and Polar to Rectangular.

UNITII MACHINES &MEASURING INSTRUMENTS 9

Construction & Principle of Operation of DC motor & DC Generator – EMF equation of Generator – Torque Equation of

Motor – Construction & Principle of operation of a Transformer – PMMC – Moving Iron types of meter – Single Phase

Induction Type Energy Meter.

UNITIII BASICS OF POWER SYSTEM 9

Generation of Electric Power (Thermal, Hydro, Wind and Solar) – Transmission & Distribution of Electric Power – Types

of Transmission & Distribution Schemes – Representation ofSubstation.

UNITIV ELECTRON DEVICES 9

Passive Circuit Components-Classification of Semiconductor-PN Junction Diode-Zener diode- Construction and Working

Principle –Applications--BJT-Types of configuration-JFET.

UNITV DIGITAL SYSTEM 9

Number System – Binary, Decimal, Octal, Hexadecimal – Binary Addition Subtraction, Multiplication & Division–

Boolean Algebra – Reduction of Boolean Expressions – Logic Gates - De-Morgan‘s Theorem ,Adder – Subractor.

Total no of Periods : 45

TEXT BOOKS

D P Kothari, I J Nagrath, Basic Electrical Engineering, Second Edition, , Tata McGraw-HillPublisher

A Course In Electrical And Electronic Measurements And Instrumentation,A.K. Sawhney, publisher DHANPAT RAI&CO

Text Book of Electrical Technology: Volume 3: Transmission, Distribution and Utilization,B.L.Theraja, A.K.Theraja,

publisherS.CHAND

Morris Mano, M. (2002) Digital Logic and Computer Design. Prentice Hall ofIndia

Millman and Halkias1991, Electronic Devices and Circuits , Tata McGrawHill,

REFERENCES

R.Muthusubramanian, S.Salivahanan, K A Muraleedharan, Basic Electrical, Electronics And Computer Engineering, Second Edition,

,Tata McGraw-Hillpublisher.


Subject Code Subject Name : BASIC MECHANICAL

& CIVIL ENGINEERING

Ty/Lb/ ETL

L T/SLr P/R C

BES 20002/

BES 18002




OBJECTIVES

To understand the fundamentals and applications of IC Engines, power plants, manufacturing processes

and mechanics.

To expose the students to the various construction materials and their applications.


CO1 Understand the construction and working principles of steam generators, IC engines and power plants.

CO2 Apply the knowledge of various concepts of Manufacturing processes.

CO3 Solve simple problems on Engineering mechanics

CO4 Identify the appropriate materials and their properties, used for construction purpose

CO5 Apply the knowledge of construction for various structural applications.



CO1 3 1 1 1 1 2 2 3 3 3 3

CO2 3 2 1 1 1 2 2 2 2 2 2

CO3 3 3 2 1 1 1 2 2 2 2 2

CO4 3 2 2 1 1 1 3 1 2 2 2

CO5 3 2 2 1 1 1 3 2 2 2 2


CO1 3 2 1 1

CO2 3 2 1 1

CO3 3 2 1 1

CO4 3 2 1 1

CO5 3 2 1 1


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Subject Code :

BES 20002/

BES18002

Subject Name: BASIC MECHANICAL & CIVIL

ENGINEERING Ty/Lb/ETL L T/ SLr P/R C


UNIT ITHERMALENGINEERING 9

Classification of internal combustion engine – two stroke, four stroke petrol and diesel engines. Classification of Boilers –

Cochran boiler – Locomotive boilers – Power plant classification – Working of Thermal and Nuclear power plant.

UNIT IIMANUFACTURINGPROCESS 13

Metal forming processes – Rolling, forging, drawing, extrusion and sheet metal operations- fundamentals only. Metal

Joining processes – Welding - arc and gas welding, Soldering and Brazing. Casting process – Patterns - Moulding tools -

Types of moulding - Preparation of green sand mould -Operation of Cupola furnace.

Basics of metal cutting operations – Working of lathe- parts-Operations performed. Drilling machine – Classification –

Radial drilling machine - Twist drill nomenclature.

UNITIII MECHANICS 9

Stresses and Strains – Definition – Relationship – Elastic modulus – Centre of gravity – Moment of Inertia – Problems.

(Simple Problems Only).

UNITIV BUILDING MATERIALSANDCONSTRUCTION 7

Materials: Brick - Types of Bricks - Test on bricks - Cement – Types, Properties and uses of cement – Steel - Properties

and its uses – Ply wood and Plastics.

Construction: Mortar – Ingredients – Uses – Plastering - Types of mortar - Preparation – Uses – Concrete – Types –

Grades – Uses – Curing – Introduction to Building Components (foundation to roof) – Masonry – Types of masonry

(Bricks & Stones)

UNITV ROADS, RAILWAYS, BRIDGES& DAMS 7

Roads – Classification of roads – Components in roads – Railways -Components of permanent way and their function –

Bridges – Components of bridges – Dams – Purpose of dams – Types of dams.

Total No. of Periods: 45

TEXT BOOKS

S. Bhaskar, S. Sellappan, H.N.Sreekanth,, (2002), “Basic Engineering” –Hi-TechPublications

K. Venugopal, V. Prabhu Raja, (2013-14), “Basic Mechanical Engineering”, AnuradhaPublications.

K.V. Natarajan (2000), Basic Civil Engineering,DhanalakshmiPublishers

S.C. Sharma(2002),Basic Civil Engineering,Dhanpat RajPublications

REFERENCES

PR.SL. Somasundaram, (2002), “Basic Mechanical Engineering” –, VikasPublications.

S.C. Rangawala(2002), Building Material and Construction, S. ChandPublisher


Subject

Code

Subject Name : BASIC ENGINEERING

WORKSHOP

Ty/

Lb/

ETL

L T/SLr P/R C

BES 20L01

BES18L01

Prerequisite : None Lb 0 0/0 2/0 1



OBJECTIVES

Familiarize the plumbing tools, fittings, carpentry tools, etc.

Identify basic electrical wiring and measurement of electrical quantities.

Identify Electronic components,logic gates and soldering process

Display simple fabrication techniques

Execute a project independently and make a working model



CO1 Demonstrate fitting tools and carpentry tools, & Perform the process of Filing, Chipping, Cutting.

CO2 Perform the process of fabrication of tray, cones and funnels, Tee Halving Cross, Lap Joint Martise&

Joints

CO3 Demonstrate various types of wirings and other equipments.

CO4 Measure fundamental parameters using the electronic instruments



CO1 3 2 3 3 3 3

CO2 3 2 1 2 2 2 2 2

CO3 3 3 1 1 2 2 2 2

CO4 3 2 1 1 2 2 2


CO1 3 1

CO2 3 1 1

CO3 3 1 1 1

CO4 3 1 1 1


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Subject Code

: BES 20L01/

BES18L01

Subject Name: BASIC ENGINEERING WORKSHOP

Ty/Lb/ETL L T/ SLr P/R C


MEHANICAL ENGINEERING PRACTICE

1. FITTING:

Study of fitting tools and Equipments – Practicing, filing, chipping and cutting – making V-joints, half round joint, square

cutting and dovetail joints.

2. CARPENTRY:

Introduction – Types of wood – Tools – Carpentry processes – Joints – Planning practice – Tee Halving Joint – Cross Lap

Joint – Maritse and Tenon Joint – Dovetail Joint

3. SHEETMETAL:

Study of tools and equipments – Fabrication of tray, cones and funnels.

CIVIL ENGINEERING PRACTICE

1. Study of Surveying and itsequipments

2. Preparation of plumbing line sketches for water supply and sewagelines

3. Basic pipe connection using valves, laps, couplings, unions, reduces and elbows in house holdfittings

ELECTRICAL ENGINEERING PRACTICE

1. Measurement of electrical quantities – voltage, current, power & power factor in RLCcircuit.

2. Measurement of energy using single phase energymeter.

3. Measurement of resistance to earth of an electricalequipment.

4. Residential house wiring using switches, fuse, indicator, lamp and energymeter.

5. Fluorescent lampwiring.

6. Stair casewiring

ELECTRONIC ENGINEERING PRACTICE

1. Study of Electronic components and equipments – Resistor, colour coding measurement of AC signal parameter

(peak- peak, rms period, frequency) usingCRO

2. Soldering practice – Components Devices and Circuits – Using general purposeP



Subject Code

BES 20ET1/

BES18ET1

Subject Name ORIENTATION TO

ENTREPRENEURSHIP & PROJECT

LAB

Ty/

Lb/

ETL

L T/SLr P/R C

Prerequisite : None ETL 0 0/0 2/0 1

L : Lecture T : Tutorial SLr : Supervised Learning P: Practical R : Research C : Credits TY/LB/ETL:

Theory / Lab / Embedded Theory and Lab

OBJECTIVES

Understand how entrepreneurship Education transforms individuals into successful leaders.

Identify individual potential &S have career dreams

Understand difference between ideas & opportunities

Identify components & create action plan.

Use brainstorming in a group to generate ideas.



CO1 Develop a Business plan & improve ability to recognize business opportunity

CO2 Do a self-analysis to build an entrepreneurial career.

CO3 Articulate an effective elevator pitch.

CO4 Analyze the local market environment & demonstrate the ability to find an attractive market

CO5 Identify the required skills for entrepreneurship & develop



CO1 2 2 3 2 2 2 2 2 2 1

CO2 3 2 3 2 3 2 3 3 3 2 2

CO3 2 2 2 3 3 3 3

CO4 3 2 2 2 2 3 2 2 3

CO5 2 2 3 2 2 3 3 2 2 3 1


CO1 3 3 1

CO2 3 3 1

CO3 3 3 1

CO4 3 3 1

CO5 3 3 1


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Subject Code

BES 20ET1/

BES18ET1

Subject Name ORIENTATION TO

ENTREPRENEURSHIP & PROJECT

LAB

Ty/

Lb/

ETL

L T/SLr P/R C


UNITI CHARACTERISTICS OF A SUCCESSFUL ENTREPRENEUR

Introduction to entrepreneurship education – Myths about entrepreneurship – How has entrepreneurship changed the

country – Dream it. Do it - Idea planes - Some success stories – Global Legends – Identify your own heroes –

UNITII ENTREPRENEURIAL STYLE

Entrepreneurial styles – Introduction, concept & Different types - Barrier to Communication – Body language speaks

louder than words

UNITIII DESIGN THINKING

Introduction to Design thinking – Myth busters – Design thinking Process - Customer profiling – Wowing your customer

– Personal selling – concept & process – show & tell concept – Introduction to the concept of Elevator Pitch

UNITIV RISK MANAGEMENT

Introduction to risk taking & Resilience – Managing risks (Learning from failures, Myth Buster) – Understanding risks

through risk takers – Why do I do? – what do I do ?

UNIT VPROJECT

How to choose a topic – basic skill sets necessary to take up a project – creating a prototype – Pitch your project – Project

presentation.



SEMESTER - II


Subject Code Subject Name : MATHEMATICS-II Ty/Lb/ ETL

L T/SLr P/R C

BMA 20003/

BMA18003

Prerequisite : Mathematics I Ty 3 1/0 0/0 4



OBJECTIVES

Understand the Basic concepts in Integration

Identify the Basic concepts in Multiple integrals

Use the Basic concepts in Ordinary Differential equations

Apply the Basic concepts of Analytical Geometry

Analyze the Basic concepts of Vector Calculus



CO1 Demonstrate knowledge of Basic concepts of Mathematics science & Engineering mathematics

CO2 Calculate the required parameters using basic mathematical theorems, laws and formulae

CO3 Analyze the problem, find solution & interpret the data

CO4 Examine the relevant methods, tools and techniques to provide solutions

CO5 Combine scientific & math principles, apply to real time problems for accurate results



CO1 3 3 1 1 2 2 2 2 3

CO2 3 3 2 1 2 3 3 3 2

CO3 3 3 2 2 2 3 1 3 3 2

CO4 3 3 2 1 1 2 1 2 3 1 2

CO5 3 3 2 2 2 2 1 1 2 3 1 2


CO1 3 1 1

CO2 3 1 1

CO3 3 1 1 1

CO4 3 1 1 1

CO5 3 1 1 1


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Subject Code Subject Name : MATHEMATICS-II Ty/Lb/ ETL

L T/SLr P/R C

BMA 20003/

BMA18003

Prerequisite : Mathematics I Ty 3 1/0 0/0 4

1. INTEGRATION 12

Basic concepts of Integration – Methods of Integration– Integration by substitution – Integration by parts – Definite

integrals– Properties of definite integrals – Problems on finding Area and Volume using single integrals (simple

problems).

2. MULTIPLEINTEGRALS 12

Double integral in Cartesian and Polar Co-ordinates – Change of order of integration – Triple integral in Cartesian Co-

ordinates – Spherical Polar Co-ordinates – Change of variables (simple problems).

3. ORDINARY DIFFERENTIALEQUATIONS 12

First order differential equations – Second and higher order linear differential equations with constant coefficients and

with RHS of the form: eax

, xn, Sin ax, Cos ax, e

axf(x), x f(x) where f(x) is Sin bx or Cos bx – Differential equations with

variable coefficients (Euler‘s form) (simpleproblems).

4. THREE DIMENSIONALANALYTICALGEOMETRY 12

Direction Cosines and Ratios – Equation of a straight line – Angle between two lines – Equation of a plane – Co-

planar lines – Shortest distance between skew lines – Sphere – Tangent plane.

5. VECTORCALCULUS 12

Scalar and Vector functions – Differentiation – Gradient, Divergence and Curl – Directional derivatives – Irrotational

and Solenoidal fields– Line, Surface and Volume integrals – Green‘s, Stoke‘s and Gauss divergence theorems

(statement only) – Verification.

Total no. of Periods: 60

Textbooks

Kreyszig E., Advanced Engineering Mathematics (10th ed.), John Wiley & Sons,(2011).

Veerarajan T., Engineering Mathematics (for first year), Tata McGraw Hill Publishing Co.,(2008).

References

Grewal B.S., Higher Engineering Mathematics, Khanna Publishers,(2012).

John Bird, Basic Engineering Mathematics (5th ed.), Elsevier Ltd,(2010).

P.Kandasamy, K.Thilagavathy and K.Gunavathy,EngineeringMathematics Vol. I (4th Revised ed.), S.Chand&

Co., Publishers, New Delhi(2000).

John Bird, Higher Engineering Mathematics (5th ed.), Elsevier Ltd,(2006).



PHYSICS - II

Ty/Lb/

ETL

L T/SLr P/R C

BPH 20002/

BPH18002




OBJECTIVES

Design, conduct experiment and analyze data.

Develop a Scientific attitude at micro and nano scale of materials

Understand the concepts of Modern Physics

Apply the science of materials to Engineering & Technology



CO1 Demonstrate skills necessary for conducting research related to content knowledge and laboratory skills.

CO2 Apply knowledge and concepts in advanced materials and devices.

CO3 Acquired Analytical, Mathematical skills for solving engineering problems.

CO4 Ability to design and conduct experiments as well as function in a multi-disciplinary teams.

CO5 Generate analytical thought to interpret results & place them within a broader context



CO1 3 3 2 2 2 1 1 2 1

CO2 3 3 1 2 2 1 1 1 2 1

CO3 3 3 3 3 2 2 2 1 2 1 1

CO4 3 3 3 3 2 2 1 1 3 2 1 1

CO5 3 2 2 2 2 1 1 1 2 2 1 1


CO1 3 1 1

CO2 3 1 1 1

CO3 3 1 1 1

CO4 3 1 1 1

CO5 3 1 1


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PHYSICS - II

Ty/Lb/ ETL

L T/SLr P/R C

BPH 20002/

BPH18002


UNIT-IQUANTUM PHYSICS 9

Quantum free electron theory - deBroglie waves - derivation of deBroglie waves - Davisson and Germer experiment -

uncertainty principle - electron microscope - scanning electron microscope - physical significance of wave function -

Schrodinger wave equation and its applications - Fermi energy- effective mass - phonons - Fermi function-density of

states - origin of bandgap in solids - 1D scattering of electrons in periodicpotential.

UNIT-II SEMICONDUCTORS 9

Introduction - properties of semiconductors - classification of semiconductor - effect of temperature in semiconductor -

hole current - carrier concentration in intrinsic semiconductor (electron and hole density) - variation of Fermi energy level

and carrier concentration with temperature in an intrinsic semiconductor - carrier transport - diffusion - drift - mobility -

Hall effect - determination of Hall coefficient and its applications - diodes.

UNIT-III LIGHTSEMICONDUCTORINTERACTION 9

Types of electronic materials: metals, semiconductors and insulators - qualitative analysis of extrinsic semiconductor & its

applications - optical transition in bulk semiconductors: absorption, spontaneous and stimulated emission - exciton and its

types - traps and its types - colour centers and its types and importance - luminescence - classifications of luminescence

based on excitation - optical loss and gain - Photovoltaic effect - Photovoltaic potential - spectral response - solar energy

converters - solar cells.

UNIT-IV OPTOELECTRONIC DEVICES 9

Photodetectors - photoconductors - photodiodes principle, construction, working and characteristics -

Phototransistors - Laser diodes - LED theory, construction and working - seven segment display, advantages of LED -

LCD theory, construction andworking.

UNIT-VENGINEEREDMATERIALS 9

Classification of engineered materials - nano phase materials - its synthesis and properties - shape memory alloys and its

applications - biomaterials - non linear materials - metallic glasses - metamaterials - homo and hetero junction

semiconductors - semiconducting materials for optoelectronic devices - quantum wells, wires and dots.

Total No of Periods: 45

Text Books

1. P.K. Palanisamy, Semiconductor Physics and Optoelectronics, Scitech Publications,2010

2. Jyoti Prasad Bandyopadhyay, Semicoductor Devices, S. Chand Publications,2014

3. Charles Kittal, Introduction to Solid State Physics, Wiley Publications,2012

Reference Books

1. S. Shubhashree, S. Bharathi Devi & S. Chellammal Madhusudanan, Engineering Physics, Sree Lakshmi Publications,2004

2. G. Senthil Kumar, N. Iyandurai, & G. Vijayakumar, Material Science, VRB Publishers,2017

3. R.Murugeshan & Kiruthigasivaprakash, Modern Physics, 14th edition, S. Chand & Co, 2008.

4. Pallab Bhattacharya, Semiconductor optoelectronic devices, second edition,Pearson Education, 2003.

5. V Rajendran & A. Marikani, Materials Science, Tata McGraw- Hill, New Delhi,2004.



CHEMISTRY - II

Ty/Lb/ ETL

L T/SLr P/R C

BCH 20002/

BCH18002




OBJECTIVES

Imparting the basic concepts of phase rule and apply the same to one and two component systems.

Introducing the chemistry of engineering materials such as cement, lubricants,abrasives, refractories, alloys and

nano materials.

To impart a sound knowledge on the principles of chemistry involving different application-oriented topics

Introducing salient features of fuels and combustion.

To give an overview on modern analytical techniques



CO1 Recall, predict the consequences and apply appropriate techniques.

CO2 Categorize the engineering materials and analytical tools through appropriate communication.

CO3 Analyze the environmental dimension and identify ethical principles to design solutions.

CO4 Recognize the essential information for continuing professional development.

CO5 Apply relevant instrumentation techniques through basic sciences to solve complex problems.



CO1 3 3 3 3

CO2 3 3 3 3 3 3 3

CO3 3 3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 2


CO1 3 3 3

CO2 3 3 2

CO3 3 3 3

CO4 3 3 3

CO5 3 3 3


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CHEMISTRY - II

Ty/Lb/

ETL

L T/SLr P/R C

BCH 20002/

BCH18002


UNIT-IPHASEEQUILIBRIA 8

Introduction – Definition of terms involved in phase rule. Derivation of Gibbs phase rule – Applications to one

component system – water system. Binary system – Eutectic system – Pb – Ag system, Bi – Cd system .Thermal analysis

– Cooling curves.

UNIT-IIMATERIALCHEMISTRY 10

Cement – Manufacture, Chemistry of setting and hardening .Lubricants – Requirements of good lubricants, Mechanism,

Properties of lubricants, Classification – Examples. Abrasives–Classification –Moh‘s scale-Hard and soft abrasives,

Preparation of artificial abrasives (silicon carbide, boron carbide), Applications of abrasives. Refractories – Classification,

Properties-Refractoriness, RUL, Porosity, Thermal spalling Alloys Classification of alloys – Purpose of making alloys -

Ferrous and non-Ferrous alloys - Heat treatment Nano materials – properties, carbon nano tubes – properties, fabrication –

carbon arc method, laser vapourizationmethod.

UNIT-IIIAPPLIEDCHEMISTRY 9

Soaps and detergents : Soaps – Saponification of oils and fats, manufacture of soaps, classification of soap – soft soap,

medicated soap, herbal soap, shaving soap andcreams.

Detergents – Anionic detergents – manufacture and applications, Comparison of soaps and detergents.

Rocket propellants and explosives: Rocket propellants – characteristics, solid and liquid propellants – examples.

Explosives- Introduction, characteristics, classification, Oxygen balance , preparation, properties and uses of detonators,

low explosives and high explosives, Dynamites, Gun cotton, Cordite.

Food adulterants- Common adulterants in different foods – milk and milk products, vegetable oils, and fats, spices and

condiments, cereals, pulses, sweetening agents and beverages, Contamination with toxic chemicals – pesticides and

insecticides.

UNIT-IV FUELS&COMBUSTION 9

Introduction to Fuels – classification – Calorific value – GCV, LCV. Solid Fuels–Coal-Proximate Analysis, Metallurgical

Coke–Manufacture of Metallurgical Coke – Liquid Fuel–Refining of Petrol, Synthetic Petrol– Manufacturing Process–

Hydrogenation of Coal, Polymerization, Cracking–Knocking–Octane Number–Leaded Petrol (or) Anti–knocking –

Cetane Number–Ignition Lag–Gaseous fuels–CNG–LPG–Water Gas, Producer gas–Biogas- Combustion– Flue Gas

analysis– Orsat‘s method.

UNIT-V ANALYTICAL ANDCHARACTERIZATIONTECHNIQUES 9

Electron microscopes: Scanning electron microscope & Transmission electron microscope, instrumentation and

applications Absorption and Emission Spectrum - Beer - Lambert‘s law. Visible and UV Spectroscopy – instrumentation

– Block diagram - working. IR Spectroscopy – instrumentation - Block diagram – molecular vibrations – stretching and

bending – H2O, CO2. –Characterization of some important organic functional groups. Chromatographic techniques –

column, thin layer and paper.


Textbooks 1. C. S.Unnithan, T. Jayachandran& P. Udhayakala, ―Industrial Chemistry‖, Sreelakshmi Publications (2009).

2. Dr.R.Sivakumar and Dr.N.Sivakumar‖ Engineering Chemistry‖ Tata McGraw Hill Publishing Company Ltd,

3. Reprint 2013.

REFERENCES

1. P.C. Jain & Monika Jain, “Engineering Chemistry”, DhanpatRai publishing Co., (Ltd.)(2013).

2. B. R. Puri ,L.R. Sharma &M.S.Pathania, “Principles of Physical Chemistry”, Vishal publishing co., (2013)


Subject Code :

BES 20003/

Subject Name : ENVIRONMENTAL SCIENCE

(Non- Credit) Ty/Lb/ETL L T/ SLr P/

R

C

BES18003

Prerequisite : None Ty

UNIT I ENVIRONMENT AND ECOSYSTEM

Definition, Scope and Importance of environment – need for public awareness – concept, structure and function of an

ecosystem - producers, consumers and decomposers – energy flow in the ecosystem. Biodiversity at national and local

levels – India

UNIT II ENVIRONMENT POLLUTION

Definition – causes, effects and control measures of: (a) Air pollution (b) Water pollution (c) Soil pollution (d) Marine

pollution (e) Noise pollution (f) Nuclear hazards (g) E-Wastes and causes, effects and control measures

UNIT III NATURAL RESOURCES

Forest resources: Use and over-exploitation, deforestation. Water resources: Use and over-utilization of surface and

ground water, floods, drought, conflicts over water, dams-benefits and problems. Food resources: World food problems,

changes caused by agriculture and overgrazing, effects of modern agriculture, fertilizer-pesticide problems.

UNIT IV SOCIAL ISSUES AND THE ENVIRONMENT

From unsustainable to sustainable development – urban problems related to energy – water conservation, rain water

harvesting, watershed management – resettlement and rehabilitation of people; its problems and concerns climate

change, global warming, acid rain, ozone layer depletion, nuclear accidents ,central and state pollution control boards-

Public awareness.

UNIT V HUMAN POPULATION AND THE ENVIRONMENT

Population growth, variation among nations – population explosion, environment and human health – human rights –

value education – HIV/AIDS – women and child welfare – role of information technology in environment and human

health

Text Books

1. Gilbert M.Masters, ‗Introduction to Environmental Engineering and Science‘, 2nd edition, Pearson

Education(2004).

2. Benny Joseph, ‗Environmental Science and Engineering‘, Tata McGrawHill,NewDelhi,(2006).

REFERENCES

1. Vairamani, S. and Dr. K. Sankaran. Elements of Environmental and Health Science. Karaikudi: KPSV

Publications, 5th Edition, July, 2013.

2. Ifthikarudeen, Etal, Environmental Studies, SoorajPublications,2005.

3. R.Murugesan, Environmental Studies, Millennium Publishers and Distributors, 2nd Edition, July,2009.


Subject Code Subject Name : COMMUNICATION LAB Ty/Lb/

ETL

L T/SLr P/R C

BEN 20ET1/

BEN18ET1




OBJECTIVES

Strengthen the academic and interpersonal advanced vocabulary

Strengthen learners‘ writing skill such as summarizing, describing and report writing

Learn to keep the simple conversations in day to day life

Get to know certain life skills such as marketing, advertising and do presentation

Improve the reading skill with comprehension


CO1 Use appropriate vocabulary and structure for effective interpersonal and academic communication

CO2 Interpret charts, diagrams, advertisements, etc.

CO3 Participate in group discussions and present projects effectively

CO4 Present project and ideas effectively

CO5 Attend interviews



CO1 3 3 3 3

CO2 3 2 3 3 3 3 2 3

CO3 3 3 3 3 3 3 3 3 3 3

CO4 2 3 3 3 3 3 3 3

CO5 2 3 3 3 3 3 3


CO1 3

CO2 3 1 1 1

CO3 3 1 1 1

CO4 3 1 1 1

CO5 3 1


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Subject Code Subject Name : COMMUNICATION LAB Ty/Lb/ ETL

L T/SLr P/R C

BEN 20ET1/

BEN18ET1


UNIT I 6

Listening and Speaking- Informal and Formal Contexts

UNIT II 6

Compeering -Anchoring -Group Discussion

UNIT III

Poster Presentation -Welcome Speech -Vote of Thanks

6

UNIT IV

Formal Presentation -Power point presentation of charts/ Diagrams

8

UNIT V 4

Facing an Interview- Mock Interview

Total No.of Periods: 30

SUGGESTED READINGS:

Practical English Usage. Michael Swan. OUP.1995.

Remedial English Grammar. F.T. Wood. Macmillan.2007 (On Writing Well. William Zinsser. Harper

Resource Book.2001

Study Writing. Liz Hamp-Lyons and Ben Heasly. Cambridge University Press.2006.

Communication Skills. Sanjay Kumar and Pushp Lata. Oxford University Press.2011.

Exercises in Spoken English. Parts. I-III. CIEFL, Hyderabad. Oxford UniversityPress

Pronunciation in Use ,Mark Hancock. Cambridge University Press. 2012


Subject Code Subject Name : BASIC ENGINEERING

GRAPHICS

Ty/Lb/

ETL

L T/SLr P/R C

BES 20ET2/

BES18ET2




OBJECTIVES

To acquire knowledge in geometrical drawing.

To expose the students in computer aided drafting.


CO1 Gain knowledge on Drawing Standards and angle of projection.

CO2 Draw projections of planes, solid, on planes of projection.

CO3 Apply the knowledge of development to find lateral surface area of solids.

CO4 Visualize and draw Isometric and orthographic projections.

CO5 Apply the knowledge of projection in Building drawing

CO6 Learn and draw simple components using CAD software.



CO1 3 3 3 3 2 2 3 3 1 3

CO2 3 3 3 3 2 2 3 3 1 3

CO3 3 3 3 1 2 2 2 2 1 2

CO4 3 3 2 2 2 3 1 2 3 3 1 3

CO5 3 3 3 2 3 1 2 2 3 3 1 3

CO6 3 3 3 1 3 2 1 2 2 1 3


CO1 3 2

CO2 3 2 1 1

CO3 3 2 1

CO4 3 2 1 1

CO5 3 2 1

CO6 3 2 1 1


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Subject Code Subject Name : BASIC ENGINEERING

GRAPHICS

Ty/Lb/

ETL

L T/SLr P/R C

BES 20ET2/

BES18ET2


CONCEPTS AND CONVENTIONS (Notforexamination)

Introduction to drawing, importance and areas of applications – BIS standards – IS: 10711 – 2001 : Technical products

Documentation – Size and layout of drawing sheets – IS 9606 – 2001: Technical products Documentation – Lettering – IS

10714 & SP 46 – 2003: Dimensioning of Technical Drawings– IS : 15021 – 2001 : Technical drawings – Projections

Methods – drawing Instruments, Lettering Practice – Line types and dimensioning – Border lines, lines title blocks

Construction of polygons – conic sections – Ellipse, Parabola, Hyperbola and cyloids.

UNIT I PROJECTION OF POINTS, LINES AND PLANESURFACES 6

Projection of points and straight lines located in the first quadrant – Determination of true lengths and true inclinations –

projection of polygonal surface and circular lamina in simple position only.

UNIT II PROJECTION OFSOLIDS 6

Projection of simple solids like prism, pyramid, cylinder and cone in simple position

Sectioning of above solids in simple vertical position by cutting plane inclined to one reference plane and perpendicular to

the other.

UNIT III DEVELOPMMENT OF SURFACES ANDISOMETRICPR 6

Development of lateral surfaces of simple and truncated solids – prisms, pyramids, cylinders, and cones.Principles of

isometric projection – isometric scale – isometric projections of simple solids, like prisms pyramids, cylinders and cones.

UNITIV ORTHOGRAPHICS PROJECTIONS 6

Orthographic projection of simple machine parts – missing views

BUILDING DRAWING

Building components – front, Top and sectional view of a security shed.

UNIT V COMPUTERAIDED DRAFTING 6

Introduction to CAD – Advantages of CAD – Practice of basic commands – Creation of simple components drawing

using CAD software.


Note: First angle projection to be followed.

TEXT BOOKS

1. Bhatt, N.D. and Panchal, V.M. (2014) Engineering Drawing Charotar PublishingHouse

2. Gopalakrishnan, K.R. (2014) Engineering Drawing (Vol.I& II Combined) Subhas Stores,Bangalore.


Subject Code Subject Name : INTEGRATED

PHYSICAL SCIENCE LAB

Ty/Lb/

ETL

L T/SLr P/R C

BES 20L02/

BES18L02




OBJECTIVES

• Demonstrate the ability to make physical measurements & understand the limits of precision in

measurements.

• Display the ability to measure properties of variety of mechanical, optical, electrical and

electronic systems.

• To help learners measure conductivity and EMF using electrical equipment.

• To understandthe analytical skills through chromatography &viscometry

• To familiarize the concepts of chem. Informatics


CO1 Recognize the correctness and precision in the results of measurements.

CO2 Construct and compare the properties of variety of mechanical, optical, electrical and electronic

systems.

CO3 Familiarizing the titration methods using conductometry&potentiometry

CO4 Developing the Research spirit through the knowledge of Cheminformatics & Analytical skills.



CO1 3 3 1 3 3 1 1 1 2 1

CO2 3 3 2 3 3 2 1 1 2 1 1

CO3 3 3 2 3 3 3

CO4 3 3 3 3 3 2 2 3 3 2


CO1 3 1 1 1

CO2 3 1 1 1

CO3 3

CO4 3 1


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Subject Code

: BES 20L02/

BES18L02

Subject Name : INTEGRATED PHYSICAL SCIENCE

LAB

Ty/Lb/ET

L L T/ SLr P/R C


LIST OF EXPERIMENTS

1. Determination of Coefficient of Viscosity of a given liquid by Poiseuille`smethod.

2. Particle Size determination using LaserSource.

3. Determination of Numerical Aperture of an Optical Fiber.

4. Spectrometer- Refractive Index/Dispersive power/i-dcurve.

5. Potentiometer - Resistance of awire.

6. Transistor Characteristics - Input Resistance, Output Resistance and Gain.

7. Studies on acid-base conductometrictitration.

8. Determination of redox potentials usingpotentiometry.

9. Determination of Rf values of various components using thin layerchromatography.

10. Viscosity studies using Digital capillaryviscometer.

11. Compute the structures of the given polymers, drugs, bio molecules using ChemDraw.

12. Studies on potential energy surface of the givenmolecules.

13. Estimate NMR spectra from a Chem Drawstructure.



Subject Code Subject Name : C PROGRAMMING &

LAB

Ty/Lb/

ETL

L T/SLr P/R C

BES20ET3/

BES18ET3



TY/LB/ETL: Theory / Lab / Embedded Theory and Lab

OBJECTIVES

• Outline the basics of C Language.

• Apply fundamentals in C programming.

• Produce and present activities associated with the course.



CO1 Understand the concepts of C programming

CO2 Develop C Programs using basic programming constructs

CO3 Create Programs with arrays, structures, functions, pointers and file handling

CO4 Write diversified solutions for application using C language



CO1 3 3 3 2 2 2 1 3 3 1 3

CO2 3 3 3 2 2 2 1 3 3 1 3

CO3 3 3 3 1 1 2 1 2 2 1 2

CO4 3 3 2 2 1 3 1 2 3 3 1 3


CO1 3 1 1

CO2 3 1 1 1

CO3 3 1 1 1

CO4 3 2 1 1


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Subject Code Subject Name : C PROGRAMMING &

LAB

Ty/Lb/

ETL

L T/SLr P/R C

BES20ET3/

BES18ET3


UNITI INTRODUCTION 6

Fundamentals, C Character set, Identifiers and Keywords, Data Types, Variables and Constants, Structure of a C Program,

Executing a C Program.

UNITII EXPRESSION AND STATEMENT 6

Operators, Types-Complex and Imaginary, Looping Statement-For, While, Do, Break, continue, Decision Statement-If, If

else, Nested if, Switching Statement, Conditional Operator.

UNITIII ARRAYS ANDFUNCTIONS 6

Defining an Array, Using Array elements as counters, Generate Fibonacci number, Generate Prime Numbers, Initializing

Arrays, Multidimensional Arrays, Defining a Function, Function call -types of Function calls - Function pass by value -

Function pass by reference, Write a Program in Recursive Function.

UNITIV STRUCTURES AND POINTERS 6

Working with Structures -Introduction -Syntax of structures -Declaration and initialization -Declaration of structure

variable -Accessing structure variables, Understanding Pointers -Introduction -Syntax of Pointer.

UNITV STRINGS ANDFILE HANDLING 6

Strings -Syntax for declaring a string -Syntax for initializing a string -To read a string from keyboard, Files in C -File

handling functions -Opening a File closing a file --example: fopen, fclose -Reading data from a File- Problem solving in C


1. www.spoken-tutorials.org

2. http://www.learn-c.org/

REFERENCE :

1. Stephen G. Kochen― Programming in C- A complete introduction to the C Programming Language. Third

Edition, Sams Publishing-2004

2. Ajay Mital, ― Programming in C: A Practical Approach‖, PearsonPublication-2010

http://www.spoken-tutorials.org/

http://www.learn-c.org/


LIST OF PROGRAMS

1. Write a program to check 'a' is greater than 'b' or less than 'b' Hint: use ifstatement.

2. Write another program to check which value is greater 'a', 'b' or 'c'. Hint: use else-if statement. (Take values of a,

b, c as userinputs)

3. Write a Program to find the sum of the series : x + X3/3!+X

5/5!+… .............. X

n/n!

4. Write a C Program to solve a Quadratic Equation by taking input fromKeyboard

5. Write a C Program to arrange 20 numbers in ascending and descending Order. Input the Numbers fromKeyboard

6. Write a C Program to Multiply a 3 x 3 Matrix with input of members fromKeyboard

7. Write a program that takes marks of three students as input. Compare the marks to see which student has scored

the highest. Check also if two or more students have scored equalmarks.

8. Write a program to display records of an employee. Like name, address, designation,salary.

9. Write a C program, declare a variable and a pointer. Store the address of the variable in the pointer. Print the

value of thepointer.

10. Write a C program to concatenate String 'best' and String 'bus'. Hint: strcat(char str1, charstr2);

11. Explore the other functions in stringlibrary.

12. Write a program to create a file TEST. Write your name and address in the file TEST. Then display it onthe

console using Cprogram.


SEMESTER - III


Subject Code:

BMA20051

Subject Name :

MATHEMATICS III FOR AERONAUTICAL

ENGINEERS

Ty/Lb/ETL L

T/

SLr

P/R

C

Prerequisite: Mathematics I & II Ty 3 1/0 0/0 4


Ty/L/bETL : Theory / Lab / Embedded Theory and Lab

OBJECTIVES: The student will learn

Partial Differential equations, fourier series and its applications and also the numerical methods related to aeronautics

COURSE OUTCOMES (COs) : The Students will be able

CO1 Understand the Basic concepts in Partial Differential equations and Fourier Series.

CO2 Apply and evaluate Fourier series in Heat Equations

CO3 Aapply and evaluate Fourier series in Wave Equations

CO4 Understand and apply different methods of numerical interpolatios

CO5 Understand and apply different methods of numerical differentiation and integration

Mapping of Course Outcomes with Program Outcomes (POs)

COs/POs PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12

CO1 3 3 2 2 1 2 2

CO2 3 3 2 2 1 2 2

CO3 3 3 2 2 1 2 2

CO4 3 3 2 2 2 2 2

CO5 3 3 2 2 2 2 2

COs / PSOs PSO1 PSO2 PSO3 PSO4

CO1 3 2

CO2 3 2

CO3 3 2

CO4 3 2

CO5 3 2

H/M/L indicates Strength of Correlation H- High, M- Medium, L-Low

C

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Subject Code:

BMA20051

Subject Name : MATHEMATICS III FOR

AERONAUTICAL ENGINEERS Ty/Lb/ETL L

T/

SLr P/R C

Prerequisite: Mathematics I & II Ty 3 1/0 0/0 4

UNIT- I: PARTIALDIFFERENTIALEQUATIONS 12

Formation of PDE by eliminating arbitrary constants and eliminating arbitrary functions – Solutions of standard types of

first order equations – Lagrange‘s equation – Linear partial differential equations of second and higher order with constant

coefficients.

UNIT- II:FOURIERSERIES 12

Dirichlet‘s conditions – General Fourier series – Half range Sine & Cosine series – Complex form of Fourier series –

Parseval‘s identity – Harmonic Analysis.

UNIT- III: APPLICATIONS OF PARTIALDIFFERENTIALEQUATIONS 12

Classification of second order linear partial differential equations – Solutions of one dimensional wave equation, one-

dimensional heat equation – Steady state solution of two dimensional heat equations (Cartesian coordinates only) –

Fourier series solutions.

UNIT IV: INTERPOLATION 12

Newton forward and backward differences – Central differences – Stirling‘s and Bessel‘s formulae – Interpolation with

Newton‘s divided differences – Lagrange‘s method.

UNIT V: NUMERICAL DIFFERENTIATION AND INTEGRATION 12

Numerical Differentiation with interpolation polynomials – Numerical Integration by Trapezoidal and Simpson‘s (both

1/3rd

& 3/8th

) rules – Two and three point Gaussian Quadrature formulae – Double integrals using Trapezoidal and

Simpson‘s rules

Total No.of Periods:60

TEXT BOOKS

1. Veerarajan T. (2007), Engineering Mathematics (for first year), Tata McGrawHillPublishingCo.,

2. Veerarajan T. (2005), Engineering Mathematics (for semester III), Tata McGraw Hill PublishingCo.,

3. Veerarajan T. (2005), “Numerical Methods”, Tata McGraw Hill Publishing Co

REFERENCES

1. Singaravelu (2009), Transforms and Partial Differential Equations, MeenakshiAgency.

2.Kreyszig E. (2011), Advanced Engineering Mathematics (9th ed.), John Wiley &Sons.

3.Grewal B.S. (2012), Higher Engineering Mathematics, KhannaPublishers.

4.Sastry S.S. (2003), “Introductory Methods of Numerical Analysis”, Prentice Hall of India.

5.Kandasamy P., Thilagavathy, Gunavathy K. (2008), “Numerical Methods” (Vol.IV), S.Chand & Co.,

6.Grewal B.S. (2012), “Higher Engineering Mathematics”, Khanna Publishers


Subject Code:

BAE 20001

Subject Name :AERO ENGINEERING

THERMODYNAMICS Ty/Lb/ETL L

T/S

Lr P/R C

Prerequisite: Engineering Physics Ty 3 1/0 0/0 4

L : Lecture T : Tutorial S.Lr : Supervised Learning P : Practical R : Research C: Credits Ty/Lb/ETL : Theory/Lab/Embedded Theory and Lab


The fundamentals of thermodynamics and thermodynamic relations.

The basic concepts of working fluids

Different thermodynamic cycles

The fundamental concepts of combustions

COURSE OUTCOMES (COs) : The students will be able to

CO1 Fundamentals concepts and First laws of thermodynamics (Level 2)

CO2 Second law of thermodynamics and its application (Level 3)

CO3 The basic concepts of working fluids (Level 2)

CO4 Various power cycles and Jet propulsion (Level 4)

CO5 Fundamental concepts of combustions (Level 2)

Mapping of Course with Program Outcomes (Pos)

Cos/Pos PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12

CO1 3 3 3 2 2 1 2 1 1 2 1 2

CO2 3 3 3 2 1 2 2 2 1 2 2 2

CO3 3 2 2 2 1 1 1 1 1 2 1 2

CO4 3 3 3 3 2 2 2 2 2 2 2 2

CO5 3 2 3 2 1 2 2 2 1 2 1 2

Cos / PSOs PSO1 PSO2 PSO3 PSO4

CO1 3 3 2 2

CO2 3 3 2 2

CO3 3 3 2 2

CO4 3 3 3 2

CO5 3 3 2 2

3/2/1 indicates Strength of Correlation 3- High, 2- Medium, 1-Low

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Subject Code:

BAE 20001

Subject Name : AERO ENGINEERING

THERMODYNAMICS

Ty/Lb/ET

L L T/SLr P/R C

Prerequisite: EngineeringPhysics Ty 3 1/0 0/0 4

UNIT- I: BASIC CONCEPTS AND FIRST LAWOFTHERMODYNAMICS 12

Thermodynamics systems, Concepts of continuum, Thermodynamic properties, Equilibrium, Process, Cycle,

Work, Heat, Temperature, and Zeroth law of thermo dynamics. First law of thermodynamics– Applications to

closed and open systems, Internal energy, Specific heats, Enthalpy, Steady flow conditions.

UNIT- II: SECOND LAWOFTHERMODYNAMICS 12

Statements, Reversibility, Causes of irreversibility, Carnot cycle, Reversed Carnot cycle, Heat engines,

Refrigerators, Heat pumps. Clausius inequality, Concept of Entropy, Principles of increase of entropy, Carnot

theorem, Available energy, Availability, Introduction to exergy.

UNIT- III: WORKINGFLUIDS 12

Properties of ideal and real gases, Equation of state, Gas laws. Vanderwaal‘s equation of state, Compressibility. Daltons

law of partial pressures, gravimetric and volumetric analysis, mole-fractions and volume fractions, Internal Energy,

Enthalpy and Specific Heats of Gas Mixtures, Entropy of Gas Mixtures.

UNIT- IV:POWERCYCLES 12

Gas power cycles, Analysis of reciprocating cycles – Carnot cycles, Otto cycles, Diesel cycles, Dual cycles, Gas

power cycles for open systems - Brayton Cycles, improvement of cycle efficiency and work output, stagnation

plane, Jet propulsion-Intake and propelling nozzle efficiencies, turbofan .

UNIT- V: INTRODUCTION TO COMBUSTION 12

Aircraft Propulsion, Combustion-Complete combustion, incomplete combustion, Stoichiometric Air-fuel ratio,

First Law for a system applied to combustion, formation and combustion. Enthalpy of Formation, Adiabatic

Flame Temperature, Calorific value.

Total No. of Periods : 60

Note: Standard and approved Steam Table, Mollier Chart are permitted in examination.

TEXT BOOKS

P.K.Nag, (2014) “Engineering Thermodynamics” (Fifth Edition), Tata McGraw Hill Education Publishing Company Ltd.,

NewDelhi.

YunusA.Cengel, (2014) “Thermodynamics-An Engineering. Approach”, Tata McGraw Hill Education, 8th edition.

REFERENCES

Spalding & Cole, (1973) “Engineering Thermodynamics”, ELBS, 6thedition.

J.P.Holman, (2011) “Thermodynamics”, McGraw Hill 109095, 10thedition,

Van Wylen& Sonntag, (1998) “Fundamentals of Classical Thermodynamics”, Wiley Eastern, 5thEdition.

Rogers & Mathew, (1992) “Engineering Thermodynamics”, Adison Wesley 1090909, 4thedition.

Michael Saad, (1966) “Thermodynamics”, Prentice Hall109097.


Subject Code:

BAE 20002

Subject Name : ENGINEERING MECHANICS Ty/Lb/E

TL

L T/

SLr

P/R C


L : Lecture T : Tutorial SLr : Supervised Learning P : Practical R : Research C: Credits

Ty/Lb/ETL : Theory/Lab/Embedded Theory and Lab

OBJECTIVE: The purpose of study is to understand and apply the basic principles of statics and dynamics of particles

and rigid bodies.

COURSE OUTCOMES (COs): The student will be able to

CO1 Understanding the fundamentals of Statics and Dynamics of particles and rigid bodies.(Level 2)

CO2 Solve the problems on first and second moment of area of surfaces and solids. (Level 3)

CO3 Apply the knowledge of friction in solving real time problems such as screw and ladder.(Level 3)

CO4 Demonstrate the laws of motion on linear, curvi-linear and projectile motion of particles and rigid

bodies. (Level 3)

CO5 Differentiate the applications of dynamics on particles and rigid bodies. (Level 4)



CO1 3 3 3 2 1 - - - 2 2 2 2

CO2 3 3 3 2 1 - - - 2 2 2 2

CO3 3 3 3 3 1 - - - 2 2 2 2

CO4 3 3 2 3 1 - - - 2 2 2 2

CO5 3 3 3 2 1 - - - 2 2 2 2


CO1 3 1 2 -

CO2 3 1 2 -

CO3 3 1 2 -

CO4 3 1 2 -

CO5 3 1 2 -


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Subject Code:

BAE20002

Subject Name : ENGINEERING MECHANICS Ty/Lb/

ETL

L T/

SLr

P/R C


UNIT- I:STATICS 9

STATICS OF PARTICLE: Introduction – units and Dimensions – Laws of mechanics – concurrent forces in

a plane-resolution and Composition of forces – equilibrium of the particle-resultant force.

STATICS OF RIGID BODY : Free body diagram – Types of supports and their reactions – Moments and

Couples – Moment of a force about a point and about an axis – Varignon‘s theorem – equilibrium of Rigid

bodies in two dimensions –Equilibrium of Rigid bodies in three dimensions.

UNIT- II: PROPERTIES OF SURFACE AND SOLIDS 9

Determination of Area and volume – Determination and derivation of First moment of area(Centroid),

Second moment of area(Moment of Inertia) of Regular as well as irregular geometrical area – Centroid of

line elements. Mass moment of inertia and polar moment of inertia.

UNIT- III:FRICTION 9

Introduction – Laws of Dry Friction – Coefficient of friction – friction of a body lying on an inclined plane.

Application of friction-Ladder friction-Wedge friction-Screw friction.

UNIT- IV: DYNAMICS OF PARTICLES 9

KINEMATICS: Displacement, Velocity-Constant and variable. Acceleration, their relationship – linear and

curvilinear motion- Projectile motion, relative motion.

KINETICS: Linear and Curvilinear motion-Work-Energy method, Impulse and Momentum, Impact-

collision of Elastic bodies. Newton‘s law-D‘Alemberts principle.

UNIT- V: DYNAMICS OF RIGID BODIES 9

KINEMATICS: Introduction-Rotation-Linear and Angular Velocity as well as acceleration. General plane

motion-Absolute and Relative velocity in plane motion. Instantaneous centre of Rotation in plane motion-

Location.

KINETICS: Relation between Translatory and Rotary motion of the body-Work energy equation of particles

– D‘Alemberts principle.


TEXT BOOKS

1) R.S.Khurmi. (2008), ―A Textbook of Engineering Mechanics”, S.Chand & coLtd.

2) S.Rajasekaran et.al. (2009), ―Fundamentals of Engineering Mechanics”,Vikas Publishing House Pvt

Ltd., 3rd Edition.

REFERENCES

1) Arthur.P.Boresi,Richard.J.Schmidt, “Engineering Mechanics : Statics &Dynamics”,

Thomson Brooks/Cole,Chennai.

2) Palanichamy M.S, Nagan.S, (2001), “Engineering Mechanics – Statics and Dynamics” Tata Mc GrawHill.

3) Beer & Johnson et.al, (2010) “Vector Mechanics for Engineers (Statics and Dynamics)”, Tata Mc

Graw Hill.


Subject Code:

BAE 20003/

BME18006

Subject Name : STRENGTH OF MATERIALS Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering Mechanics Ty 3 0/0 0/0 3



OBJECTIVE: The student will learn

Basic principles of stress, strain and elastic constants

To draw shear force and bending moment diagrams

to find deflection of beams

COURSE OUTCOMES (COs) : The student will be able to

CO1 Understand the concepts of mechanics of solids (Level 2)

CO2 Analyze the stresses involved due to different types of loading (Level 4)

CO3 Apply the different theories of mechanics (Level 3)

CO4 Derive the expression for deflection and bending moment (Level 4)

CO5 Use mathematical approach to analyze the stresses involved (Level 4)



CO1 3 3 3 2 3 2 2 2 3 3 2 2

CO2 3 3 3 2 3 2 2 2 3 3 2 2

CO3 3 3 3 2 3 2 2 2 3 3 2 2

CO4 3 3 3 2 3 2 2 2 3 3 2 2

CO5 3 3 3 2 3 2 2 2 3 3 2 2


CO1 3 3 2 2

CO2 3 3 2 2

CO3 3 3 2 2

CO4 3 3 2 2

CO5 3 3 2 2


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Subject Code: Subject Name : STRENGTH OF MATERIALS Ty/Lb/ L T/ P/R C

BAE 20003/ ETL SLr

BME18006 Prerequisite: Engineering Mechanics Ty 3 0/0 0/0 3

UNIT- I: STRESS, STRAIN AND DEFORMATION OF SOLIDS 9

Rigid and Deformable bodies – Strength, Stiffness and Stability – Stresses; Tensile, Compressive and Shear –

Deformation of simple and compound bars under axial load – Thermal stress – Elastic constants and their

relationship – strain energy due to axial load – stress due to suddenly applied load and impact load.

UNIT- II: BEAMS – LOADS AND STRESSES 9

Types of beams: Supports and Loads – Shear force and Bending Moment in beams – Cantilever, Simply

supported beams and Overhanging beams Stresses in beams – Theory of simple bending – Stress variation along

the length and in the beam section – Effect of shape of beam section on stress induced – Shear stress distribution

in beams of different sections.

UNIT- III: TORSION OF SHAFTS AND SPRINGS 9

Theory of pure torsion- Torsion of circular and hollow shafts –Stepped shafts – Composite shaft – Stress due to

combined bending and torsion. Type of springs - Stiffness- Springs in series-Springs in parallel - Stresses and

deflections in helical springs and leaf springs – Design of helical springs- design of buffer Springs - leaf springs.

UNIT- IV: DEFLECTION OF BEAMS 9

Double integration method- Macaulay‘s Method- Area Moment Theorems for Computations of slope and

deflection in Beams. Columns – End conditions – Equivalent length of a column – Euler equation – Slenderness

ratio – Rankine formula for columns.

UNIT- V: ANALYSIS OF STRESSES INTWO DIMENSIONS 9

Biaxial state of stresses – Thin cylindrical and spherical shells – Deformation in thin cylindrical and spherical

shells – Biaxial stresses at a point-Stress as Tension. Stresses on inclined plane – Principal planes and Principal

stresses – Mohr‘s circle for biaxial stresses – Maximum shear stress - Strain energy and Strain Energy Density.


TEXT BOOKS

1. Rajput R.K. "Strength of Materials (Mechanics of Solids)", S.Chand& company Ltd., New

Delhi, 2010.

2. S.Ramamruthum and R. Narayan, “Strength of Materials”, Dhanpat Rai &Sons,

REFERENCES:

1. Beer F. P. and Johnston R, (2002) “Mechanics of Materials”, McGraw-Hill Book Co, ThirdEdition

2. Egor P. Popov, “Engineering Mechanics of Solids”, Prentice Hall of India, NewDelhi.


Subject Code:

BCE 20I01

Subject Name : FLUID MECHANICS Ty/Lb/

ETL

L T/

SLr

P/R C


L : Lecture T : Tutorial S Lr : Supervised Learning P : Practical R : Research C: Credits

TY/LB/ETL: Theory/Lab/Embedded Theory and Lab

OBJECTIVE:The students will learn

The basic properties of fluids and their applications associated with aerodynamics.

Flow behaviour in various sections with basic equations

Working principles of hydraulic turbines

COURSE OUTCOMES (COs) :The students will be able to

CO1 Understand the various properties of fluids.(Level 2)

CO2 Apply the basic concepts of fluid flow behaviour in various sections and solve simple problems..(Level

3)

CO3 Analyse the behaviours of fluid flow through circular conduits..(Level 4)

CO4 Acquire the knowledge of construction ,working principles and performance of hydraulic

turbines(Level 4)

CO5 Apply the mass, momentum and subsonic equations in aerodynamic applications (Level 3)



CO1 3 1 2 2 2 2 2 1 2 2

CO2 3 3 3 3 2 2 2 1 3 2

CO3 3 3 2 2 2 2 2 1 3 2

CO4 3 2 3 2 2 2 2 1 2 2

CO5 3 2 3 2 2 2 2 1 3 2


CO1 3 3

CO2 3 3

CO3 3 3

CO4 3 3

CO5 3 3

3/2/1 indicates Strength of Correlation: 3- High, 2- Medium, 1-Low

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Subject Code:

BCE 20I01

Subject Name : FLUID MECHANICS Ty/Lb/

ETL

L T/

SLr

P/R C


UNIT- I: PROPERTIES OF FLUIDS 7

UNIT-s & Dimensions, Properties of fluids – density, specific Gravity, specific weight, viscosity.

Surface tension and Capillarity, Compressibility & Bulk modulus, Vapour pressure, Measurement of

pressure- Manometers, Mechanical gauges.

UNIT- II: FLUID FLOW CONCEPTS AND BASIC EQUATIONS 8

Flow Characteristics, Concepts of System and Control Volume, Continuity, Energy equation- Euler equation-

Bernoulli equation, Impulse momentum equation-applications.

UNIT- III: FLOW THROUGH CIRCULAR CONDUITS 8

Laminar flow through circular tubes – Boundary layer thickness -Darcy equation on pipe roughness – Friction factor

– Minor losses – Flow through pipes in series and in parallel, Equivalent pipes.

UNIT- IV:HYDRAULIC TURBINES 10

Impact of free jets-work done and efficiency calculation, Classification of hydraulic turbines, Elementary

working principles of Pelton, Francis, Kaplan turbine, Work done, Governing of turbines, Draft tube,

Specific Speed.

UNIT- V:FLUID MECHANICS RELATED TO AERODYNAMICS 12

System and Control volume approach, substantial, local and convective derivative, Continuity, momentum and energy

equations, Inviscid flow, Euler equation, incompressible Bernoulli‘s Equation. Circulation and Vorticity, Green‘s Lemma

and Stoke‘s Theorem, Barotropic Flow, Kelvin‘s theorem, Streamline, Stream Function, Irrotational flow, Potent ial

Function, Equipotential Lines, Elementary Flows and their combinations.


TEXT BOOKS

1) Bansal S.K. (2012) “Fluid Mechanics and Hydraulic Machines”, Laxmi Publications (P) Ltd., NewDelhi.

2)R.K.Rajput. (1998) “Fluid Mechanics and Hydraulic Machines”, S.Chand& Company Ltd., NewDelhi.

REFERENCES

1)L.Kumar. (2002), “Engineering Fluid Mechanics”, Eurasia Publishing House (P) Ltd., NewDelhi.

2)Roberson J.A. & Crowe C.T. (2001), “Engineering Fluid Mechanics”, M/s Jaico Publishing Co., 9th

edition

3)Streeter V.L. and Wylie E.B. (1983), “Fluid Mechanics”, McGrawHill.

4)Ramamirtham S. (1988), “Fluid Mechanics, Hydraulics and Fluid Machines”, Dhanpat Rai & Sons,Delhi.

5)Yunus.A.Cengel, Robert H.Turner., “Thermal-Fluid Sciences”, Tata McGrawHill.


Subject

Code:

BAE20004

Subject Name :

ELEMENTS OF AERONAUTICAL ENGINEERING Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering physics T 3 0/0 0/0 3

L : Lecture T : Tutorial S.Lr : Supervised Learning P : Practical R : Research C: Credits



To understand the basics of aeronautics, aircraft structures, systems, instruments and control.


CO1 Determine the properties of atmosphere at a given altitude in ISA. (Level 2)

CO2 Demonstrate different types of construction and materials used for aircraft structures. (Level 3)

CO3 Explain the operating principle of various systems used on airplanes. (Level 3)

CO4 Differentiate power assisted and power operated flight control systems. (Level 4)

CO5 Explain the working of various instruments used for aircraft navigation. (Level 4)



CO1 3 3 3 2 1 2

CO2 3 3 3 3 2 3 3 2

CO3 3 3 3 3 3 2

CO4 3 3 3 3 2

CO5 3 3 3 3 3 2


CO1 3 2 2

CO2 3 3 3

CO3 3 3 3

CO4 3 3 3

CO5 3 3 3


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Subject

Code:

BAE 20004

Subject Name: ELEMENTS OF AERONAUTICAL

ENGINEERING

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering physics Ty 3 0/0 0/0 3

UNIT I BASICS OF AERONAUTICS 9

History of flight – Classification of flight vehicles-Components of an airplane and their functions- lift generation – airfoil

nomenclature – International Standard Atmosphere- Types and working principles of aircraft engines

UNIT II BASICS OF AIRCRAFT STRUCTURES 9

General types of aircraft construction, Monocoque, semi-monocoque and geodesic constructions, typical wing and fuselage

structure. Use of Aluminium alloy, titanium, stainless steel and composite materials

UNIT III AIRCRAFT SYSTEMS 9

Hydraulic systems – Study of typical systems – components – Hydraulic systems controllers – Modes of operation –

Pneumatic systems – Working principles – Typical Pneumatic Power system – Brake system – Components, Landing Gear

Systems – Classification – Shock absorbers – Retractive mechanism.

UNIT IV AIRCRAFT CONTROL SYSTEMS 9

Conventional Systems – Power assisted and fully powered flight controls – Power actuated systems – Engine control

systems – Push pull rod system – operating principles – Modern control systems – Digital fly by wire systems – Auto pilot

system, Active ControlTechnology.

UNIT V AIRCRAFT INSTRUMENTS 9

Flight Instruments and Navigation Instruments – Accelerometers, Air speed Indicators – Mach Meters – Altimeters -

Gyroscopic Instruments– Principles and operation – Study of various types of engine instruments – Tachometers –

Temperature and Pressure gauges.


TEXT BOOKS:

1. Anderson, J.D., Introduction to Flight, McGraw-Hill; 8th edition ,2015

2. Handbooks of Airframe and Power plant Mechanics, US dept. of Transportation, Federal, Aviation

Administration, the English Book Store, New Delhi,1995.

3. Mekinley, J.L. and R.D. Bent, Aircraft Power Plants, McGraw Hill1993.

4. Pallet, E.H.J. Aircraft Instruments & Principles, Pitman & Co1993.

5. Stephen.A. Brandt, Introduction to aeronautics: A design perspective, 2nd

edition, AIAA Education Series,2004

REFERENCES:

1. A.C. Kermode, Flight without Formulae, Pearson Education; 11th edition,2011.

J.L. McKinley and R.D Bent Aircraft Maintenance & Repair, McGraw Hill,1993


Subject Code:

BCE20IL1/

BCE18IL4

Subject Name :

FLUID MECHANICS AND MACHINERY LAB

T / Lb/

ETL

L T /

S.Lr

P/ R C

Prerequisite: Fluid Mechanics and Machinery Lb 0 0/0 3/0 1

L : Lecture T : Tutorial SLr : Supervised Learning P : Project R : Research C: Credits



Different Methods of flow measurements

To study the characteristics of hydraulic pumps.

To study the characteristics of hydraulic turbines.

COURSE OUTCOMES (COs) : ( 3- 5)

CO1 Study the Different Methods of flow measurements

CO2 Study the performance characteristics of hydraulic pumps.

CO3 Study the performance characteristics of hydraulic turbines.

Mapping of Course Outcomes with Program Outcomes (Pos)


CO1 H M M M L

CO2 H L M M L

CO3 M L H L

Cos / PSOs PSO1 PSO2 PSO3 PSO4 PSO5

CO1 H M

CO2 H M

CO3 M H


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Subject Code

BCE20IL1/

BCE18IL4

Subject Name :FLUID MECHANICS AND MACHINERYLABORATORY

Ty/Lb/ ETL L T/ SLr P/R C

Prerequisite: FLUID MECHANICS. Lb 0 0/0 3/0 1

LIST OF EXPERIMENTS:

1. Experiments on Flow Measurements Venturimeter, Orifice Meter, Mouthpiece.

2. Experiment to Determine Friction Factor in Pipes

3. Experiments to Draw the Characteristic Curves of Pumps. Centrifugal pump, Reciprocating pump, Gear

pump and Jetpump

4. Experiments to Draw the Characteristic Curves of Hydraulic Turbines -Pelton Wheel, FrancisTurbine.



Subject

Code:

BAE 20L01

Subject Name :

THERMODYNAMICS AND STRENGTH OF

MATERIALS LABORATORY

Ty/Lb/ETL

L

T/SLr

P/R

C

Prerequisite: Engineering thermodynamics,

Strength of materials Lb 0 0/0 3/0 1



OBJECTIVES:

To supplement the theoretical knowledge used in Engineering Thermodynamics and Mechanics of Solids with

practical testing.


CO1 Gain the knowledge of performance of IC engines (Level 3)

CO2 Gain the knowledge of performance of heat exchangers and properties of fuels(Level 2)

CO3 Gain the knowledge of strength of testing of different materials (Level 4)

CO4 Gain the knowledge of hardness testing of different materials(Level 4)

CO5 Gain the knowledge of estimation of spring constant under Compression (Level 2)



CO1 3 3 2 3 2 2 2 2 3 2 2 2

CO2 3 3 2 3 2 2 2 2 3 2 2 2

CO3 3 3 2 3 2 1 1 2 3 2 2 2

CO4 3 3 2 3 2 1 1 2 3 2 2 2

CO5 3 3 2 3 2 1 1 2 3 2 2 2


CO1 3 3 2 2

CO2 3 3 2 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject

Code

BAE20L01

Subject Name :THERMODYNAMICS AND STRENGTH

OF MATERIALS LABORATORY

Ty/Lb/ET

L L T/ SLr P/R C

Prerequisite: Engineering thermodynamics, Strength of

materials

Lb

0

0/0

3/0

1

OBJECTIVES

To supplement the theoretical knowledge ain used in Engineering Thermodynamics and Mechanics of Solids with

practical testing.

List of Experiments Thermodynamics

1. Performancetest ona4-strokeengine

2. Valvetimingofa4–strokeengineandport timingofa 2strokeengine

3. Determinationofeffectiveness ofaparallelflowheatexchanger

4. Determinationofeffectivenessofacounter flowheatexchanger

5. Determinationofheatingvalueofafuel

6. Determinationofspecific heat ofsolid

7. Determinationofthermalconductivity ofsolid.

8. Determinationofthermalresistanceofa compositewall.

Strength of Materials

1. Tensiontestonamildsteelrod

2. Doubleshear testonMildsteelandAluminiumrods

3. Torsiontest onmildsteelrod

4. Impacttestonmetalspecimen

5. Hardnesstest onmetals-BrinnellandRockwellHardnessNumber

6. Deflectiontest onbeams

7. Compressiontestonhelical springs

8. StrainMeasurementusingRosettestraingauge



Subject

Code:

BAE20L02

Subject Name :

CAD AND AIRCRAFT COMPONENTS DRAWING Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Basic Engineering Graphics Lb 0 0/0 3/0 3




Ability to design and draw different joints and components of Aircraft using manual drafting method and

modeling package


CO1 Understand the Design concepts and Drafting Principles of various joints (Level 2)

CO2 Develop skills in designing the Aircraft components using software like AutoCAD (Level 3)

CO3 Create a 2d and 3d model of typical Aircraft and its components(Level 6)

CO4 Use their breadth and depth of knowledge and skills in the fundamental disciplines of an Aircraft

designing.(Level 3)

CO5 Analyze the control System of Aircraft. (Level 4)



CO1 3 3 3 3 3 2 2 2 2 2

CO2 3 3 3 3 3 2 2 2 2 2

CO3 3 3 3 3 3 2 2 2 2 2

CO4 3 3 3 3 3 2 2 2 2 2

CO5 3 3 3 3 3 2 2 2 2 2


CO1 3 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


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Subject Code

BAE20L02

Subject Name :CAD AND AIRCRAFT COMPONENTS

DRAWING

Ty/Lb/

ETL

L T/

SLr

P/

R

C


OBJECTIVES

• To introduce the concept of design of basic structural components and to draft both manually and using modelling

package.

LIST OF EXERCISES

1. Design and drafting of riveted joints

2. Design and drafting of welded joints.

3. Design and drafting control components cam

4. Design and drafting control components bell crank

5. Design and drafting control components gear

6. Design and drafting control components push-pull rod

7. Three view diagrams of a typical aircraft

8. Layout of typical wing structure.

9. Layout of typical fuselage structure.

10. Layout of control system



SEMESTER - IV


Subject

Code:

BAE20005

Subject Name :

AERODYNAMICS-I

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Fluid Mechanics and Machinery Ty 3 0/0 0/0 3



OBJECTIVES:

• To introduce the concepts of mass, momentum and energy conservation relating to aerodynamics.

• To make the student understand the concept of vorticity, irrotationality, theory of airfoils and wing

sections.

• To introduce the basics of viscous flow.


CO1 Predict the behaviour of airflow over bodies with particular emphasis on aerofoil sections in

the incompressible flow regime. (Level 2)

CO2 Apply airfoil theory to predict airfoil performance. (Level 3)

CO3 Analyze and optimize wing performance. (Level 4)

CO4 Apply the concepts of aerodynamics to the design of aerospace systems. (Level 6)

CO5 Apply propeller theory to predict blade performance.(Level 4 )



CO1 3 3 3 3 2 3 2 1 2 1 2 2

CO2 3 3 3 2 2 3 2 1 2 1 2 2

CO3 3 3 3 3 2 2 2 1 2 1 2 2

CO4 3 3 3 3 2 2 2 1 2 1 2 2

CO5 3 3 3 3 2 3 2 1 2 1 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code

BAE20005

Subject Name :AERODYNAMICS-I Ty/Lb/

ETL

L T/

SLr

P/

R

C

Prerequisite: Fluid Mechanics and Machinery Ty 3 0/0 0/0 3

UNIT I INTRODUCTION TO LOW SPEED FLOW 9

Euler equation, incompressible bernoulli's equation, circulation and vorticity, green's lemma and stoke's theorem,

barotropic flow, kelvin's theorem, streamline, stream function, irrotational flow, potential function, equipontential lines,

elementary flows and their combinations.

UNIT II TWO DIMENSIONAL INVISCID INCOMPRESSIBLE FLOW 9

Ideal Flow over a circular cylinder, D'Alembert's paradox, magnus effect, Kutta joukowski's theorem, starting vortex, kutta

condition, real flow over smooth and rough cylinder.

UNIT III AIRFOIL THEORY 9

Cauchy-riemann relations, complex potential, methodology of conformal transformation, kutta-joukowski transformation

and its applications, thin airfoil theory and its applications.

UNIT IV SUBSONIC WING THEORY 9

Vortex filament, biot and savart law, bound vortex and trailing vortex, horse shoe vortex, lifting line theory and its

limitations.

UNIT V INTRODUCTION TO BOUNDARY LAYER THEORY 9

Boundary layer and boundary layer thickness, displacement thickness, momentum thickness, energy thickness, shape

parameter, boundary layer equations for a steady, two dimensional incompressible flow, boundary layer growth over a flat

plate, critical reynolds number, blasius solution, basics of turbulent flow.


TEXT BOOKS:

1. Houghton, E.L., and Caruthers, N.B., "Aerodynamics for Engineering students", Edward Arnold Publishers Ltd.,

London, 1989.

2. Anderson, J.D., "Fundamentals of Aerodynamics", MaGraw Hill Book Co., 1999

REFERENCES:

1. Milne Thomson, L.H., "Theoretical Aerodynamics", Macmillan, 1985

2. John J Bertin., "Aerodynamics for Engineers", Pearson Education Inc, 2002

3. Clancey, L J.," Aerodynamics", Pitman, 1986

4. Kuethe, A.M and Chow, C.Y, "Foundations of Aerodynamics", Fifth Edition, John Wiley & Sons, 2000.


Subject Code:

BAE 20006

Subject Name :

PROPULSION - I Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Engineering thermodynamics,

Fluid mechanics and machinery Ty 3 0/0 0/0 3



OBJECTIVES: The student will learnbasic concepts and salient features of engine components of jet propelled engines

which are operated in atmosphere to students. This course is also aimed at making students familiarize with advanced jet

propulsion methods like hypersonic propulsion..


CO1 Understand the details of gas turbine engine components and physicalprocesses involved in the operation of

gas turbine engines(Level 4)

CO2 Perform integration of an engine inlet and nozzle as well as tounderstand the methods to size and design the

components.(Level 5)

CO3 Understand the principal design parameters and constraints that set theperformance of combustion chamber.

(Level 4)

CO4 Describe the energy exchange processes that underlie the working ofcompressor and turbine and to use

velocity triangles to estimate the performance ofa compressors and to be able to use velocity triangles with

the Euler TurbineEquation to estimate the performance of a turbine stage(Level 4)

CO5 Understand the operating principle of ramjet, combustion and its performance. (Level 2)



CO1 3 3 2 1 2 1 2 3 3

CO2 3 3 3 3 2 1 2 3 3

CO3 3 3 3 3 2 1 2 3 3

CO4 3 3 3 3 2 1 2 3 3

CO5 3 3 3 3 2 1 2 3 3


CO1 3 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


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Subject Code :

BAE 20006

Subject Name : PROPULSION - I Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Engineering thermodynamics,

Fluid mechanics and machinary

TY 3 0/0 0/0 3

UNIT I FUNDAMENTALS OF AIR BREATHING ENGINES 8

Operating principles of piston engines - thermal efficiency calculations - classification of piston engines -

illustration of working of gas turbine engine - the thrust equation - factors affecting thrust -effect of pressure,

velocity and temperature changes of air entering compressor - methods of thrust augmentation - characteristics

of turboprop, turbofan and turbojet - performance characteristics.

UNIT II INLETS, NOZZLES AND COMBUSTION CHAMBERS FOR JET ENGINES 10

Internal flow and Stall in subsonic inlets - relation between minimum area ratio and eternal deceleration ratio -

diffuser performance - supersonic inlets - starting problem on supersonic inlets -shock swallowing by area

variation - . real flow in nozzles and nozzle efficiency - losses in nozzles -equilibrium flow and frozen flow in

nozzles- two phase flow in nozzles - ejector and variable area nozzles - interaction of nozzle flow with

adjacent surfaces - thrust reversal- classification of combustion chambers - combustion chamber performance -

effect of operating variables on performance - flame stabilization

UNIT III COMPRESSORS FOR JET ENGINES 9

Principle of operation of centrifugal compressor and axial flow compressor- Work done and pressure rise -

velocity diagrams - degree of reaction - free vortex and constant reaction designs of axial flow compressor -

performance characteristics of centrifugal and axial flow compressors- stage efficiency calculations - cascade

testing

UNIT IV TURBINES FOR JET ENGINES 9

Principle of operation of axial flow turbines- limitations of radial flow turbines- Work done and pressure rise -

Velocity diagrams - degree of reaction - free vortex and constant nozzle angle designs - performance

characteristics of axial flow turbine- turbine blade cooling methods - stage efficiency calculations - basic blade

profile design considerations - matching of compressor and turbine

UNITVRAMJET PROPULSION 9

Operating principle of ramjet engine - various components of ramjet engines and their efficiencies -

Combustion in ramjet engine - critical, subcritical and supercritical modes of operation -ramjet engine and its

performance characteristics - sample ramjet design calculations - flame stability problems in ramjet

combustors -integral ram rockets.


TEXT BOOKS:

1. Hill, P.G. & Peterson, C.R. "Mechanics & Thermodynamics of Propulsion" Addison - Wesley Longman INC,

1999.

2. James Award, "Aerospace Propulsion System"

REFERENCES:

1. Cohen, H. Rogers, G.F.C. and Saravana muttoo, H.I.H. "Gas Turbine Theory", Longman, 1989. 2. Oates, G.C., "Aero thermodynamics of Aircraft Engine Components", AIAA Education Series, New York, 1985.

3. Rolls Royce, "Jet Engine", 5th

Edition, Rolls Royce Technical Publications, 2005. 4. Mathur, M.L. and Sharma, R.P., "Gas Turbine, Jet and Rocket Propulsion", Standard Publishers & Distributors,

Delhi, 1999.


Subject

Code:

BAE 20007

Subject Name :

FLIGHT MECHANICS

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite:Engineering Mechanics;Strength of

Materials Ty 3 1/0 0/0 4




To understand the performance of the aircraft.


CO1 Prepare the drag polar diagram and associated equations for subsonic airplanes. (Level 2)

CO2 Estimate the range and endurance of jet and propeller airplanes under given operating (Level 4)

CO3 Evaluate the performance of airplanes during steady glide and climb. (Level 5)

CO4 Identify the factors for takeoff and landing distance of airplanes. (Level 5)

CO5 Draw the flight envelope of given aircraft. (Level 5)



CO1 3 3 3 3 3 2 2 2 2

CO2 3 3 3 3 3 2 2 2 2

CO3 3 3 3 3 3 2 2 2 2

CO4 3 3 3 3 3 2 2 2 2

CO5 3 3 3 3 3 2 2 2 2


CO1 3 2 3

CO2 3 2 3

CO3 3 2 3

CO4 3 2 3

CO5 3 2 3


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Subject Code:

BAE 20007

Subject Name :

FLIGHT MECHANICS

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite:Engineering Mechanics;Strength of

Materials Ty 3 1/0 0/0 4

UNIT I GENERAL CONCEPTS 10

International Standard atmosphere - IAS, EAS, TAS, Propeller theory- Froude momentum andblade element theories-

Propeller coefficients-Use of propeller charts-Performance of fixed andvariable pitch propellers, High lift devices, Thrust

augmentation

UNIT II DRAG OF BODIES 12

Streamlined and bluff body-Types of drag, Effect of Reynold‘s number on skin friction andpressure drag-Drag reduction of

airplanes-Drag polar, Effect of Mach number on drag polar.Concept of sweep- effect of sweep on drag

UNIT III CRUISING FLIGHT PERFORMANCE 14

Forces and moments acting on a flight vehicle - Equation of motion of a rigid flight vehicle - Different types of drag -

estimation of parasite drag co-efficient by proper area method- Drag polar of vehicles from low speed to high speeds -

Variation of thrust, power with velocity and altitudes for air breathing engines. Performance of airplane in level flight -

Power available and power required curves. Maximum speed in level flight - Conditions for minimum drag and power

required

UNIT IV GLIDING AND CLIMBING FLIGHT PERFORMANCE 12

Range and endurance of propeller and Jet aircrafts, Climbing and gliding flight (Maximum rate of climb and steepest angle

of climb, minimum rate of sink and shallowest angle of glide) - Climb hodograph-Glide hodograph, Absolute and service

ceiling.

UNIT V ACCELERATED FLIGHT PERFORMANCE 12

Turning performance- level turn, minimum turn radius, maximum turn rate, Bank angle and load factor - limitations on

turn. Estimation of take-off and landing distances, Methods of reducing landing distance, Pull up and pull down

maneuvers-V-n diagram


TEXT BOOK

1. Houghton,E.L. and Carruthers, N.B. Aerodynamics for engineering students, Edward Arnold Publishers, 1988.

2. Anderson, Jr., J.D. Aircraft Performance and Design, McGraw-Hill International Edition, 1999

REFERENCES

1. Kuethe, A.M. and Chow, C.Y., Foundations of Aerodynamics, John Wiley & Sons; 5th

Edition, 1997.

2. John J Bertin., Aerodynamics for Engineers, Prentice Hall; 6th edition, 2013.

3. Clancy, L J., Aerodynamics, Shroff publishers (2006)

4. Anderson, J.D., Introduction to Flight, McGraw-Hill; 8th edition , 2015


Subject

Code:

BAE20008

Subject Name :

AIRCRAFT STRUCTURES

Ty/L

b/ET

L

L T/

SLr

P/R C

Prerequisite: Strength of Materials Ty 3 1/0 0/0 4




The analysis of different sections and aircraft structural components.


CO1 Analyze and investigate the normal stress variation on unsymmetrical sections subjected to bending

moments (Level 5)

CO2 Determine the shear flow variation and shear center in thin walled open sections with skin effective,

ineffective in bending.(Level 4)

CO3 Find the shear flow variation in single cell and multicell tubes subjected to shear and torque loads.

(Level 4)

CO4 Investigate the behaviour of buckling of simply supported plates (Level 5)

CO5 Analyse the shear and bending moment variation of aircraft wing and fuselage. (Level 5)



CO1 3 3 3 3 3 2 2 1 2

CO2 3 3 3 3 3 2 2 1 2

CO3 3 3 3 3 3 2 2 1 2

CO4 3 3 3 3 3 2 2 1 2

CO5 3 3 3 3 3 2 2 1 2


CO1 3 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


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Subject

Code:

BAE20008

Subject Name :

AIRCRAFT STRUCTURES

Ty/L

b/ET

L

L T/

SLr

P/R C

Prerequisite: Strength of Materials Ty 3 1/0 0/0 4

OBJECTIVES: Of this course are

To familiarize the student, the generalized theory of pure bending and work out problems in the calculation of

bending stress involving differentmethods

To gain knowledge in the concept of shear flow in thin-walledsections

To carry out shear flow analysis involving different types ofsections

To Impart theoretical knowledge on the behaviour of thin plates and thin-walledcolumns

To carry out basic stress analysis procedures involving aircraft structuralcomponents

UNIT I UNSYMMETRICAL BENDING OF BEAMS 12

Unsymmetrical bending of beams – different methods of analysis (neutral axis method, ‗k‘ method, and the principal axis

method), stresses and deflections in beams under unsymmetrical bending

UNIT II SHEAR FLOW IN OPEN SECTIONS 12

Definition and expression for shear flow due to bending, shear flow in thin-walled Open sections with and without

stiffening elements, torsion of thin-walled Open sections, the shear center of symmetric and unsymmetrical open sections,

structural idealization

UNIT III SHEAR FLOW IN CLOSED SECTIONS 12

Shear flow due to bending and torsion in single-cell and multi-cell structures, the shear center of symmetric and

unsymmetrical closed sections, effect of structural idealization, shear flow in a tapered beam, stress analysis of thin-

webbed beams using Wagner‘s theory

UNIT IV BUCKLING OF PLATES 12

Behaviour of a rectangular plate under compression, governing equation for plate buckling, buckling analysis of sheets and

stiffened panel under compression, concept of the effective sheet width, buckling due to shear and combined loading,

crippling.

UNITV AIRCRAFT STRESS ANALYSIS 12

Loading and analysis of aircraft wing, fuselage, and tail unit. Use of V-n diagram for sizing the aircraft wing, fuselage, and

tail unit.


TEXT BOOKS:

1. Bruhn. E.H., ‗Analysis and Design of Flight Vehicles Structures‘, Tri-state off-set company, USA, 1985.

2. Howard D Curtis, ‗Fundamentals of Aircraft Structural Analysis‘, WCB-McGraw Hill, 1997.

3. Megson T M G, ‗Aircraft Structures for Engineering Students‘, Butterworth-Heinemann; 5th

edition,2012.

REFERENCES:

1. Peery, D.J., and Azar, J.J., Aircraft Structures, 2nd

edition, McGraw – Hill, N.Y.,1999.

2. Rivello, R.M., Theory and Analysis of Flight Structures, McGraw Hill,1993.


Subject

Code:

BEE 20I01

Subject Name: FUNDAMENTALS OF AIRCRAFT

CONTROL AND INSTRUMENTATION SYSTEMS

Ty /

Lb/

ETL

L T /

S.Lr

P /

R

C

Prerequisite:Elements of Aeronautical Engineering Ty 3 0/0 0/0 3



OBJECTIVE:

To remember the concepts, basic components, time and frequency domain analysis, digital controllers,

stability of aircraft control systems and instruments

To understand the concepts, basic components, time and frequency domain analysis, digital

controllers, stability of aircraft control systems and instruments

To apply the concepts of time and frequency domain analysis, digital controllers, stability of aircraft

control systems and instruments to solve problems

To analyse the concepts of time and frequency domain analysis, digital controllers, stability of aircraft

control systems and instruments to solve problems

To evaluate and create modernized Aircraft systems by implementing the concepts of time and

frequency domain analysis, digital controllers, stability of aircraft control systems and instruments.

COURSE OUTCOMES (Cos): (3-5)

CO1 The students will be able to remember the concepts, basic components, time and frequency domain

analysis, digital controllers, stability of aircraft control systems and instruments

CO2 The students will be able to understand the concepts, basic components, time and frequency

domain analysis, digital controllers, stability of aircraft control systems and instruments

CO3 The students will be able to apply the concepts of time and frequency domain analysis, digital

controllers, stability of aircraft control systems and instruments to solve problems

CO4 The students will be able to analyse the concepts of time and frequency domain analysis, digital

controllers, stability of aircraft control systems and instruments to solve problems

CO5 The students will be able to evaluate and create modernized Aircraft systems by implementing the

concepts of time and frequency domain analysis, digital controllers, stability of aircraft control

systems and instruments.



CO1 3 3 2 3 3 2 2 1 2 2 3 1

CO2 3 2 3 3 3 2 3 2 2 2 3 1

CO3 3 3 3 3 3 3 3 1 2 3 3 2

CO4 2 3 1 2 1 1 1 1 2 1 1 1

CO5 3 3 3 3 3 1 1 1 2 1 3 2


CO1 3 3 3 2

CO2 3 3 3 3

CO3 3 3 3 2

CO4 1 1 2 1

CO5 2 3 3 2


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Subject

Code:

BEE 20I01

Subject Name: FUNDAMENTALS OF AIRCRAFT

CONTROL AND INSTRUMENTATION SYSTEMS

Ty /

Lb/

ETL

L T /

S.Lr

P /

R

C

Prerequisite: Elements of Aeronautical Engineering Ty 3 0/0 0/0 3

UNIT I INTRODUCTION TO COMPONENTS OF AIRCRAFT CONTROL SYSTEMS 9

Historical review, Simple pneumatic, hydraulic and thermal systems, Series and parallel system,

Analogies, mechanical and electrical components, Development of flight control systems.

UNIT II DIGITAL CONTROLLERS, OPEN AND CLOSED LOOP STUDIES FOR AIRCRAFT MODELLING

9

Feedback control systems – Control system components - Block diagram representation of control

systems, Reduction of block diagrams, Signal flow graphs, Output to input ratios. Z-Transforms Introduction to digital

control system, Digital Controllers and Digital PID controllers

UNIT III TIME - FREQUECNY DOMAIN RESPONSE AND CONCEPT OF STABILITY FOR AIRCRAFT

SYSTEMS 9

Standard test signals - time response of first order - second order systems - steady state errors and error constants - Bode

plot and Root locus

Concept of stability-necessary conditions - Hurwitz stability criterion - Routh stability criterion

UNIT IV AIRCRAFT INSTRUMENTS –I 9

Pitot-static systems – Altimeter, Airspeed indicator, Compass Systems- Magnetic compass Vertical speed indicator,

Gyroscopic systems- Attitude Indicator, Heading indicator, Turn indicator

UNIT V AIRCRAFT INSTRUMENTS –II 9

Flight director systems - Navigational systems - Very-High Frequency Omnidirectional Range (VOR), Nondirectional

Radio Beacon (NDB)


TEXT BOOKS:

1. Nagrath, L.J. Gopal, M. Control System Engineering.4th Ed. New age International (P) Ltd Publishers.

2. Ogata, K. Modern Control Engineering-analysis of system dynamics, system design using Root Locus. 4th Ed.

Prentice Hall for practice and solutions.

3. Instrument Flying Handbook, 2001, FAA-H-8083-15, US Dept. of Transportation, Federal Aviation

Administration, Flight Standards Service

4. Aviation's Crazy, Mixed Up Units of Measure - AeroSavvy

5. Mark Natola, ed. (2002). Boeing B-47 Stratojet. Schiffer Publishing Ltd. p. 46. ISBN 0764316702.

REFERENCE BOOKS:

1. www.GaliLMc.com - GALIL we move the world-featured tutorials – motion controllers, tuning servo systems,

adjustment of PID filter.

2. "Instrument Planning The New Service Blind-Flying Panel Described" Flight August 19, 1937 p193

3. "Six Pack - The Primary Flight Instruments". LearnToFly.ca. Retrieved 31 January 2011.

http://www.galilmc.com/


Subject Code:

BHS 20NC1/

BHS18NC1

Subject Name : THE INDIAN

CONSTITUTION Ty/Lb/

ETL

L T/

SLr

P/

R

C

Prerequisite: NIL Ty 1 0 0 0

L : Lecture T:Tutorial SLr : Supervised Learning P : Project R : Research C: Credits

Ty/Lb/ETL : Theory/Lab/Embedded Theory andLab

OBJECTIVE :

To provide an overview of the history of the making of IndianConstitution

To understand the preamble and the basic structures of theConstitution.

To Know the fundamental rights, duties and the directive principles of statepolicy

To understand the functionality of the legislature , the executive and thejudiciary


The Students will be able to

CO1 To provide an overview of the history of the making of Indian Constitution

CO2 To understand the preamble and the basic structures of the Constitution

CO3 To Know the fundamental rights, duties and the directive principles of state policy

CO4 To Know the Emergency powers of the government

CO5 To Know the Special Provisions for Jammu and Kashmir, Nagaland and Other Regions and Amendments


COs/POs PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO 9 PO10 PO11 PO12

CO1 3 1 1 1 1

CO2 3 1 1 1 1

CO3 3 1 1 2 1

CO4 3 1 1 2 1

CO5 3 1 1 2 1

COs /

PSOs

PSO1 PSO2 PSO3

CO1 1 1 2

CO2 1 1 2

CO3 1 1 2

CO4 1 1 2

CO5 1 1 2

3/2/1 indicates StrengthofCorrelation 3- High, 2- Medium, 1-Low

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Subject Code :

BHS 20NC1/

BHS18NC1

Subject Name : THE INDIAN

CONSTITUTION Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : None TY 1 0 0 0

UNIT I

The History of the Making of Indian Constitution, Preamble and the Basic Structures

UNIT II

Fundamental Rights and Duties, Directive Principles of State Policy

UNIT III

Legislature, Executive and Judiciary

UNIT IV

Emergency Powers

UNIT V

Special Provisions for Jammu and Kashmir, Nagaland and Other Regions, Amendments


TEXT BOOKS:

1. D D Basu, Introduction to the Constitution of India, 20th Edn., Lexisnexis Butter worths,2012.

REFERENCE BOOKS:

1. Rajeev Bhargava (ed), Ethics and Politics of the Indian Constitution, Oxford University press, New Delhi, 2008.

2. Granville Austin, The Indian Constitution: Cornerstone of a Nation, Oxford University Press, Oxford,1966

3. Zoya Hassan, E. Sridharan and R. Sudarshan (eds), India‟s Living Constitution: Ideas,Practices, Controversies,

Permanent Black, New Delhi,2002

4. Subhash C. Kashyap, Our Constitution, National Book Trust, New Delhi,2011


Subject Code:

BHS 20NC2/

BHS18NC2

SubjectName: THE INDIAN

TRADITIONAL KNOWLEDGE

Ty/Lb/

ETL

L T/ SLr P/R C


L : Lecture T:Tutorial SLr : Supervised Learning P : Project R : Research

C: Credits Ty/Lb/ETL : Theory/Lab/Embedded Theory andLab

OBJECTIVE :

To understand the Pre- colonial and Colonial Period, Indian Traditional KnowledgeSystem

To understand the Traditional Medicine, Traditional Production and ConstructionTechnology

To Know the History of Physics and Chemistry, Traditional Art and Architecture and Vastu Shashtra, Astronomy

andAstrology

To understand the Origin of Mathematics, Aviation Technology in Ancient India, Crafts and Trade in

AncientIndia COURSE OUTCOMES (COs) : ( 3- 5) The Students will be able to

CO1 To understand the Pre- colonial and Colonial Period, Indian Traditional Knowledge System

CO2 To understand the Traditional Medicine, Traditional Production and Construction Technology

CO3 To understand the Origin of Mathematics, Aviation Technology in Ancient India, Crafts and Trade in Ancient India



CO1 3 3 1 2 2 1

CO2 3 3 1 2 2 1

CO3 3 3 1 2 2 1

COs /

PSOs

PSO1 PSO2 PSO3

CO1 1 1 2

CO2 1 1 2

CO3 1 1 2


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Subject Code:

BHS 20NC2/

BHS18NC2

SubjectName: THE

INDIANTRADITIONAL KNOWLEDGE

Ty/Lb/

ETL

L T/ SLr P/R C


UNIT I 3

Historical Background: TKS During the Pre- colonial and Colonial Period, Indian Traditional Knowledge System

UNITII 3

Traditional Medicine, Traditional Production and Construction Technology

UNITIII 3

History of Physics and Chemistry, Traditional Art and Architecture and Vastu Shashtra, Astronomy and Astrology

UNITIV 3

Origin of Mathematics, Aviation Technology in Ancient India, Crafts and Trade in Ancient India

UNIT V 3

TKS and the Contemporary World, TKS and the Indian Union, TKS and IT Revolution.


TEXT BOOKS:

1. Amit Jha (2009) , Traditional knowledge system in india, 1st Edition, Delhi University (NorthCampus)

2. Dr.A.K.Ghosh (2011), Traditional Knowledge of HouseholdProducts


Subject Code:

BAE20ET1

Subject Name: MANUFACTURING

TECHNOLOGY

Ty/Lb/

ETL

L T/

S

Lr

P/R C

Prerequisite: Basic Mechanical and Civil

Engineering

ETL 1 0/1 3/0 3



BJECTIVES: The student will learn

Impart knowledge in various manufacturing processes for metals and plastics

Select the appropriate manufacturing process based on the application.

To impart practical exposure and skill in various metal working and injection molding processes

COURSE OUTCOMES (COs) : The student will be able to

CO1 Understand the various manufacturing processes for metals. (Level 2)

CO2 Demonstrate the operation of various manufacturing processes (Level 3)

CO3 Recommend the suitable manufacturing process depending on the requirement(Level 4)

CO4 Describe the manufacturing of plastic components/Products and their applications. (Level 3)

CO5 Practical Skill in various basic metal working and injection molding processes(Level 4)



CO1 3 2 1 - 2 3 2 3 3 3 2 2

CO2 3 2 1 - 2 3 2 3 3 3 2 2

CO3 3 2 1 - 2 3 2 3 3 3 2 2

CO4 3 2 1 - 2 3 3 3 3 3 2 2

CO5 3 3 - - - 2 2 2 3 2 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 2 3 1


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Subject Code:

BAE20ET1

Subject Name: MANUFACTURING

TECHNOLOGY

Ty/Lb/

ETL

L T/

S

Lr

P/R C

Prerequisite: Basic Mechanical and Civil

Engineering

ETL 1 0/1 3/0 3

UNIT I: METAL CASTING PROCESSES 9

Introduction to Pattern making - Moulding sand - Melting furnaces - Special casting processes - Shell,

Investment, Die casting, Full mould process - Defects in casting. Computers in casting processes.

Lab Component:

Foundary Practices: Sand Preparation, Sand Mould Making

UNIT II: METAL FORMING PROCESSES 9

Cold and hot working - Forging, Rolling, Extrusion, Drawing. . Introduction to sheet metal forming

processes. High energy rate forming - Explosive forming, Electro-hydraulic, Electro magnetic forming,

dynapac machine, petro forge machines. Super plastic forming

Lab Component

Sheet metal forming practices:Study of different types of dies and operations, Press operations

UNIT III: METAL JOINING PROCESSES 10

Classification - Arc Welding –Sheet metal arc welding , Gas metal welding- - Submerged Arc , TIG, MIG, -

Resistance welding -Electrode types – Specification- Special Types - Laser, Electron beam, Plasma Arc,

Ultrasonic, Electro slag, Explosive welding and Friction welding - Thermit welding –inspection of welding-

Defects in weld- Brazing and soldering

Lab Component

Welding practices: Oxy-Acetylene gas welding and Arc Welding

UNIT IV: METAL CUTTING PROCESSES- INTRODUCTION 9

Lathe: Specification - Types - Mechanisms - Operations - Calculations - Capstan and turret lathe - Tooling

with examples - Copy turning lathe. Drilling: Specification - Types - Feed Mechanism - Operations - Drill

tool nomenclature - Mounting – Reamer and tap tools - Calculations.

Lab Component

Turning Practices: Step Turning,Taper turning and Thread cutting in lathe

Hole making practices: Drilling and Reaming

UNIT V: PROCESSING OF PLASTIC MATERIALS 8

Types of Plastics - Types of moulding - Compression moulding - Transfer molding - Injection molding -

Blow Moulding – Rota moulding - Film and sheet forming - Thermo forming - Reinforced plastic -

Laminated plastics.

Lab Component

Practices : Hand Operated Plastic injection moulding machine and study of moulds for plastics


TEXT BOOKS

1. Sharma P.C. (2008), “A TEXT BOOK of Production Technology”, S.Chand & Company Ltd., New Delhi.

2. Serope Kalpakjian (2013), “Manufacturing Engineering and Technology”, Third edition – Addison-wesley

Pub.Co ,7th

edition.

REFERENCES

1. Rao P.N. (2007), “Manufacturing Technology - Foundry Forging & Welding”, Tata McGraw Hill

Publishing Co., New Delhi, 2nd

edition.

2. R.K. Jain, (2001) “Production Technology”, Khanna publisher.

3. O.P. Khanna, (1993), “Welding Technology”, Dhanpat Rai & sons.

S. K. Hajra Choudry, S. K. Bose, (2010) “Elements of Workshop Technology -Volume I & II”. Media

promoters.


Subject

Code:

BAE20L03

Subject Name :

AIRCRAFT STRUCTURES LABORATORY

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Strength of Materials; Aircraft Structures Lb 0 0/0 3/0 1




The behaviour of aircraft structural components under different loading conditions


CO1 Understand practically thebehaviour of aircraft structural Components Under different loading

conditions. (Level 2)

CO2 Obtain hands-on experience in the area of testing of structural components. (Level 3)

CO3 Demonstrate the basics experimental techniques in photoelasticity. (Level 3)

CO4 Interpret and analyze the data from the vibration measuring Instruments. (Level 5)

CO5 Student will have practical knowledge in the field of fabrication and testing of Composite materials

specimens.(Level 4)


Cos/Pos PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO

10

PO11 PO12

CO1 3 3 3 2 2 2 1 2 2

CO2 3 3 3 2 2 2 1 2 2

CO3 3 3 3 3 2 2 1 2 2

CO4 3 3 3 3 2 2 1 2 2

CO5 3 3 3 2 2 2 1 2 2


CO1 3 2 3

CO2 3 2 3 2

CO3 3 2 3 2

CO4 3 2 3 2

CO5 3 2 3


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Subject

Code:

BAE20L03

Subject Name :

AIRCRAFT STRUCTURES LABORATORY Ty/Lb/

ETL

L T/

SLr

P/R C


COURSE OBJECTIVES: Of this laboratory course are

To enable the students understand the behaviour of aircraft structural components under different

loadingconditions.

To provide an exposure to photo elasticity and its applications in stressanalysis

To familiarize with unsymmetrical bending of beams and shafts

To familiarize with the fabrication of compositelaminates.

To impart knowledge in non destructiveevaluation

LIST OF EXPERIMENTS

1. Verification of the Superposition Principle & Maxwell‘s ReciprocalTheorem

2. Unsymmetrical Bending ofBeams

3. Installation and Performance of Electrical Resistance StrainGauges

4. Strain Measurement Using Electrical Resistance StrainGauges

5. Shear Center Position of a Thin-WalledBeam

6. Experiments in Photoelasticity

7. Calibration of a PhotoelasticSpecimen

8. Fabrication of a CompositeLaminate

9. Flexure Tests of CompositeSpecimens

10. Experimental Determination of the Buckling Load ofColumns

11. Thin –Walled ColumnStrength

12. Acoustic & Ultrasonic Testing of Composites

13. Free Vibration Studies withBeams

14. Forced VibrationTesting

Any 10 experiments can be conducted from above 14 experiments



Subject

Code:

BAE 20L04

Subject Name :

AERO ENGINE AND AIRFRAME LABORATORY

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite:Strength of materials, Aircraft Structures-I Lb 0 0/0 3/0 1


OBJECTIVES: The student ,out of this laboratory course will learn

To introduce the knowledge of the maintenance and repair procedures followed for overhaul of aero engines


CO1 : Understanding and practicing of aircraft engine overhauling and operations related to firing.

(Level 2)

CO2 Understanding of aircraft auxiliary systems (Level 2)

CO3 Analyzing the variety of joints applicable in airframes (Level 3)

CO4 Applying concepts of metal forming to airframes (Level 3)

CO5 Understanding and preparing composite specimens (Level 3)



CO1 3 3 3 3 2 3 2 3 3 3 2 2

CO2 3 3 3 3 2 3 2 3 3 3 2 2

CO3 3 3 3 3 2 3 2 3 2 2 2 2

CO4 3 3 3 3 2 3 2 3 2 2 2 2

CO5 3 3 3 2 2 3 3 3 2 2 3 2


CO1 3 2 3 3

CO2 3 2 3 3

CO3 3 2 3 2

CO4 3 2 3 2

CO5 3 2 3 3


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Subject

Code:

BAE 20L04

Subject Name : AERO ENGINE AND AIRFRAME LABORATORY

Ty/Lb /ETL

L T/

SLr

P/R C

Prerequisite:Strength of materials, Aircraft Structures-I Lb 0 0/0 3/0 1

OBJECTIVES

• To introduce the knowledge of the maintenance and repair procedures followed for overhaul of aero engines.

LIST OF EXPERIMENTS

1. Dismantling and reassembling of an aircraft piston engine.

2. Study of Camshaft operation, firing order and magneto, valve timing

3. Study of lubrication and cooling system

4. Study of auxilary systems, pumps and carburetor

5. Aircraft wood gluing-single & double scarf joints

6. Welded single & double V-joints.

7. Fabric & Riveted Patch repairs

8. Tube bending and flaring

9. Sheet metal forming

10. Preparation of glass epoxy of composite laminates and specimens.



Subject Code:

BAE 20TS1

Subject Name: TECHNICAL SKILL-I Ty/Lb/

ETL

L T/

SLr

P/R C

Pre requisite: All subjects studied up to semester IV Lb 0 0/0 3/0 1

L : Lecture T:Tutorial S Lr : Supervised Learning P : Project R : Research C: Credits


OBJECTIVES:

The objective is to develop the technical skill of the students.

COURSE OUTCOMES (COs) :

CO1 Able to identify student‘s field of interest

CO2 Expose to latest technology in his field of interest

CO3 Develop the technical skills required in the field of study

CO4 Bridge the gap between the skill requirements of the employer or industry and the competency of

the students.

CO5 Enhance the employability of the students.



CO1 3 2 2 1 3 1 2 1 2

CO2 3 2 2 1 3 1 2 1 2

CO3 3 3 3 3 3 3 2 3 2 2

CO4 3 3 2 3 3 3 2 3 3 3

CO5 3 3 3 3 3 3 2 3 3 3


CO1

CO2

CO3

CO4

CO5

3/2/1 indicates StrengthofCorrelation 3- High, 2- Medium,1-Low

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Subject Code :

BAE20TS1

Subject Name : TECHNICAL SKILL-I Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : All subjects studied up to

semester IV.

Lb 0 0/0 3/0 1

Students should undergo training for at least 1 month in any industry/Training center/NPTEL- SWAYAM

certification etc for skill development. The report along with certificate in proof of Skill acquired should be submitted

during Viva-Voce examination to be conducted by the department at the end of the semester.


Subject Code:

BEN 20SK1/

BEN18SK1

Subject Name: SOFT SKILL-I

CAREER & CONFIDENCE BUILDING

Ty/Lb/

ETL

L T/

SLr

P/R C

Pre requisite: None ETL 0 0/0 3/0 1

L : Lecture T:Tutorial S Lr : Supervised Learning P : Project R : Research C:Credits


OBJECTIVES: The student will

To create awareness in students, various top companies helping them improve their skill set matrix,leading

to develop a positive frame of mind.

To help students be aware of various techniques of candidate recruitment and help them prepare CV‘sand

resume.

To help student how to face various types of interview, preparing for HR, technicalinterviews.

To help students improve their verbal reading, narration and presentation skills by performs variousmock

sessions.


CO1 Be aware of various top companies leading to improvement in skills amongst them.

CO2 Be aware of various candidate recruitment techniques like group discussion, interviews and

be able to prepare CV‘s and resumes.

CO3 Prepare for different types of interviews and be prepared for HR and technical interviews.

CO4 Improve their verbal, written and other skills by performing mock sessions.

CO5 Participation of group discussion and aptitude tests



CO1 1 1 1 1 1 2 2 3 2 3 2 3

CO2 1 1 1 1 1 2 2 3 2 3 2 3

CO3 1 1 1 1 1 2 2 3 2 3 2 3

CO4 1 1 1 1 1 2 2 3 2 3 2 3

CO5 1 1 1 1 1 2 2 3 2 3 2 3

Cos /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1

CO2

CO3

CO4

CO5


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Subject Code:

BEN 20SK1/

BEN18SK1

Subject Name: SOFT SKILL-I

CAREER & CONFIDENCE BUILDING

Ty/Lb/

ETL

L T/

SLr

P/R C

Pre requisite: None ETL 0 0/0 3/0 1

UNITI 6

Creation of awareness of top companies / improving skill set matrix / Development of positive frame of

mind / Creation of self-awareness.

UNITII 6

Group discussions / Do‘s and don‘ts – handling group discussions / what evaluators look for

interpersonal relationships / Preparation of Curriculum Vitae / Resume.

UNITIII 6

Interview – awareness of facing questions – Do‘s and don‘ts of personal interview / group interview,

enabling students to prepare for different proce3dures such as HR interviews and Technical Interviews /

self-introductions.

UNITIV 6

Verbal aptitude, Reading comprehension / narration / presentation / Mock Interviews.

UNITV 6

Practical session on Group Discussion and written tests on vocabulary and reading comprehension

Practical component P : Include case studies / application scenarios

Research component R : Future trends / research areas / Comparative Analysis



SEMESTER -V


Subject

Code:

BAE20009

Subject Name :

AIRCRAFT STABILITY AND CONTROL

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Aerodynamics-I; Flight Mechanics Ty 3 0/0 0/0 3



Concepts of different Static and Dynamic stability and control in aeronautics.


CO1 Find static margin of airplane in stick fixed and free aspects. (Level 3)

CO2 Design the rudder by considering the critical situations that demand the use of it. (Level 4)

CO3 Estimate the total lateral stability of an airplane. (Level 5)

CO4 Determine the natural frequency and damping ratio of phugoid and short period motions.

(Level 5)

CO5 Explain the recovery procedure of an airplane from dangerous situations like autorotation and

spin(Level 5)



CO1 3 3 3 3 3 2 2 2 2

CO2 3 3 3 3 3 2 2 2 2

CO3 3 3 3 3 3 2 2 2 2

CO4 3 3 3 3 3 2 2 2 2

CO5 3 3 3 3 3 3 2 3 2 2


CO1 3 3 3

CO2 3 3 3

CO3 3 3 3

CO4 3 3 3

CO5 3 3 3


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Subject

Code:

BAE20009

Subject Name :

AIRCRAFT STABILITY AND CONTROL

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Aerodynamics-I; Flight Mechanics Ty 3 0/0 0/0 3

UNIT I STATIC LONGITUDINAL STABILITY AND CONTROL 9

Degrees of freedom of a rigid body, Static and dynamic stability, Need for stability in an airplane, inherently and

marginally stable airplanes, Stability and Controllability, Requirements of control surfaces, criteria for longitudinal stati c

stability, contribution to stability by wing, tail, fuselage, wing fuselage combination, Total longitudinal stability, Neutral

point-Stick fixed and Stick free aspects, Free elevator factor, static margin, Hinge moment, Power effects on stability-

propeller and jet aircrafts, longitudinal control, Movement of centre of gravity, elevator control effectiveness, elevator

control power, elevator angle to trim, elevator angle per g, maneuver point, Stick force gradient and stick force per g,

Aerodynamic balancing

UNIT II STATIC DIRECTIONAL STABILITY AND CONTROL 9

Directional stability-yaw and sideslip, Criterion of directional stability, contribution to static directional stability by wing,

fuselage, tail, Power effects on directional stability-propeller and jet aircrafts, Rudder fixed and rudder free aspects, Rudder

lock and Dorsal fin, Directional control, rudder control effectiveness, rudder requirements, adverse yaw, asymmetric power

condition, spin recovery.

UNIT III STATIC LATERAL STABILTY AND CONTROL 9

Lateral stability-Dihedral effect, criterion for lateral stability, evaluation of lateral stability-contribution of fuselage, wing,

wing fuselage, tail, total static lateral stability, lateral control, aileron control power, aileron effectiveness, strip theory

estimation of aileron effectiveness, roll control by spoilers, aileron reversal, aileron reversal speed.

UNIT IV DYNAMIC LONGITUDINAL STABILITY 9

Aircraft Equations of motion, small disturbance theory, Estimation of longitudinal stability derivatives stability derivatives,

Routh‘s discriminant, solving the stability quartic, Phugoid motion, Factors affecting the period and damping.

UNIT V DYNAMIC LATERAL AND DIRECTIONAL STABILITY 9

Dutch roll and spiral instability, Auto rotation and spin, Stability derivatives for lateral and directional dynamics.

Total No. of Periods 45

TEXT BOOKS:

1. 1. Perkins C.D. &Hage R.E. Airplane performance, stability and control, John Wiley & Sons 1976.

2. Nelson, R.C. Flight Stability & Automatic Control, McGraw Hill, 1998.

REFERENCES:

1. McCormick, B.W. Aerodynamics, Aeronautics & Flight Mechanics John Wiley, 1995.

2. Babister, A.W. Aircraft Stability and response, Pergamon Press, 1980

3. Etkin, B., Dynamics of Flight Stability and Control, Wiley, third edition 1995.

4. Pamadi, B.N. Performance, Stability, Dynamics, and Control of Airplanes, AIAA Education Series, 2004


Subject

Code:

BAE 20010

Subject Name :

COMPOSITE MATERIALS AND STRUCTURES

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Material science Ty 3 0/0 0/0 3



OBJECTIVES: To make the student understand the analysis of composite laminates under different loading

conditions and different environmental conditions

COURSE OUTCOMES (COs): The students will be able to

CO1 Understand the basic concepts of micromechanics and macro mechanics in composites(Level 2)

CO2 Apply principles of laminate plate theory in composite design. (Level 3)

CO3 Analyse the various rejections in composites bases on engineering concepts(Level 4)

CO4 Select the fabrication process and repair methods. (Level 5)

CO5 Design composite with sandwich construction.(Level 6)



CO1 3 3 3 2 2 2 2 3 3 3 2 2

CO2 3 3 3 2 2 2 2 3 3 3 2 2

CO3 3 3 3 2 2 2 2 3 3 3 2 2

CO4 3 3 3 2 2 2 2 3 3 3 2 2

CO5 3 3 3 2 2 2 2 3 3 3 2 2


CO1 3 3 3 3

CO2 3 3 3 3

CO3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 3


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Subject

Code:

BAE 20010

Subject Name : COMPOSITE MATERIALS AND STRUCTURES

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Material science Ty 3 0/0 0/0 3

UNIT I MICROMECHANICS 10

Introduction - advantages and application of composite materials - types of reinforcements and matrices - micro

mechanics - mechanics of materials approach, elasticity approach- bounding techniques - fiber volume ratio -

mass fraction - density of composites, effect of voids in composites.

UNIT II MACROMECHANICS 10

Generalized Hooke's Law - elastic constants for anisotropic, orthotropic and isotropic materials -macro

mechanics - stress-strain relations with respect to natural axis, arbitrary axis - determination of in plane

strengths of a lamina - experimental characterization of lamina, failure theories of a lamina, hygrothermal

effects on lamina.

UNIT III LAMINATED PLATE THEORY 10

Governing differential equation for a laminate, stress - strain relations for a laminate, different types of

laminates, in plane and flexural constants of a laminate, hygrothermal stresses and strains in a laminate, failure

analysis of a laminate, impact resistance and interlaminar stresses, netting analysis

UNIT IV FABRICATION PROCESS AND REPAIR METHODS 8

Various open and closed mould processes, manufacture of fibers, importance of repair and different types of

repair techniques in composites - autoclave and non-autoclave methods.

UNITV SANDWICH CONSTRUCTIONS 7

Basic design concepts of sandwich construction - materials used for sandwich construction - failure modes of

sandwich panels - bending stress and shear flow in composite beams.

Total No. of Periods 45

TEXT BOOKS:

1. Dam Ishai., "Mechanics of Composite Materials,"

2. Autar K Kaw, 'Mechanics of Composite Materials', CRC Press, 1997.

3. Madhuji Mukhapadhyay, Mechanics of Composite Materials and Structures, University Press, 2004

REFERENCES:

1. Agarwal, B.D., and Broutman, L.J., "Analysis and Performance of Fibre Composites," John Wiley and sons.

Inc., New York, 1995.

2. Lubin, G., "Handbook on Advanced Plastics and Fibre Glass", Von Nostrand Reinhold Co., New York, 1989.

3. Calcote, L R. "The Analysis of laminated Composite Structures", Von - Nostrand Reinhold Company, New York

1998.Allen Baker, "Composite Materials for Aircraft Structures", AIAA Series, II Edition, 1999.


Subject

Code:

BAE20011

Subject Name :

AERODYNAMICS-II

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Aerodynamics-I Ty 3 0/0 0/0 3



OBJECTIVES:

To introduce the concepts of compressibility

To make the student understand the theory behind the formation of shocks and expansion fans in

Supersonic flows.

To introduce the methodology of measurements in Supersonic flows.


CO1 Calculate the compressible flow through a duct of varying cross section.(Level 3)

CO2 Use quasi one-dimensional theory to analyze compressible flow problems.(Level 3)

CO3 Estimate fluid properties in Rayleigh and Fanno type flows. (Level 5)

CO4 Estimate the properties across normal and oblique shock waves. (Level 6)

CO5 Predict the properties of hypersonic flows. (Level 4)



CO1 3 3 3 3 1 2 2 1 2 2 2 2

CO2 3 3 3 3 2 2 2 1 2 2 2 2

CO3 3 3 3 2 2 2 2 1 2 2 2 2

CO4 3 3 3 3 2 2 2 1 2 2 2 2

CO5 3 3 3 3 2 2 2 1 2 2 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code:

BAE20011

Subject Name :

AERODYNAMICS-II

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Aerodynamics-I Ty 3 0/0 0/0 3

OBJECTIVES:

• To introduce the concepts of compressibility,

• To make the student understand the theory behind the formation of shocks and expansion fans in Supersonic flows.

• To introduce the methodology of measurements in Supersonic flows.

UNIT I FUNDAMENTAL ASPECTS OF COMPRESSIBLE FLOW 9

Compressibility, continuity, momentum and energy equations for steady one dimensional flow, compressible bernoulli's

equation, area - mach number - velocity relation, mach cone, mach angle, one dimensional isentropic flow through variable

area duct, critical conditions, characteristic mach number, area-mach number relation, maximum discharge velocity -

operating characteristics of nozzles- introduction to hypersonic flows

UNIT II SHOCK AND EXPANSION WAVES 9

Normal shock relations, Prandtl's relation, Hugoniot equation, Rayleigh Supersonic Pitot tube

equation, Moving normal Shockwaves, Oblique shocks, ^ ~ P ~ ^relation, Shock Polar, Reflection of oblique shocks, left

running and right running waves, Interaction of oblique shock waves, slip line, shock-boundary layer interaction - transonic

lambda shock - compression corner effect - incident shock interaction - Rayleigh flow, Fanno flow, Expansion waves,

Prandtl-Meyer expansion, Maximum turning angle, Simple and non-simple regions.

UNIT III TWO DIMENSIONAL COMPRESSIBLE FLOW 9

Potential equation for 2-dimensional compressible flow, Linearisation of potential equation, perturbation potential,

Linearised Pressure Coefficient, Linearised subsonic flow, Prandtl-Glauert rule, Linearised supersonic flow, Method of

characteristics.

UNIT IV HIGH SPEED FLOW OVER AIRFOILS, WINGS AND AIRPLANE CONFIGURATION 9

Critical Mach number, Drag divergence Mach number, Shock Stall, Supercritical Airfoil Sections, Transonic area rule,

Swept wing, Airfoils for supersonic flows, Lift, drag, Pitching moment and Centre of pressure for supersonic profiles,

Shock-expansion theory, wave drag, supersonic wings, Design considerations for supersonic aircraft- aerodynamic heating.

UNIT V EXPERIMENTAL TECHNIQUES FOR HIGH SPEED FLOWS 9

Wind tunnels for transonic, Supersonic and hypersonic flows, shock tube, Gun tunnels-peculiar problems in the operation

of hypersonic tunnels - Supersonic flow visualization methods


TEXT BOOKS:

1. Anderson, J. D, "Modern Compressible Flow", McGraw-Hill & Co., 2002.

2. Rathakrishnan., E,"Gas Dynamics", Prentice Hall of India, 2004.

REFERENCES:

1.Shapiro, A. H., "Dynamics and Thermodynamics of Compressible Fluid Flow", Ronald Press, 1982.

2.Zucrow, M. J. and Anderson, J. D., "Elements of Gas Dynamics", McGraw- Hill & Co., 1989.

3. Oosthuizen.P.H., & Carscallen.W.E., "Compressible Fluid Flow", McGraw- Hill & Co.,1997


Subject Code:

BAE 20012

Subject Name :

PROPULSION - II Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Propulsion -I Ty 3 0/0 0/0 3



OBJECTIVES: To impart knowledge in non air-breathing and hypersonic propulsion methods to students so that

they are familiar with various propulsion technologies associated with space launch vehicles, missiles and space

probes.


CO1 Understand the fundamentals of hypersonic flows (Level 2)

CO2 Emphasize the rocket operating principles, Rocket staging, Rocket nozzleclassifications and performance

of rockets.(Level 5)

CO3 Compute in detail about solid propellant rockets and the various types ofPropellants used with their grain

structure and their burning rates. (Level 4)

CO4 Understand in detail about liquid and hybrid propellant rockets (Level 4)

CO5 Apply and understand about electric, ion rockets, basics of solar sails andits operating principle. (Level 2)



CO1 3 1 1 1 3 2 3 3

CO2 3 3 3 3 2 2 3 3

CO3 3 3 3 3 1 3 3 3

CO4 3 3 3 3 3 3 3 3

CO5 3 3 3 3 3 2 3 3


CO1 3 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


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Subject Code:

BAE 20012

Subject Name :

PROPULSION - II Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Propulsion -I Ty 3 0/0 0/0 3

UNIT I HYPERSONIC AIRBREATHING PROPULSION 8

Introduction to hypersonic air breathing propulsion, hypersonic vehicles and supersonic combustion-need for

supersonic combustion for hypersonic propulsion - salient features of scramjet engine and its applications for

hypersonic vehicles - problems associated with supersonic combustion -engine/airframe integration aspects of

hypersonic vehicles - various types scramjet combustors - fuel injection schemes in scramjet combustors - one

dimensional models for supersonic combustion using method of influence coefficients.

UNIT II FUNDAMENTALS OF CHEMICAL ROCKET PROPULSION 9

Operating principle - specific impulse of a rocket - internal ballistics - performance considerations of rockets -

types of igniters- preliminary concepts in nozzle-less propulsion - air augmented rockets -pulse rocket motors -

static testing of rockets & instrumentation -safety considerations

UNIT III SOLID ROCKET PROPULSION 10

Salient features of solid propellant rockets - selection criteria of solid propellants - estimation of solid

propellant adiabatic flame temperature - propellant grain design considerations - erosive burning in solid

propellant rockets - combustion instability - strand burner and T-burner - applications and advantages of solid

propellant rockets.

UNIT IV LIQUID AND HYBRID ROCKET PROPULSION 10

Salient features of liquid propellant rockets - selection of liquid propellants - various feed systems and

injectors for liquid propellant rockets -thrust control and cooling in liquid propellant rockets and the associated

heat transfer problems - combustion instability in liquid propellant rockets - peculiar problems associated with

operation of cryogenic engines - Introduction to hybrid rocket propulsion -standard and reverse hybrid

systems- combustion mechanism in hybrid propellant rockets -applications and limitations

UNITV ADVANCED PROPULSION TECHNIQUES 8

Electric rocket propulsion- types of electric propulsion techniques - Ion propulsion - Nuclear rocket -

comparison of performance of these propulsion systems with chemical rocket propulsion systems -future

applications of electric propulsion systems - Solar sail.


TEXT BOOKS:

1. Sutton, G.P., "Rocket Propulsion Elements", John Wiley & Sons Inc., New York, 5th

Edition, 1993.

2. Mathur, M.L., and Sharma, R.P., "Gas Turbine, Jet and Rocket Propulsion", Standard Publishers and

Distributors, Delhi, 1988.

REFERENCES:

1. James Award, "Aerospace Propulsion System"

2. Hieter and Pratt, "Hypersonic Air Breathing Propulsion


Subject Code:

BAE 20ET2/

BME18ET4

Subject Name: FINITE ELEMENT METHOD Ty/ Lb/

ETL

L T /

S.Lr

P/ R

C

Prerequisite: Mathematics – I&II, Mechanics of machines

, Engineering thermodynamics ETL

1 0/0 3/0 3




Fundamentals of finite element analysis and their applications.

OURSE OUTCOMES (COs) : The student will be able to

CO1 Understand the basic concepts in Finite Element Method. (Level 2)

CO2 Identify the application and characteristics of Finite Element Analysis elements. (Level 2)

CO3 Develop the element characteristic equations and generation of global equations. (Level 6)

CO4 Analyze the suitable boundary conditions to a global equation of FEA elements. (Level 4)

CO5 Apply FEA software to analyze the machine elements. (Level 3)



CO1 3 3 3 2 2 2 1 1 2 2 1 2

CO2 3 3 3 3 2 2 1 1 2 2 1 2

CO3 3 3 3 3 2 2 1 1 2 2 1 2

CO4 3 3 3 3 2 2 1 1 2 2 1 2

CO5 3 3 3 3 3 2 1 1 2 2 1 2


CO1 3 3 2 3

CO2 3 3 2 3

CO3 3 3 2 3

CO4 3 3 2 3

CO5 3 3 2 3


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Subject Code :

BAE20ET2/

BME18ET4

SUBJECT NAME : FINITE ELEMENT

METHOD Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Mathematics – I&II, Mechanics of

machines , Engineering thermodynamics

ETL 1 0/0 3/0 3

UNIT- I INTRODUCTION 9

Historical Background – Mathematical Modeling of field problems in Engineering –Governing Equations –

Discrete and continuous models – Boundary, Initial and Eigen Value problems– Weighted Residual Methods –

Variational Formulation of Boundary Value Problems – Ritz Technique – Basic concepts of the Finite Element

Method.

UNIT- IIONE-DIMENSIONAL PROBLEMS 9

One Dimensional Second Order Equations – Discretization – Element types- Linear and Higher order Elements –

Derivation of Shape functions and Stiffness matrices and force vectors-Assembly of Matrices - Solution of

problems from solid mechanics including thermal stresses-heat transfer. Natural frequencies of longitudinal

vibration and mode shapes. Fourth Order Beam Equation –Transverse deflections and Transverse Natural

frequencies of beams.

UNIT- III TWO DIMENSIONAL SCALAR VARIABLE PROBLEMS 9

Second Order 2D Equations involving Scalar Variable Functions – Variational formulation –Finite Element

formulation – Triangular elements and Quadrilateral elements- Shape functions and element matrices and vectors.

Application to Field Problems - Thermal problems – Torsion of Non circularshafts.

UNIT- IV TWO DIMENSIONAL VECTOR VARIABLE PROBLEMS 9

Equations of elasticity – Plane stress, plane strain and axisymmetric problems – Constitutive matrices and Strain

displacement matrices – Stiffness matrix – Stress calculations - Plate and shell elements.

UNIT- V ISOPARAMETRIC FORMULATION AND ADVANCED TOPICS 9

Natural co-ordinate systems – Isoparametric elements – Shape functions for isoparametric elements – One and

two dimensions – Serendipity elements – Numerical integration - Matrix solution techniques – Solutions

Techniques to Dynamic problems – Introduction to Analysis Software- Introduction to Non Linearity.

Lab Components

Design the following machine elements using CAD software, analyse using FEA software.

1.Shafts subjected to Bending Moment and TwistingMoment

2.Open and Closed coiled helical springs

3. Leaf Springs

4. Wire ropes for variousloads

5.Connectingrod

6. Design and simulation of linkages.

7. Simulation of Single Slider Crank chain Mechanism for I.C.Engines.

8.Simulation of 4 barmechanism.

9.Simulation of crank and slotted levermechanism.


TEXT BOOKS:

1.J.N.Reddy, ―An Introduction to the Finite Element Method‖, 3rd Edition, TataMcGrawHill,2005

2.Seshu, P, ―Text Book of Finite Element Analysis‖, Prentice-Hall of India Pvt. Ltd., NewDelhi,2007.

REFERENCES:

1. Logan, D.L., “A first Subject in Finite Element Method”, Thomson Asia Pvt. Ltd.,2002.

2. Robert D. Cook, David S. Malkus, Michael E. Plesha, Robert J. Witt, “Concepts and Applications of Finite

Element Analysis”, 4th Edition, Wiley Student Edition,2002.

3. Rao, S.S., “The Finite Element Method in Engineering”, 3rd Edition, Butter worth Heinemann, 2004. 4. Chandrupatla and Belagundu, “Introduction to Finite Elements in Engineering”, 3rd Edition, Ibrahim

Zeid, “Introduction to CAD/CAM”, Tata McGraw HillCo.


Subject Code:

BAE20L05

Subject Name :

AERODYNAMICS LABORATORY

Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Aerodynamics-I&II Lb 0 0/0 3/0 1



OBJECTIVES:

To predict different aerodynamic propulsion used in aero application.


CO1 Describe the fundamental aerodynamic and geometrical properties related to external flows over

airfoils, wings, and bluff bodies. (Level 3)

CO2 Calculate the aerodynamic forces and moments experienced by airfoils, wings and bluff bodies.

(Level 5)

CO3 Use thin aerofoil theory to evaluate the performance of thin airfoils and the effects of angle of

attack and camber. (Level 3)

CO4 Use wind tunnel instrumentation to measure flow velocity and lift and drag. (Level 3)

CO5 Visualize the flow and pressure distribution over 2D and 3D bodies by tuft and smoke methods. (Level 5)



CO1 3 3 3 2 2 2 2 1 2 1 2 2

CO2 3 3 3 2 2 2 2 1 2 2 2 2

CO3 3 3 3 2 2 2 2 1 2 2 2 2

CO4 3 3 3 2 2 2 2 1 2 2 2 2

CO5 3 3 3 2 2 2 2 1 2 2 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code :

BAE20L05

Subject Name : AERODYNAMICS

LABORATORY Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Aerodynamics I & II Lb 0 0/0 3/0 1

OBJECTIVES

• To predict different aerodynamic propulsion used in aero application

LIST OF EXPERIMENTS

1. Application of Bernoulli's Equation –venture meter and orifice meter.

2. Frictional loss in laminar flow through pipes. 3. Frictional loss in turbulent flow through pipes.

4. Calibration of a subsonic Wind tunnel.

5. Determination of lift for the given airfoil section.

6. Pressure distribution over a smooth circular cylinder.

7. Pressure distribution over a rough circular cylinder.

8. Pressure distribution over a symmetric aerofoil.

9. Pressure distribution over a cambered aerofoil.

10. Flow visualization studies in subsonic flows.



Subject Code:

BME20TS2

Subject Name:

TECHNICAL SKILL- II (EVALUATION)

Ty/Lb/

ETL

L T/

SLr

P/R C

Pre requisite: All Subjects Studied up to semester V Lb 0 0/0 3/0 1



OBJECTIVES:


OURSE OUTCOMES (COs) :





thestudents.




CO1 3 2 2 1 3 1 2 1 2

CO2 3 2 2 1 3 1 2 1 2

CO3 3 3 3 3 3 3 2 3 2 2

CO4 3 3 2 3 3 3 2 3 3 3

CO5 3 3 3 3 3 3 2 3 3 3


CO1 3 3 3 3

CO2 3 3 3 3

CO3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 3


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Subject

Code :

BAE20TS2

Subject Name : TECHNICAL SKILL - II Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : All Subjects Studied up to semester V Lb 0 0/0 3/0 1

Students should undergo training for at least 1 month in any industry/Training center/NPTEL- SWAYAM


during Viva-Voce examination to be conducted by the department


SEMESTER - VI


Subject

Code:

BAE20013

Subject Name : HEAT TRANSFER Ty/Lb/

ETL

L T/

S.Lr

P/R C

Prerequisite: Engineering Thermodynamics Ty 3 0/0 0/0 3


OBJECTIVES: To impart knowledge on various modes of heat transfer and methods of solving problems. Also

to give

exposure to numerical methods employed to solve heat transfer problems..


CO1 Understand the basic concept of conduction with and without heat generation also transfer

thermal energy through direct contact. (Level 2)

CO2 Analysis different methods of transfer thermal energy through the movement of a liquid or

gas to find overall heat transfer coefficient - (Level 3)

CO3 Radiation heat transfer through thermal emission of energy as electromagnetic waves or

moving subatomic particles. Also radiation heat exchange between different surfaces likegrey and black. (Level 4)

CO4 To analyze the heat transfer for 1-D and 2-D steady and unsteady state heat conduction using

finite difference approximation methods applicable to radiation heat transfer.(Level 6).

CO5 Study the heat transfer problems in gas turbines, rocket thrust chambers- aerodynamic heating

heat transfer(Level 5)



CO1 3 3 3 1 1 2 2 1 1 1 2 2

CO2 3 3 3 2 2 2 2 1 1 2 2 2

CO3 3 3 3 2 2 2 2 1 1 2 2 2

CO4 3 3 3 2 2 2 2 1 1 2 2 2

CO5 3 3 3 2 2 2 2 1 1 2 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject

Code:

BAE20013

Subject Name : HEAT TRANSFER Ty/Lb/ET

L

L T/

S.Lr

P/R C

Prerequisite: Engineering Thermodynamics Ty 3 0/0 0/0 3



OBJECTIVES:

• To impart knowledge on various modes of heat transfer and methods of solving problems. Also to give exposure to

numerical methods employed to solve heat transfer problems.

UNIT I CONDUCTION 8

Governing equation in cartesian, cylindrical and spherical coordinates. 1-D steady state heat conduction with and without

heat generation, composite wall- electrical analogy - critical thickness of insulation - heat transfer from extended surface -

effect of temperature on conductivity- 1-D transient analysis

UNIT II CONVECTION 12

Review of basic equations of fluid flow - dimensional analysis- forced convection - laminar flow over flat plate and flow

through pipes-flow across tube banks, turbulent flow over flat plate and flow through pipes - free convection - heat transfer

from vertical plate using integral method - empirical relations -types of heat exchangers - overall heat transfer coefficient -

LMTD and NTU methods of analysis.

UNIT III RADIATION 9

Basic definitions - concept of black body - laws of black body radiation-radiation between black surfaces - radiation heat

exchange between grey surfaces - radiation shielding - shape factor-electrical network analogy in thermal radiation

systems.

UNIT IV NUMERICAL METHODS IN HEAT TRANSFER 12

and 2-D steady and unsteady state heat conduction - composite walls-heat generation-variable thermal

conductivity- extended surfaces analysis using finite difference method- Convective heat transfer- Stream

function - vorticity method- creeping flow analysis-convection-diffusion 1-D, 2-D analysis using finite difference

approximation. Numerical methods applicable to radiation heat transfer.

UNITV PROBLEMS IN AEROSPACE ENGINEERING 4

Heat transfer problems in gas turbines, rocket thrust chambers- aerodynamic heating - ablative heat transfer


TEXT BOOKS:

1. Yunus.A.Cengel, "Heat Transfet-A Practical Approach", Tata McGraw Hill, Second edition, 2003.

2. Holman.J.P., "Heat Transfer", McGraw Hill Book Co.,Inc., New York, Sixth Edition,1991.

3. Sachdeva.S.C, "Fundamentals of Engineering Heat and Mass Transfer", Wiley EasternLtd., New Delhi,1981.

REFERENCES:

1. Lienhard.J.H., A Heat Transfer Text Book, Prentice Hall Inc., 1981.

2. Sutton,G.P., Rocket Propulsion Elements,John Wiley and Sons, Fifth Edition, 1986.

3. Mathur.M. and Sharma.R.P., Gas Turbine and Jet and Rocket Propulsion, Standard Publishers, New Delhi, 1988.


Subject

Code:

BAE20014

Subject Name :

AIRCRAFT DESIGN

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Engineering Mechanics, Strength of

Materials, Flight Mechanics Ty 3 0/0 0/0 3




To design different types of material handling systems used for engineering and process industries.


CO1 To familiarize with the various configurations of airplanes.

CO2 To familiarize with selection of proper power plant

CO3 To gain knowledge in performance parameters of airplanes

CO4 To expose the students with optimization of wing loading.

CO5 To impart knowledge in structural design of airplanes



CO1 1 2 3 1 1 1 1 1 1

CO2 1 2 3 1 1 1 1 1 1

CO3 1 2 3 1 1 1 1 1 1

CO4 1 2 3 1 1 1 1 1 1

CO5 1 2 3 1 1 1 1 1 1


CO1 2 3 1 1

CO2 2 3 1 1

CO3 2 3 1 1

CO4 2 3 1 1

CO5 2 3 1 1


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Subject Code :

BAE 20014

Subject Name : AIRCRAFT DESIGN Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Engineering Mechanics,

Strength of Materials, Flight Mechanics

Ty 3 0/0 0/0 3

COURSE OBJECTIVES: Of this course are

To familiarise with the various configurations of airplanes

To familiarise with selection of proper power plant

To gain knowledge in performance parameters of airplanes

To expose the students with optimization of wing loading.

To impart knowledge in structural design of airplanes

UNIT I REVIEW OF DEVELOPMENTS IN AIRPLANES 9

Categories and types of aircrafts – various configurations – Layouts and their relative merits

– strength, stiffness, fail safe and fatigue requirements – Maneuvering load factors – Gust and maneuverability envelopes –

Balancing and maneuvering loads on tailplanes

UNIT II POWER PLANT TYPES AND CHARACTERISTICS 9

Selection of power plants, Characteristics of different types of power plants – Propeller characteristics and selection –

Relative merits of location of power plant

UNIT III PRELIMINARY DESIGN 9

Selection of geometric and aerodynamic parameters – Weight estimation and balance diagram – Drag estimation of

complete aircraft – Level flight, climb, takeoff and landing calculations – range and endurance – static and dynamic

stability estimates –control requirements.

UNITIV SPECIAL PROBLEMS 9

Layout peculiarities of subsonic and supersonic aircraft – optimization of wing loading to achieve desired performance –

loads on undercarriages and design requirements

UNITV STRUCTURAL DESIGN 9

Estimation of loads on complete aircraft and components – Structural design of fuselage, wings and

undercarriages, controls, connections and joints. Materials for modern aircraft – Methods of analysis, testing

and fabrication.


TEXT BOOKS:

1. D.P. Raymer, ―Aircraft conceptual design‖, AIAA Series,1988

2. Mohammad H. Sadraey, ―Aircraft Design a Systems Engineering Approach‖, A John Wiley & Sons, Ltd.,

Publication, 1st edition.2013

REFERENCES:

1. G. Corning, “Supersonic & Subsonic Airplane Design”, II Edition, Edwards Brothers

Inc.,Michigan,1953.

2. E.F. Bruhn, “Analysis and Design of Flight Vehicle Structures”, Tristate Offset Co.,

U.S.A.,1980.

3. E. Torenbeek, “Synthesis of Subsonic Airplane Design”, Delft University Press, London,1976.

4. H.N.Kota, Integrated design approach to Design fly by wire” Lecture notes Interline Pub. Bangalore,1992.


Subject

Code:

BAE20015

Subject Name :

FUNDAMENTALS OF STRUCTURAL HEALTH

MONITORING

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering Physics II, Basic Electrical

and Electronics Engineering Ty 3 0/0 0/0 3




Advanced state of art materials, fabrication of structures and techniques of structural health monitoring.


CO1 Classify the various forms of functional materials. (Level 2)

CO2 Investigate the Piezoelectric material behaviour. (Level 4)

CO3 Investigate the behaviour of SMA material. (Level 5)

CO4 Model a beam with Piezoelectric patch. (Level 6)

CO5 Gain the knowledge on modelling of SMA material. (Level 6)



CO1 3 2 2 2 2

CO2 3 2 2 3 2 1 2

CO3 3 3 2 2 3 2 1 2

CO4 3 3 2 2 3 2 1 2

CO5 3 3 2 2 3 2 1 2


CO1 3 3

CO2 3 3 3

CO3 3 3 3

CO4 3 3 3

CO5 3 3 3


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Subject

Code:

BAE20015

Subject Name :

FUNDAMENTALS OF STRUCTURAL HEALTH

MONITORING

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering Physics II, Basic Electrical

and Electronics Engineering Ty 3 0/0 0/0 3



UNIT I OVERVIEW AND INTRODUCTION 9

Piezoelectric Material Crystal Structure – Fundamentals of Piezoelectricity – Shape Memory Alloys – Fundamentals of

Shape Memory Alloy (SMA) Behaviour – Phase Transformation – Lattice Structure and Deformation Mechanism –

Electrostrictive Material Systems – ER and MR Fluids – Current Application – Aerospace Field – Machine Tools –

Automotive Systems – Medical Systems – Electronics Equipment – Robots – Energy Harvesting Using Smart Materials.

UNIT II PIEZOELECTRIC THEORY 9

Electromechanical Constitutive Equations – Piezoceramic Actuator & Sensor Equations – Piezoelectric Coupling

Coefficients – Actuator Performance and Load Line Analysis – Hysteresis and Nonlinearities in Piezoelectric Materials –

Piezoceramic Actuators – Behavior under Static & Dynamic Excitation Fields – Depoling Behavior and Dielectric

Breakdown – Curie Temperature – Power Consumption – Equivalent Circuits to Model Piezoceramic Actuators – The

BimorphSensor.

UNIT III BEAM MODELLING WITH PIEZO ELECTRIC MATERIAL 9

Basic Definitions of Stress, Strains and Displacements in Beams – Transverse Deflection of Uniform Isotropic Beams –

Simple Blocked Force Beam Model (Pin Force Model) – Single Actuator Characteristics – Dual Actuators – Symmetric &

Asymmetric Actuation with Differential Voltages – Uniform Strain Model – Euler-Bernoulli Beam Model – Dissimilar

Actuators – Embedded Actuators – Testing of a Beam with Surface Mounted Piezoactuators

UNIT IV UNDERSTANDING SHAPE MEMORY ALLOYS (SMA) 9

Low Temperature Stress-Strain Curve – Origin of the One-Way Shape Memory Effect – Stress Induced Martensite and

Pseudoelasticity – Two-Way Shape Memory Effect – All-Round Shape Memory Effect – R-Phase Transformation –

Porous SMA – Constrained Behavior of SMA – Free Recovery – Constrained Recovery – Effective Load-Lines of an SMA

Wire Actuator – Sample Preparation – Transformation Temperatures under ZeroStress.

UNIT V CONSTITUTIVE MODELLING AND SMA BEHAVIOUR 9

Tanaka Model – Liang and Rogers Model – Brinson Model – Testing of SMA Wires –Variation of Transformation

Temperatures with Stress – Stress-Strain Behavior at ConstantTemperature– Stress-Temperature Behavior at Constant

Strain – Heat Absorbed by the SMA Wire – Thermomechanical Energy EquilibriumPower Requirements for SMA

Activation – Resistance Behavior of SMA Wires – Heat Dissipation – SMA Wire Damping Capacity.


TEXT BOOKS:

1. Inderjit Chopra and Jayant Sirohi,' Smart Structures Theory', Cambridge University Press,2014.

REFERENCES:

1. 1.J.W. Martin, Engineering Materials, Their properties and Applications, Wykedham Publications

(London) Ltd.,1987.

2. N.Prasad Eswara,Wanhill, R.J.H. Aerospace Materials and Material Technologies – Indian

Institute of Metals Series,2017.

3. Sam Zhang, 'Aerospace Materials Handbook (Advances in Materials Science and Engineering) 1st

Edition ,2016.

4. L.H. Van Vlack, Elements of Materials Science and Engineering PrenticeHall; Publishers, Sixth edition,

1989


Subject

Code:

BAE 20ET3

Subject Name : COMPUTATIONAL FLUID

DYNAMICS

Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Thermodynamics, Heat and Mass

transfer and Fluid Mechanics ETL 1 0/1 3/0 3



OBJECTIVES:Students will learn

Governing equation of fluid dynamics.

Methods of solving the equations by Finite element and Finite Volume methods

COURSE OUTCOMES (COs) : Students will be able to

CO1 Understand the fundamental knowledge of governing equations and boundary conditions(Level 3)

CO2 Analyze the conduction problems using finite difference method and numerical simulation using

CFDsoftware.(Level 4)

CO3 Solve the fluid flow problems in diffusion using finite volume method.(Level3)

CO4 Apply the one dimensional equation to solve convection problems using finite volume method and

numerical simulation using CFD software.(Level 3)

CO5 Calculate the fluid flow field using finite volume method and simulation using CFD software.(Level 4)



CO1 3 2 1 1 1 1 2 2 2 - 1

CO2 3 3 2 2 3 2 2 2 2 2 - 1

CO3 3 3 2 2 3 2 2 2 2 2 - 1

CO4 3 2 2 2 3 2 2 2 2 2 - 1

CO5 3 2 2 2 3 2 2 2 2 2 - 1


CO1 3 2 2 2

CO2 3 3 2 3

CO3 3 3 2 3

CO4 3 3 2 3

CO5 3 3 2 3


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Subject Code :

BAE 20ET3

Subject NameCOMPUTATIONAL FLUID

DYNAMICS Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Fluid Mechanics, Mathematics

III, Flight Mechanics

ETL 1 0/1 3/0 3

UNIT I: GOVERNING EQUATIONS AND BOUNDARY CONDITIONS 8

Basics of computational fluid dynamics – Governing equations of fluid dynamics – Continuity, Momentum and Energy

equations – Chemical species transport – Physical boundary conditions – Time-averaged equations for Turbulent Flow –

Turbulent–Kinetic Energy Equations – Mathematical behavior of PDEs on CFD - Elliptic, Parabolic and Hyperbolic

equations.

UNIT II: FINITE DIFFERENCE METHOD 9

Derivation of finite difference equations – Simple Methods – General Methods for first and second order accuracy –

solution methods for finite difference equations – Elliptic equations – Iterative solution Methods – Parabolic equations –

Explicit and Implicit schemes – Example problems on elliptic and parabolic equations.

UNIT III: FINITE VOLUME METHOD (FVM) FOR DIFFUSION 9

Finite volume formulation for steady state One, Two and Three -dimensional diffusion problems. One dimensional

unsteady heat conduction through Explicit, Crank – Nicolson and fully implicit schemes.

UNIT IV: FINITE VOLUME METHOD FOR CONVECTION DIFFUSION 10

Steady one-dimensional convection and diffusion – Central, upwind differencing schemes-properties of discretization

schemes – Conservativeness, Boundedness, Trasnportiveness, Hybrid, Power-law, QUICK Schemes.

UNIT V: CALCULATION FLOW FIELD BY FVM 9

Representation of the pressure gradient term and continuity equation – Staggered grid – Momentum equations – Pressure

and Velocity corrections – Pressure Correction equation, SIMPLE algorithm and its variants. Turbulence models, mixing

length model, Two equation (k-Є) models – High and low Reynolds number models

Lab Components:

1.Jet impact on flat and curved surfaces.

2.Structured grid generation over aerofoil

3.Measurement of drag on a circular cylinder in high Reynolds number flow.

4.Measurement of lift and drag flow ever an aerofoil

5.Numerical simulation of 1D diffusion and conduction in fluid flows

6.Numerical simulation of 1D convection-diffusion problems

7.Numerical simulation of 2D unsteady state heat conduction problem

8. Numerical simulation of 2D diffusion and 1D convection combined problem


TEXT BOOKS

1. T.J. Chung, (2002) “Computational Fluid Dynamics”, Cambridge University, Press.

2. Versteeg, H.K., and Malalasekera, W.,(1998) “An Introduction to Computational Fluid Dynamics: The finite volume

Method”, Longman.

3. Ghoshdastidar , P.S., (1998) ―Computer Simulation of flow and heat transfer”, Tata McGraw Hill Publishing

Company Ltd.

REFERENCES

1. Patankar, S.V. (2004) “Numerical Heat Transfer and Fluid Flow”, Hemisphere Publishing Corporation.

2. Muralidhar, K., and Sundararajan, T., (1995) “Computations Fluid Flow and Heat Transfer”, Narosa Publishing

House, NewDelhi.

3. Ghoshdastidar P.S., (2005) “Heat Transfer”, Oxford Unversity Press.

4. Prodip Niyogi, Chakrabarty .S.K., Laha .M.K. (2005) “Introduction to Computational Fluid Dynamics”, Pearson

Education.

5. Anil W. Date (2005) ―Introduction to Computational Fluid Dynamics”, Cambridge University Press


Subject Code:

BAE 20L06

Subject Name :

PROPULSION LABORATORY Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite: Propulsion I & II Lb 0 0/0 3/0 1



OBJECTIVES:

• To familiarize students and to expose them practically to various aircraft piston and gas turbine engines

• To give practical exposure to various testing methods of variable area ducts, propellants, jet engine

components and rockets

• To practically determine the flow behavior of jets


CO1 Gain knowledge about the various systems of aircraft piston engine and gas turbine engines. (Level 2)

CO2 Carry out experiments on free jet and wall jet. (Level 3)

CO3 Apply the cascade arrangement of a model axial compressor blade row. (Level 3)

CO4 Demonstrate the flame stabilization studies and carry out wall pressure measurement (Level 5)

CO5 Obtain velocity and pressure measurement and carry out flow visualization.(Level 4)



CO1 3 2 1 3 2 2 3 3

CO2 3 2 2 3 2 2 3 3

CO3 3 2 2 3 2 2 3 3

CO4 3 2 1 3 2 2 3 3

CO5 3 2 1 3 2 2 3 3

Cos /PSOs PSO1 PSO2 PSO3 PSO4

CO1 3 3 3

CO2 3 3 3

CO3 3 3 3

CO4 3 3 3

CO5 3 3 3


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Subject Code :

BAE20L06

Subject Name : PROPULSION

LABORATORY Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Propulsion-I &II Lb 0 0/0 3/0 1

OBJECTIVES:

• To familiarize students and to expose them practically to various aircraft piston and gas turbine engines

• To give practical exposure to various testing methods of variable area ducts, propellants, jet engine components

and rockets

• To practically determine the flow behavior of jets

LIST OF EXPERIMENTS

1. Study of aircraft piston and gas turbine engines

2. Velocity profiles of free jets. 3. Velocity profiles of wall jets. 4. Wall pressure measurements of a subsonic ramjet duct.

5. Flame stabilization studies using conical flame holders.

6. Cascade testing of compressor blades

7. Velocity and pressure measurements in co-axial jets

8. Flow visualization of secondary injection in a supersonic cross flow

9. Wall pressure distribution in subsonic diffusers.

10. Wall Pressure measurements in supersonic nozzles



Subject

Code:

BAE20L07

Subject Name :

AIRCRAFT DESIGN PROJECT

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: All Subjects in the earlier semesters Lb 0 0/0 3/0 1



To design different types of material handling systems used for engineering and process industries.


CO1 Comparative studies of different types of airplanes and their specifications and performance

details with reference to the design work under taken.

CO2 Preliminary weight estimation, Selection of design parameters, power plant selection, aerofoil

selection, fixing the geometry of Wing, tail, control surfaces Landing gear selection.

CO3 Preparation of layout drawing, construction of balance and three view diagrams of the airplane

under consideration.

CO4 Drag estimation, Performance calculations, Stability analysis and V-n diagram.



CO1 1 2 3 1 1 2 2 1 1

CO2 1 2 3 1 1 2 2 1 1

CO3 1 2 3 1 1 2 2 1 1

CO4 1 2 3 1 1 2 2 1 1


CO1 2 3 1 1

CO2 2 3 1 1

CO3 2 3 1 1

CO4 2 3 1 1


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Subject Code :

BAE20L07

Subject Name : AIRCRAFT DESIGN

PROJECT Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : All Subjects in the earlier

semesters

Lb 0 0/0 3/0 1

OBJECTIVES:

• To make the student work in groups and understand the Concepts involved in Aerodynamic design, Performance

analysis and stability aspects of different types of airplanes

1. Comparative studies of different types of airplanes and their specifications and performance details with reference

to the design work under taken.

2. Preliminary weight estimation, Selection of design parameters, power plant selection, aerofoil selection, fixing the

geometry of Wing, tail, control surfaces Landing gear selection.

3. Preparation of layout drawing, construction of balance and three view diagrams of the airplane under

consideration.

4. Drag estimation, Performance calculations, Stability analysis and V-n diagram.



Subject Code:

BEN 20SK2/

BEN18SK2

SOFT SKILL-II

(QUALITATIVE AND QUANTITATIVE

SKILLS)

T / L/

ETL

L T /

S.Lr

P/ R C

Prerequisite: Basic Mathematics. ETL 0 0/0 3/0 1

L : Lecture T:Tutorial SLr : Supervised Learning P : Project R : Research C:Credits


OBJECTIVES:

To bring behavioural patterns ofstudents.

To train them for corporateculture.

To create self awareness.

To buildconfidence.

To train the students for facing the interviews and develop interpersonal relationship.


CO1 Recognize and apply arithmetic knowledge in a variety of contexts.

CO2 Ability to identify and critically evaluate philosophical arguments and defend them from

criticism.

CO3 Gain the skill in solving H.C.F & L.C.M – Problem and Profit & Loss problems.

CO4 Gain the skill in solving the problems in Permutations & Combinations

CO5 Data Interpretation using different graphs.



CO1 3 3 3 3 3 3 1 1 3 2 3 3

CO2 2 2 2 3 1 3 1 3 3 3 3 1

CO3 3 3 3 3 3 3 2 2 3 3 3 3

CO4 3 3 3 3 3 3 1 1 3 2 3 3

CO5 2 2 2 3 1 3 1 3 3 3 3 1


CO1

CO2

CO3

CO4

CO5


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Subject Code :

BEN 20SK2/

BEN18SK2

Subject Name : SOFT SKILL II

(QUALITATIVE AND QUANTITATIVE SKILLS)

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Basic Mathematics ETL 0 0/0 3/0 1

UNIT I LOGICALREASONING I 6

Logical Statements – Arguments – Assumptions – Courses of Action.

UNIT II LOGICALREASONING II 6

Logical conclusions – Deriving conclusions from passages – Theme detection.

UNIT III ARITHMETICALREASONING I 6

Number system – H.C.F & L.C.M – Problem on ages – Percentage – Profit & Loss – Ratio &

Proportion – Partnership.

UNIT IV ARITHMETICALREASONING II 6

Time & Work – Time & Distance – Clocks – Permutations & Combinations – Heights & Distances –

Odd man out and Series.

UNIT VDATA INTERPRETATION 6

Tabulation – Bar graphs – Pie graphs – Line graphs.


REFERENCE BOOK:

1. R.S.Agarwal, A modern approach to Logical Reasoning, S.Chand & Co.,(2017).

2. R.S.Agarwal, A modern approach to Verbal and Non verbal Reasoning, S.Chand & Co.,(2017).

3. R.S.Agarwal, Quantitative Aptitude for Competitive Examinations, S.Chand & Co.,(2017).

4. A.K.Gupta, Logical and Analytical Reasoning, Ramesh Publishing House,(2014).

5. B.S.Sijwali, Indu sijwali, A new approach to Reasoning (Verbal and Non verbal), Arihant

Publishers,(2014).


Subject Code:

BAE20TS3

Subject Name: TECHNICAL SKILL - III T / L/

ETL

L T /

S.Lr

P/ R C

Pre requisite: All Subjects Studied Upto semester VI Lb 0 0/0 3/0 1



OBJECTIVES:


OURSE OUTCOMES (COs) :





thestudents.




CO1 3 2 2 1 3 1 M L M

CO2 3 2 2 1 3 1 M L M

CO3 3 3 3 3 3 3 2 H M M

CO4 3 3 2 3 3 3 2 H H H

CO5 3 3 3 3 3 3 2 H H H


CO1 3 3 3 3

CO2 3 3 3 3

CO3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 3


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Subject Code :

BAE20TS3

Subject Name : TECHNICAL SKILL - III Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : All Subjects Studied Upto

semester VI.

Lb 0 0/0 3/0 1

Students should undergo training for at least 1 month in any industry/Training center/NPTEL-SWAYAM


during Viva-Voce examination to be conducted by the department


SEMESTER -VII


Subject

Code:

BAE20016

Subject Name :

AIRLINE AND AIRPORT MANAGEMENT

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: None Ty 3 0/0 0/0 3




CO1 Understand about the Aviation‘s History ,its major players and it current trends and

challenges(Level 2)

CO2 Planning of the Airport and to perform operations involved in the Airport.(Level 4)

CO3 Know and interpret the Meteorological data‘s and to calculate the Airport fees, Rates and

Charges(Level 6)

CO4 Understand and adhere to the various Regulations involved Aviation Industry(level 3)

CO5 Understand about the Navigational and ATC control process(Level 4)



CO1 2 2 2

CO2 2 3 3 3 3 2 3 3 2 2

CO3 2 3 3 2 3 2 3 2

CO4 2 3 3 3 3 2 2

CO5 3 3 3 3 3 2 3 3 2 2


CO1 3

CO2 3 3

CO3 3

CO4 2

CO5 3 3


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Subject Code :

BAE 20016 Subject Name : AIRLINE AND AIRPORT

MANAGEMENT

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : None TY 3 0/0 0/0 3

UNIT I :INTRODUCTION 9

History of aviation – organisation, global & social environment – history of aviation - major players in the

airline industry - swot analysis of Different airline companies in india & abroad– market potential of Airline

industry in india – new airport development plans in india – Challenges and opportunities in airline industry

– domestic and

International from an indian perspective

UNIT II :AIRPORT INFRASTRUCTURE AND MANAGEMENT 9

Airport planning – air terminal planning, design and operation – airport operations – airport functions –

organisation structure in an airline - Airport authority of india (AAI) - functions of airport authority of india,

Comparison of global and indian airport management – role of AAI -Airline privatization -– partial

privatization

UNIT III :AIR TRANSPORT SERVICES 9

Various air transport services - international air transport services – Indian scenario – an overview of airports

in delhi, mumbai, hyderabad and Bangalore – the role of private operators – airport development and

Maintenance

UNITIV : INSTITUTIONAL FRAMEWORK 9

Role of dgca - slot allocation – methodology followed by ATC and DGCA -Management of bilaterals –

economic regulations

UNITV :AIR TRAFFIC CONTROLLING 9

Role of air traffic control - airspace and navigational aids – control Processes – case studies in airline

industry – Mumbai Delhi airport privatization – 6 cases in the airline industry


TEXT BOOKS:

1. Graham.A. (2001) ―Managing Airports: An International Perspective ― Butterworth - Heinemann, Oxford

2.Wells.A. (2000) ― Airport Planning and Management‖ , 4th Edition McGraw- Hill, London

REFERENCES:

1.Doganis. R. (1992) “ The Airport Business Routledge” , London

2.P S Senguttavan (2007) “Fundementals of Air Transport Management” , Excel Books

ONLINE SOURCES

https://en.wikipedia.org/wiki/Airport_and_airline_management

http://www.aci.aero/Global-Training/Training-Information

http://www.pondiuni.edu.in/sites/default/files/Air-faresmgt-070414.pdf

https://www.youtube.com/watch?v=RXcyC_j3U2c

https://ec.europa.eu/transport/sites/transport/files/modes/air/studies/doc/2015-10-

employment-and-working-conditions-in-air-transport-and-airports.pdf

http://highered.mheducation.com/sites/0073530123/student_view0/index.html

http://www.aci.aero/Global-Training/Training-Information

http://www.pondiuni.edu.in/sites/default/files/Air-faresmgt-070414.pdf

http://www.youtube.com/watch?v=RXcyC_j3U2c

http://highered.mheducation.com/sites/0073530123/student_view0/index.html


Subject

Code:

BAE20017

Subject Name : AVIONICS T y/ Lb/ ETL L T /

S.Lr

P/ R C

Prerequisite: Basic Electrical and Electronics

Engineering,Fundamentals of Instrument

and Control Engineering

Ty 3 0/0 0/0 3



OBJECTIVES:

To summarize the basic operation of avionics and its sub systems.

To recall the architecture of digital avionics for experimentation

To demonstrate the working of components used in flight decks and cockpits

To construct the functions of different navigation mechanisms in the real world

To test the characteristics of an auto pilot system


Upon the completion of this course the students will be able to

CO1 Summarize the basic operation of avionics and its sub systems(L2-Understanding)

CO2 Recall the architecture of digital avionics for experimentation(L1-Remembering)

CO3 Demonstrate the working of components used in flight decks and cockpits (L3-Applying)

CO4 Construct the functions of different navigation mechanisms in the real world(L3-Applying)

CO5 Test the characteristics of an auto pilot system (L4-Analyzing)



CO1 2 2 3 1 2 1 2 1 1 3 1 3

CO2 3 2 2 2 2 1 2 1 2 3 1 3

CO3 3 3 3 3 3 3 2 3 3 2 1 2

CO4 2 3 3 3 2 3 2 1 2 2 2 1

CO5 3 3 3 3 2 2 3 2 3 1 3 2

Cos /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 1 1 2

CO2 3 1 2 3

CO3 1 3 2 2

CO4 1 3 1 1

CO5 1 3 2 3


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Subject Code:

BAE20017

Subject Name : AVIONICS T y/ Lb/

ETL

L T /

S.Lr

P/ R C

Prerequisite: Basic Electrical and Electronics

Engineering,Fundamentals of Instrument and

Control Engineering.

Ty 3 0/0 0/0 3

UNIT I INTRODUCTION TO AVIONICS 9

Need for avionics in civil and military aircraft and space systems - integrated avionics and weapon systems - typical

avionics subsystems, design, technologies - Introduction to digital computer and memories.

UNIT II DIGITAL AVIONICS ARCHITECTURE 9

Avionics system architecture - data buses - MIL-STD-1553B - ARINC - 420 - ARINC - 629.

UNIT III FLIGHT DECKS AND COCKPITS 9

Control and display technologies: CRT, LED, LCD, EL and plasma panel - Touch screen - Direct voice input (DVI) - Civil

and Military Cockpits: MFDS, HUD, MFK, HOTAS.

UNIT IV INTRODUCTION TO NAVIGATION SYSTEMS 9

Radio navigation - ADF, DME, VOR, LORAN, DECCA, OMEGA, ILS, MLS - Inertial Navigation Systems (INS) -

Inertial sensors, INS block diagram - Satellite navigation systems - GPS.

UNIT V AIR DATA SYSTEMS AND AUTO PILOT 9

Air data quantities - Altitude, Air speed, Vertical speed, Mach Number, Total air temperature, Mach warning, Altitude

warning - Auto pilot - Basic principles, Longitudinal and lateral auto pilot.


TEXT BOOKS:

1. Albert Helfrick.D., "Principles of Avionics", Avionics Communications Inc., 2004

2. Collinson.R.P.G. "Introduction to Avionics", Chapman and Hall, 1996.

REFERENCES:

1. Middleton, D.H., Ed., "Avionics systems, Longman Scientific and Technical", Longman Group UK Ltd., England,

1989.

2. Spitzer, C.R. "Digital Avionics Systems", Prentice-Hall, Englewood Cliffs, N.J..U.S.A. 1993.

3. Spitzer. C.R. "The Avionics Hand Book", CRC Press, 2000

4. Pallet.E.H.J., "Aircraft Instruments and Integrated Systems", Longman Scientific


Subject

Code:

BAE20L08

Subject Name :

AIRCRAFT SYSTEMS LABORATORY

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Lb 0 0/0 3/0 1


OBJECTIVES: To train the students ―ON HAND‖ experience in maintenance of various air frame systems

inaircraft and rectification ofcommon snags.


CO1 Identify the importance of geometry by experimentally finding the shear centre and principle

stresses for open and closed section beams. (Level 2)

CO2 Calculate the bending stress for unsymmetrical bending of beams. (Level 2)

CO3 Determine the stress fringe value for photo-elastic materials. (Level 3)

CO4 Examine the bending, shear and torsional response of stiffened thin wall structures.(Level 4)

CO5 Determine the stresses in circular discs and beams using photo elastic techniques. (Level 5)



CO1 3 3 3 3 3 1 2 2

CO2 2 3 3 3 2 1 2 2

CO3 3 2 3 2 3 1 2 2

CO4 2 2 3 2 3 1 2 2

CO5 2 2 3 2 3 1 2 2


CO1 3 2 3

CO2 3 2 3 2

CO3 3 2 3 2

CO4 3 2 3 2

CO5 3 2 3


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Subject Code :

BAE20L08 Subject Name : AIRCRAFT SYSTEMS

LABORATORY Ty/Lb/

ETL

L T/

SLr P/R C


LIST OF EXPERIMENTS

1. Aircraft "Jacking Up" procedure

2. Aircraft "Levelling" procedure

3. Control System "Rigging check" procedure

4. Aircraft "Symmetry Check" procedure

5. "Flow test" to assess of filter element clogging

6. "Pressure Test" To assess hydraulic External/Internal Leakage

7. "Functional Test" to adjust operating pressure

8. "Pressure Test" procedure on fuel system components

9. "Brake Torque Load Test" on wheel brake units

10. Maintenance and rectification of snags in hydraulic and fuel systems.



Subject

Code:

BAE20L09

Subject Name :

AIRCRAFT REPAIR AND NON-DESTRUCTIVE

TESTING LABORATORY

Ty/Lb/

ETL

L T/

SLr

P/R C





How to repair aircraft structural materials and to test them by nondestructive testing method.


CO1 Understand practically aircraft repair and maintenance and NDT- tools and techniques (Level 2)

CO2 Obtain hands-on experience in area of NDT testing of structural components. (Level 3)

CO3 Demonstrate the basic surface preparation required for repairing aircraft structural parts. (Level 3)

CO4 Demonstrate the surface defects in aircraft structural parts using holography technique (Level 5)

CO5 Qualify the parts after carrying out repair/ and test them by NDT .(Level 5)



CO1 3 3 3 3 2 2 2 3 2 2 2 2

CO2 3 3 3 3 2 2 2 3 2 2 2 2

CO3 3 3 3 3 3 2 2 3 2 2 2 2

CO4 3 3 3 3 3 2 2 3 2 2 2 2

CO5 3 3 3 3 2 2 2 3 2 2 2 2


CO1 3 2 3 2

CO2 3 2 3 2

CO3 3 2 3 2

CO4 3 2 3 2

CO5 3 2 3 2


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Subject Code :

BAE 20L09

Subject Name : AIRCRAFT REPAIR AND

NON-DESTRUCTIVE TESTING

LABORATORY

Ty/Lb/

ETL

L T/

SLr

P/R C


1. Study of aircraft sheet metal, Plastics and Advanced composite repair and maintenance and NDT- tools and

techniques

2. Aircraft sheet metal lap joint using adhesive method

3. Aircraft sheet metal lap joint using riveting

4. Aircraft sheet metal lap joint using close tolerance fasteners

5. Testing of cracks in sheet metal and composite using die penetrate Non Destructive Test(NDT)

6. Fabrication of fiber reinforced advanced composite using hand lay-up method

7. Fabrication of Honey- comb advanced composite using hand lay-up method

8. Fabrication of aircraft wing with advanced composite using vacuum bag

9. Drilling and Repairing of fiber reinforced advanced composite using adhesive method

10. Drilling and Repairing of fiber reinforced advanced composite using riveting

11. Drilling and Repairing of fiber reinforced advanced composite using fasteners

12. Testing of sheet metal joint/ composite joint using Holography


Subject Code:

BAE20L10

Subject Name: PROJECT PHASE-I Ty/Lb/

ETL L

T/

SLr P/R C

Pre requisite: All Courses of earlier semesters Lb 0 0/0 3/3 2

L : Lecture T:Tutorial S Lr : Supervised Learning P : Project R : Research C:

Credits Ty/L/bETL : Theory/Lab/Embedded Theory andLab

OBJECTIVES: The student will Make use of the knowledge and skill developed during their four years of study and to apply them for making an

innovative product/process for the development of society andindustries.


CO1 Generate, develop and evaluate ideas and information so as to apply the skills acquired to the project

work

CO2 Ability to make links across different area of knowledge

CO3 Acquire skills to communicate effectively and present the ideas clearly

CO4 Acquire collaborative skills through working in team to achieve a common goal

CO5 Able to learn on their own, reflect on their learning and take appropriate actions to improve it.



CO1 3 3 3 3 3 3 3 3 H M H H

CO2 3 3 3 3 3 3 3 3 H M H H

CO3 2 2 3 3 2 2 2 - H H H H

CO4 3 2 3 3 2 2 2 - H H M H

CO5 3 3 3 3 3 3 3 - H H M H


CO1 3 3 3 3

CO2 3 3 3 3

CO3 2 2 2 2

CO4 3 3 3 3

CO5 3 3 3 3


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Subject Code :

BAE20L10

Subject Name : PROJECT PHASE - I Ty/Lb/

ETL

L T/

SLr

P/R C


Students should identify the topic of the Project and should collect the literatures and data.At the end of the

Semester the students should submit their Project Phase - I report to the Department and Viva -Voce examination will be

conducted with external examiners and this carries 3 credits.


Subject Code:

BHS 20FLX

SubjectName: FOREIGN LANGUAGE Ty/Lb/

ETL L

T/

SLr P/R C

Pre Requisite: Nil Lb 0 0/0 3/0 1

L : Lecture T:Tutorial SLr : Supervised Learning P : Project R : Research C:

Credits Ty/Lb/ETL : Theory/Lab/Embedded Theory andLab

OBJECTIVE : The main objective of this course is to equip the students with one foreign language which will enable

them for higher studies/professional career abroad


CO1 Students will gain the knowledge of identifying phonetics of all the letters in one foreign language

CO2 Students will gain the knowledge of reading small words and in one foreign language

CO3 Students will gain the knowledge of writing skill in one foreign language.

CO4 Students will gain the knowledge of reading skill in one foreign language

CO5 Students will gain the knowledge of spoken skill in one foreign language

Mapping of Course Outcomes with Program Outcomes

(POs)


CO1 M L L L L H H H H H H H

CO2 H M H H M H H H H H H M

CO3 H H H H M H H H H H H M

CO4 H M H H M H H H H H H M

CO5 H H H H M H H H H H H M

COs / PSOs PSO1 PSO2 PSO3 PSO4 PSO5

CO1

CO2

CO3

CO4

CO5

H/M/L indicates StrengthofCorrelation H- High, M- Medium,L-Low

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Subject Code :

BHS 20FLX

Subject Name : FOREIGN LANGUAGE Ty/Lb/

ETL

L T/

SLr

P/R C


Students should acquire proficiency in any one foreign language and submit a certificate in proof and submit during

examination.


SEMESTER -VIII


Subject

Code:

BAE 20018

Subject Name :

WIND TUNNEL TECHNIQUES

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Fundamentals of aircraft control and

Instrumentation system Ty 3 0/0 0/0 3




The principles, types and functions of wind tunnels and also learn about calibration and measurement techniques

of wind tunnel.


CO1 Understand the principles of model testing (Level 2)

CO2 Able to identify the design parameters for different types of wind tunnels (Level 4)

CO3 Calibrate and test the wind tunnels (Level 5)

CO4 Understand and apply the measurement techniques in wind tunnels (Level 3)

CO5 Expose to the special wind tunnel techniques (Level 3)



CO1 3 3 3 2 3 2 3 2 2 2

CO2 3 3 3 3 3 2 3 3 2 2

CO3 3 3 3 3 3 2 3 2 2 2

CO4 3 3 3 2 3 2 3 3 2 2 2

CO5 3 3 3 3 3 2 3 3 2 2 2


CO1 3 3 2

CO2 3 2 3

CO3 3 3 2 3

CO4 3 3 2 3

CO5 3 3 2 3


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Subject Code :

BAE20018

Subject Name : WIND TUNNEL

TECHNIQUES Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Fundamentals of aircraft control and Instrumentation system

Ty 3 0/0 0/0 3

UNIT I PRINCIPLES OF MODEL TESTING 6

Buckingham Theorem - Non dimensional numbers - Scale effect - Geometric Kinematic and Dynamic similarities.

UNIT II TYPES AND FUNCTIONS OF WIND TUNNELS 6

Classification and types - special problems of testing in subsonic, transonic, supersonic and hypersonic speed regions -

Layouts - sizing and design parameters.

UNIT III CALIBRATION OF WIND TUNNELS 9

Test section speed - Horizontal buoyancy - Flow angularities - Flow uniformity & turbulence measurements - Associated

instrumentation - Calibration of subsonic & supersonic tunnels.

UNIT IV CONVENTIONAL MEASUREMENT TECHNIQUES 12

Force measurements and measuring systems - Multi component internal and external balances -Pressure measurement

system - Steady and Unsteady Pressure- single and multiple measurements - Velocity measurements - Intrusive and Non-

intrusive methods - Flow visualization techniques-surface flow, oil and tuft - flow field visualization, smoke and other

optical and nonintrusive techniques.

UNITVSPECIAL WIND TUNNEL TECHNIQUES 12

Intake tests - store carriage and separation tests - Unsteady force and pressure measurements -wind tunnel model design


TEXT BOOKS:

1. Rae, W.H. and Pope, A., "Low Speed Wind Tunnel Testing", John Wiley Publication, 1984.

2. NAL-UNI Lecture Series 12:" Experimental Aerodynamics", NAL SP 98 01 April 1998

REFERENCES:

1. Pope, A., and Goin, L, "High Speed Wind Tunnel Testing", John Wiley, 1985.

2. Bradsaw "Experimental Fluid Mechanics".

3. Short term course on Flow visualization techniques, NAL , 2009

4. Lecture course on Advanced Flow diagnostic techniques 17-19 September 2008 NAL, Bangalore


Subject Code:

BAE20L11

Subject Name: PROJECT PHASE-II Ty/Lb/

ETL

L T/

SLr

P/R C

Pre requisite: All earlier semester courses, Project Phase-I Lb 0 0/0 12/12 8

L : Lecture T:Tutorial S Lr : Supervised Learning P : Project R : Research C:

Credits TY/LB/ETL: Theory/Lab/Embedded Theory andLab

OBJECTIVES: The student will make use of the knowledge and skill developed during their four years of study and to apply them for making an

innovative product/process for the development of society andindustries.


CO1 Generate, develop and evaluate ideas and information so as to apply the skills acquired to the project

work

CO2 Ability to make links across different area of knowledge

CO3 Acquire skills to communicate effectively and present the ideas clearly

CO4 Acquire collaborative skills through working in team to achieve a common goal

CO5 Able to learn on their own, reflect on their learning and take appropriate actions to improve it.



CO1 3 3 3 3 3 3 3 3 3 2 3 3

CO2 3 3 3 3 3 3 3 3 3 2 3 3

CO3 2 2 3 3 2 2 2 - 3 3 3 3

CO4 3 2 3 3 2 2 2 - 3 3 2 3

CO5 3 3 3 3 3 3 3 - 3 3 2 3


CO1 3 3 3 3

CO2 3 3 3 3

CO3 2 2 2 2

CO4 3 3 3 3

CO5 3 3 3 3


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Subject Code :

BAE20L11

Subject Name: PROJECT PHASE-II Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : All earlier semester courses,

Project Phase-I

Lb 0 0 12/12 8

The students in a group of 3 to 4 works on a topic approved by the head of the department under the guidance of a faculty

member and prepares a comprehensive project report after completing the work to the satisfaction of the supervisor. The

progress of the project is evaluated based on a minimum of three reviews. The review committee may be constituted by the

Head of the Department. A project report is required at the end of the semester. The project work is evaluated based on oral

presentation and the project report jointly by external and internal examiners constituted by the Head of the Department.



ELECTIVE- I


Subject

Code:

BAE20E01

Subject Name :

THEORY OF ELASTICITY

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering Mechanics, Strength of

Materials TY 3 0/0 0/0 3




To apply linear elasticity in the design and analysis of structures such as beams, plates and shells


CO1 Understand the basic concepts in continuum mechanics of solids, including of strain, internal

Force and stress (Level 2)

CO2 Apply principles of continuum mechanics to design a structure. (Level 3)

CO3 Apply hyper elasticity to determine the response of elastomer-based objects(Level 3)

CO4 Characterize materials with elastic constitutive relations. (Level 6)

CO5 Use analytical techniques to predict deformation, internal force and failure of simple

solids.(Level 5)



CO1 3 3 3 2 2 2 2 1 2 1 2 2

CO2 3 3 3 2 2 2 2 1 2 1 2 2

CO3 3 3 3 2 2 2 2 1 2 1 2 2

CO4 3 3 3 2 2 2 2 1 2 1 2 2

CO5 3 3 3 2 2 2 2 1 2 1 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code :

BAE20E01

Subject Name:THEORY OF ELASTICITY Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite : Engineering Mechanics, Strength of Materials

Ty 3 0 0 3

UNIT I BASIC EQUATIONS OF ELASTICITY 9

Definition of Stress and Strain: Stress - Strain relationships - Equations of Equilibrium, Compatibility equations, Boundary

Conditions, Saint Venant's principle - Principal Stresses, Stress Ellipsoid -Stress invariants.

UNIT II PLANE STRESS AND PLANE STRAIN PROBLEMS 9

Airy's stress function, Bi-harmonic equations, Polynomial solutions, Simple two dimensional problems in Cartesian

coordinates like bending of cantilever and simply supported beams.

UNIT III POLAR COORDINATES 9

Equations of equilibrium, Strain - displacement relations, Stress - strain relations, Airy's stress function, Axi - symmetric

problems, Introduction to Dunder's table, Curved beam analysis, Lame's, Kirsch, Michell's and Boussinesque problems -

Rotating discs.

UNIT IV TORSION 9

Navier's theory, St. Venant's theory, Prandtl's theory on torsion, semi- inverse method and applications to shafts of

circular, elliptical, equilateral triangular and rectangular sections. Membrane Analogy.

UNIT V INTRODUCTION TO THEORY OF PLATES AND SHELLS 9

Classical plate theory - Assumptions - Governing equations - Boundary conditions - Navier's method of solution for simply

supported rectangular plates - Levy's method of solution for rectangular plates under different boundary conditions.


REFERENCES:

1. Wang, C. T., "Applied Elasticity", McGraw-Hill Co., New York, 1993.

2. Sokolnikoff, I. S., "Mathematical Theory of Elasticity", McGraw-Hill, New York, 1978.

3. Volterra & J.H. Caines, "Advanced Strength of Materials", Prentice Hall, New Jersey, 1991

4. Barber, J. R., "Elasticity", Kluwer Academic Publishers, 2004


Subject

Code:

BAE20E02

Subject Name :

AIRCRAFT GENERAL ENGINEERING AND

MAINTENANCE PRACTICES

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite: Elements of Aeronautical

Engineering,Air carft reapair and non destructive

testing lab.

Ty

3

0/0

0/0

3



OBJECTIVES: To make the students learn basics of aircraft general engineering and maintenance practices.


CO1 Knowledge in various ground support system for aircraft operations to carryout ground

servicing of critical aircraft systems.(Level 3)

CO2 Knowledge in specifications standards of aircraft hardware systems.(Level 3)

CO3 Grasp the ground handling procedures and types of equipments with special

maintenance.(Level 1)

CO4 Ability to do shop safety, Environment cleanliness in an aircraft materials shop.(Level 2)

CO5 Understand the FAA airworthiness regulations and the checklist involved in each inspection

of aircraft.(Level 2)



CO1 3 3 3 3 3 3

CO2 3 3 3 3 3 3

CO3 3 3 3 3 3 3

CO4 3 3 3 3 3 3

CO5 3 3 3 3


CO1 3 2 2 1

CO2 3 2 2 1

CO3 3 2 2 1

CO4 3 2 2

CO5 3 2 2 1


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Subject Code :

BAE20E02

Subject Name:AIRCRAFT GENERAL

ENGINEERING AND MAINTENANCE PRACTICES

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: -- Elements of Aeronautical

Engineering,Air carft reapair and non destructive testing lab.

Ty

3

0/0

0/0

3

UNIT IAIRCRAFT GROUND HANDLING AND SUPPORT EQUIPMENT 10

Mooring, jacking, leveling and towing operations - Preparation - Equipment - precautions - Engine starting procedures -

Piston engine, turboprops and turbojets - Engine fire extinguishing - Ground power unit.

UNIT IIGROUND SERVICING OF VARIOUS SUB SYSTEMS

Air conditioning and pressurization - Oxygen and oil systems - Ground units and their maintenance.

8

UNIT IIIMAINTENANCE OF SAFETY

Shop safety - Environmental cleanliness - Precautions

5

UNIT IV INSPECTION 10

Process - Purpose - Types - Inspection intervals - Techniques - Checklist - Special inspection -Publications, bulletins,

various manuals - FAR Air worthiness directives - Type certificate Data sheets-ATA Specifications

UNITVAIRCRAFT HARDWARE, MATERIALS, SYSTEM PROCESSES 12

Hand tools - Precision instruments - Special tools and equipments in an airplane maintenance shopIdentification

terminology - Specification and correct use of various aircraft hardware (i.e. nuts, bolts, rivets, screws etc) - American and

British systems of specifications - Threads, gears, bearings, etc -Drills, tapes and reamers - Identification of all types of

fluid line fittings. Materials, metallic and non-metallic Plumbing connectors - Cables - Swaging procedures, tests,

Advantages of swaging over splicing.


TEXT BOOK

1. Kroes Watkins Delp, "Aircraft Maintenance and Repair", McGraw Hill, New York, 1993

REFERENCES

1. A&P Mechanics, "Aircraft Hand Book", F A A Himalayan Book House, New Delhi, 1996

2. A&P Mechanics," General Hand Book", F A A Himalayan Bok House, New Delhi, 1996


Subject

Code:

BAE20E03

Subject Name:

SPACE MECHANICS

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite:Engineering Physics, Engineering

Mechanics, Strength of Materials, Propulsion-I Ty 3 0/0 0/0 3



OBJECTIVES: The student will acquire

The knowledge towards the space mission


CO1 Understand the concepts of solar system (Level 2)

CO2 Describe the motions of N-body problem and the concepts of orbital mechanics. (Level 3)

CO3 Application of various satellite perturbation methods. (Level 4)

CO4 Develop the dynamic model in motion of orbiting bodies.(Level 6)

CO5 Design the various types of interplanetary trajectories. (Level 5)



CO1 3 3 3 2 2 2 2 1 2 2 2 2

CO2 3 3 3 2 2 2 2 1 2 2 2 2

CO3 3 3 3 2 2 2 2 1 2 2 2 2

CO4 3 3 3 2 2 2 2 1 2 2 2 2

CO5 3 3 3 2 2 2 2 1 2 2 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code:

BAE20E03

Subject Name:

SPACE MECHANICS

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite:Engineering Physics, Engineering Mechanics, Strength of Materials, Propulsion-I

Ty 3 0/0 0/0 3

UNIT I SPACE ENVIRONMENT 8

Peculiarities of space environment and its description- effect of space environment on materials of spacecraft structure and

astronauts- manned space missions - effect on satellite life time

UNIT II BASIC CONCEPTS AND THE GENERAL N-BODY PROBLEM 10

The solar system - reference frames and coordinate systems - terminology related to the celestial sphere and its associated

concepts - Kepler's laws of planetary motion and proof of the laws -Newton's universal law of gravitation - the many body

problem - Lagrange-Jacobi identity - the circular restricted three body problem - libration points - the general N-body

problem - two body problem - relations between position and time.

UNIT III SATELLITE INJECTION AND SATELLITE PERTURBATIONS 10

General aspects of satellite injection - satellite orbit transfer - various cases - orbit deviations due to injection errors -

special and general perturbations - Cowell's method and Encke's method - method of variations of orbital elements -

general perturbations approach.

UNIT IV INTERPLANETARY TRAJECTORIES 8

Two-dimensional interplanetary trajectories - fast interplanetary trajectories - three dimensional interplanetary trajectories -

launch of interplanetary spacecraft - trajectory estimation about the target planet - concept of sphere of influence -

Lambert's theorem

UNITV BALLISTIC MISSILE TRAJECTORIES 9

Introduction to ballistic missile trajectories - boost phase - the ballistic phase - trajectory geometry -optimal flights - time

of flight - re-entry phase - the position of impact point - influence coefficients.


TEXT BOOKS:

1. Cornelisse, J.W., "Rocket Propulsion and Space Dynamics", J.W. Freeman & Co.,Ltd, London,

1982

2. Parker, E.R., "Materials for Missiles and Spacecraft", McGraw Hill Book Co. Inc., 1982.

REFERENCES:


Edition, 1993.


Subject

Code:

BAE20E04

Subject Name :

INDUSTRIAL AERODYNAMICS

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Aerdynamics I &II Ty 3 0/0 0/0 3



• OBJECTIVES: To familiarize the learner with non-aeronautical uses of aerodynamics such as road

vehicle, building aerodynamics and problems of flow induced vibrations.


CO1 Use of aerodynamics for non-aerodynamics such as vehicle, building. (Level 3)

CO2 Identify the atmospheric boundary layer and applications of wind energy collectors. (level 3)

CO3 Solve the problems and able to analyse vibrations during flow (Level 5)

CO4 Analyze the aerodynamics of road vehicles, building and problems of flow induced vibrations.

(Level 4)

CO5 Analyze the model measurements, Lift and drag measurements though various techniques and

testing of different models. (Level 4)



CO1 2 3

CO2 3 2 2

CO3 3

CO4 2 3 3 2

CO5 3


CO1 3 2

CO2

CO3 3

CO4 2 2

CO5 2


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Subject Code:

BAE20E04

Subject Name :

INDUSTRIAL AERODYNAMICS

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Aerdynamics I &II Ty 3 0/0 0/0 3

UNIT I ATMOSPHERE 9

Types of winds, Causes of variation of winds, Atmospheric boundary layer, Effect of terrain on gradient height, Structure

of turbulent flows.

UNIT II WIND ENERGY COLLECTORS 9

Horizontal axis and vertical axis machines, Power coefficient, Betz coefficient by momentum theory.

UNIT III VEHICLE AERODYNAMICS 9

Power requirements and drag coefficients of automobiles, Effects of cut back angle, Aerodynamics of trains and

Hovercraft.

UNIT IVBUILDING AERODYNAMICS 9

Pressure distribution on low rise buildings, wind forces on buildings. Environmental winds in city blocks, Special

problems of tall buildings, Building codes, Building ventilation and architectural aerodynamics.

UNITV FLOW INDUCED VIBRATIONS 9

Effects of Reynolds number on wake formation of bluff shapes, Vortex induced vibrations, Galloping and stall flutter.


TEXT BOOKS:

1. M.Sovran (Ed), "Aerodynamics and drag mechanisms of bluff bodies and Road vehicles", Plenum press, New

York, 1978.

2. Sachs. P., "Winds forces in Engineering", Pergamon Press, 1978.

REFERENCES:

1. Blevins. R.D., "Flow Induced Vibrations", Van Nostrand, 1990.

2. Calvent. N.G., "Wind Power Principles", Charles Griffin & Co., London, 1979.


Subject Code :

BAE 20E05/

BME18E03

Subject Name : TURBO MACHINES Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: GDJP, Fluid Mechanics,

Thermal Engineering Ty 3 0/0 0/0 3



OBJECTIVE: The course aims at giving an overview of different types of turbo machinery used for energy

transformation, such as pumps, fans, compressors, as well as hydraulic, steam and gas-turbines.

COURSE OUTCOMES (COs) : The Student will be able to

CO1 Understand the concepts of turbo machines and its applications. (Level 2)

CO2 Analyze the performance of turbo machines using first law of thermodynamics. (Level 4)

CO3 Solve the turbo machines problems using velocity triangle concepts. (Level 3)

CO4 Understand the working principles of centrifugal and axial flow compressors and analyse its

performance. (Level 2)

CO5 Calculate stage losses, stage efficiency and pressure ratio in axial flow compressor. (Level 3)

CO6 Evaluate the performance characteristics of axial and radial flow turbines. (Level 4)



CO1 3 2 1 - - 1 1 1 1 1 - 1

CO2 3 3 2 1 - 1 1 1 1 2 - 1

CO3 3 3 3 1 - 1 1 1 1 2 - 1

CO4 3 3 2 - - 1 1 1 1 1 - 1

CO5 3 3 2 1 - 1 1 1 1 2 - 1

CO6 3 3 2 1 - 2 1 2 1 2 - 1


CO1 3 2 2 1

CO2 3 2 2 1

CO3 3 2 2 1

CO4 3 2 2 1

CO5 3 2 2 1

CO6 3 2 2 1


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Subject

Code :

BAE 20E05/

BME18E03

Subject Name : TURBO MACHINES Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: GDJP, Fluid Mechanics, Thermal Engineering

Ty 3 0/0 0/0 3

UNIT- 1 INTRODUCTION 9

Definition of turbo machine, parts of turbo machines, Comparison with positive displacement machines,

Classification, Application of first and second laws of thermodynamics to turbo machines.

UNIT- 2 ENERGY EXCHANGE INTURBOMACHINES 9

Euler‘s turbine equation, Velocity triangles for different values of degree of reaction, Components of energy

transfer, Degree of Reaction, utilization factor, Relation between degree of reaction and Utilization factor.

UNIT- 3 CENTRIFUGALCOMPRESSORS 9

Construction details, types, impeller flow losses, slip factor, diffuser analysis losses and performance curves.

UNIT- 4 AXIAL AND RADIALFLOW COMPRESSORS 9

Axial and radial flow compressors and pumps– general analysis, Effect of blade discharge angle on performance,

Theoretical head – capacity relationship.

UNIT- 5 AXIAL AND RADIALFLOW TURBINES 9

Velocity diagrams, losses and coefficients, blade design principles, testing and performance characteristics.

Total No.of Periods 45

TEXT BOOKS:

1. Gas Turbine, V.Ganesan, Tata McGraw Hill Co. Ltd., 3rd edition,2010

2. Turbines, Compressors & Fans, S. M. Yahya, Tata McGraw HillCo. Ltd., 2nd edition,2002

REFERENCE BOOKS:

1. D. G. Shepherd, “Principals of Turbo machines” , the Macmillan Company(1964).

2. S. L.Dixon, “Fluid Mechanics & Thermodynamics of Turbo machines”, Elsevier(2005).

3. B.K.Venkanna, “Turbomachine”, PHI, New Delhi 2009.

4. M. S. Govindgouda and A. M.Nagaraj, “A Text Book of Turbomachines”, , M. M. Publications, 4Th Ed,2008.

5. V. Kadambi and Manohar Prasad, “An Introduction to Energy Conversion, Volume III, Turbo

machinery”, New Age International Publishers, reprint2008.


ELECTIVE- II


Subject Code :

BAE 20E06

Subject Name : HELICOPTER THEORY Ty/Lb/

ETL

L T/S

Lr

P/R C

Prerequisite : Elements of Aeronautical

Engineering

Ty 3 0/0 0/0 3



OBJECTIVES :

• To make the student familiarize with the principles involved in helicopters and to study the performance and

stability aspects of Helicopter under different operating conditions. .

COURSE OUTCOMES (Cos) Students completing the course were able to

CO1 To perform the Aerodynamics calculation of Rotor blade (Level 4)

CO2 Analyze and control Rotor vibration(Level 4)

CO3 Understand stability and control characteristics of Helicopter (Level 4)

CO4 Expose to the power plants and flight performance (Level 3)

CO5 Demonstrate the Stress analysis of the blade (Level 4)



CO1 3 3 3 3 3 2 3 2 2 2

CO2 3 3 3 3 3 2 3 2 2 2

CO3 3 3 3 3 3 2 3 2 2 2

CO4 3 3 3 3 3 2 2 2 2 2

CO5 3 3 3 3 3 2 2 2 2 2

Cos /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 3 3

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3

CO5 3 2 3

H/M/L indicates strength of correlation H – High, M – Medium, L – Low

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Subject Code :

BAE 20E06

Subject Name : HELICOPTER THEORY Ty/Lb/ETL L T/SLr P/R C

Prerequisite : Elements of Aeronautical Engineering

Ty 3 0/0 0/0 3

UNIT I INTRODUCTION 9

Helicopter as an aircraft, Basic features, Layout, Generation of lift, Main rotor, Gearbox, tail rotor, power plant,

considerations on blade, flapping and feathering, Rotor controls and various types of rotor, Blade loading, Effect

of solidity, profile drag, compressibility etc., Blade area required, number of Blades, Blade form, Power losses,

Rotor efficiency.

UNIT II AERODYNAMICS OF ROTOR BLADE 9

Aerofoil characteristics in forward flight, Hovering and Vortex ring state, Blade stall, maximum lift of the

helicopter calculation of Induced Power, High speed limitations; parasite drag, power loading, ground effect.

UNIT III POWER PLANTS AND FLIGHT PERFORMANCE 9

Piston engines, Gas turbines, Ramjet principle, Comparative performance, Horsepower required, Range and

Endurance, Rate of Climb, Best Climbing speed, Ceiling in vertical climb, Autorotation.

UNIT IV STABILITY AND CONTROL 9

Physical description of effects of disturbances, Stick fixed Longitudinal and lateral dynamic stability, lateral

stability characteristics, control response. Differences between stability and control of airplane and helicopter.

UNITV ROTOR VIBRATIONS 9

Dynamic model of the rotor, Motion of the rigid blades, flapping motion, lagging motion, feathering motion,

Properties of vibrating system, phenomenon of vibration, fuselage response, vibration absorbers, Measurement

of vibration in flight. Rotor Blade Design: General considerations, Airfoil selection, Blade construction,

Materials, Factors affecting weight and cost, Design conditions, Stress analysis.


TEXT BOOKS:

1. John Fay, "The Helicopter and How It Flies", Himalayan Books 1995

2. Lalit Gupta, "Helicopter Engineering", Himalayan Books New Delhi 1996

REFERENCES:

1. Joseph Schafer, "Basic Helicopter Maintenance", Jeppesen 1980

2. R WProuty, "Helicopter Aerodynamics"


Subject

Code:

BAE 20E07

Subject Name :

EXPERIMENTAL STRESS ANALYSIS

Ty/Lb/E

TL

L T/

SLr

P/R C

Prerequisite: Engineering Mechanics,Strength of

Materials. Ty 3 0/0 0/0 3




The Various Experimental techniques involved for measuring displacement, stresses and strain in structural

components and also NDT techniques.


CO1 Analyze the performance of measuring instrumentation(Level 4)

CO2 Impart knowledge on different methods of strain measurement (Level 2)

CO3 Design different strain gauge circuits (Level 4)

CO4 Use photoelasticity for stress analysis (Level 3)

CO5 Expose to the different types of Non Destructive Testing methods(Level 3)



CO1 3 3 2 2 2 2 2 2

CO2 3 2 2 2 2 2 2

CO3 3 3 3 3 2 2 2 2 2

CO4 3 3 3 3 3 2 2 2 2

CO5 3 3 2 3 2 2 2


CO1 3 2 2

CO2 3 3 3

CO3 3 3 3 3

CO4 3 3 3

CO5 3 3 3


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Subject Code:

BAE 20E07

Subject Name :

EXPERIMENTAL STRESS ANALYSIS

Ty/Lb/ETL L T/

SLr

P/R C

Prerequisite: Engineering

Mechanics,Strength of Materials. Ty 3 0/0 0/0 3

UNIT I BASICS OF MECHANICAL MEASUREMENTS 9

Basic Characteristics and Requirements of a Measuring System – Principles ofMeasurements– Precision, Accuracy,

Sensitivity and Range of Measurements – Sources of Error – Statistical Analysis of Experimental Data – Contact

Type Mechanical Extensometers – Advantages and Disadvantages – Examples of Non -Contact Measurement

Techniques

UNIT II ELECTRICAL-RESISTANCE STRAIN GAUGES 9

Strain Sensitivity in Metallic Alloys – Gage Construction – Gage Sensitivities and Gage FactorCorrections for

Transverse Strain Effects – Performance Characteristics of Foil StrainGagesMaterials Used for Strain Gauges –

Environmental Effects – The Three-Element Rectangular Rosette for Strain Measurement – Other Types of Strain

Gages – Semiconductor StrainGagesGrid & Brittle Coating Methods of StrainAnalysis

UNIT III STRAIN-GAUGE CIRCUITS & INSTRUMENTATION 9

The Potentiometer Circuit and Its Application to Strain Measurement – Variations From Basic Circuit –Circuit

Output – The Wheatstone Bridge Circuit – Current and Constant Voltage Circuits – Analog to Digital conversion –

Calibrating Strain-Gage Circuits – Effects of Lead Wires and Switches – Electrical Noise -– Strain Measurement in

Bars, Beams and Shafts – Circuit Sensitivity & Circuit Efficiency.

UNIT IV PHOTOELASTIC METHODS OF STRESS ANALYSIS 9

Introduction to Photoelastic Methods – Stress-Optic Law – Effects of a Stressed Model in a Plane Polariscope –

Effects of a Stressed Model in a Circular Polariscope - Tardy Compensation - Two-Dimensional Photoelastic Stress

Analysis – Fringe Multiplication and Fringe Sharpening - Materials for Two-Dimensional Photoelasticity -

Properties and Calibration of Commonly Employed Photoelastic Materials – Introduction to Three-Dimensional

Photoelasticity.

UNIT V NON-DESTRUCTIVE TESTING 9

DifferenttypesofNDTTechniques-AcousticEmissionTechnique–Ultrasonics–Pulse-Echo– Through Transmission –

Eddy Current Testing – Magnetic Particle Inspection – X-Ray Radiography – Challenges in Non-Destructive

Evaluation – Non-Destructive Evaluationin

Composites – Image Processing Basics.


TEXT BOOKS:

1. Dally, J.W., and Riley, W.F., Experimental Stress Analysis, McGraw Hill Inc., New York 1998.

2. Sadhu Singh, Experimental Stress Analysis, Khanna Publishers, New Delhi,2009.

3. Srinath, L.S., Raghava, M.R., Lingaiah, K., Garagesha, G., Pant B., and Ramachandra, K.,

4. Experimental Stress Analysis, Tata McGraw Hill, NewDelhi,1984.

REFERENCES:

1. Albert1. Kobayashi,'HandbookonExperimentalMechanics,PrenticeHall Publishers,2008.

2. Durelli, A.J.Applied Stress Analysis, Prentice Hall of India Pvt Ltd., New Delhi,1970.

Hetenyi, M., Hand book of Experimental Stress Analysis, John Wiley and Sons Inc., New York,1972.

3.JamesF.DoyleandJamesW.Phillips,'ManualonExperimentalStressAnalysis',5th

Edition,1989.

Ramesh, K., Digital Photoelasticity, Springer, New York,2000.


Subject

Code:

BAE20E08

Subject Name:

FATIGUE AND FRACTURE MECHANICS Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Engineering Mechanics, Strength of Materials& Flight Mechanics.

Ty 3 0/0 0/0 3




• To analyse the fracture mechanism under various conditions.


CO1 Identify and describe the basic fracture and fatigue mechanisms(Level 2)

CO2 Understand crack resistance and energy release rate for crack criticality.(Level 3)

CO3 Application of Linear Elastic Fracture Mechanics on brittle materials.(Level 4)

CO4 Correctly identify the cause of failure of a material based on fracture surface observations.

(Level 6)

CO5 Understanding of experimental techniques to determine the critical values of parameters at

crack tip(Level 5)



CO1 3 3 3 2 1 2 2 1 2 1 2 2

CO2 3 3 3 2 2 2 2 1 2 1 2 2

CO3 3 3 3 2 2 2 2 1 2 1 2 2

CO4 3 3 3 2 2 2 2 1 2 1 2 2

CO5 3 3 3 2 2 2 2 1 2 1 2 2


CO1 3 3 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code:

BAE20E08

Subject Name:

FATIGUE AND FRACTURE MECHANICS

Ty/Lb/ETL L T/

SLr

P/R C

Prerequisite: Engineering Mechanics,Strength of Materials& Flight Mechanics.

Ty 3 0/0 0/0 3

UNIT I FATIGUE OF STRUCTURES 7

S.N. curves - Endurance limits - Effect of mean stress, Goodman, Gerber and Soderberg relations and

diagrams - Notches and stress concentrations - Neuber's stress concentration factors - Plastic stress

concentration factors - Notched S.N. curves - Fatigue of composite materials.

UNIT II STATISTICAL ASPECTS OF FATIGUE BEHAVIOUR 10

Low cycle and high cycle fatigue - Coffin - Manson's relation - Transition life - cyclic strain hardening and

softening - Analysis of load histories - Cycle counting techniques -Cumulative damage - Miner's theory -

Other theories.

UNIT IIIPHYSICAL ASPECTS OF FATIGUE 10

Phase in fatigue life - Crack initiation - Crack growth -surfaces.Final Fracture - Dislocations - fatigue

fracture

UNIT IV FRACTURE MECHANICS 10

Strength of cracked bodies - Potential energy and surface energy - Griffith's theory - Irwin - Orwin extension

of Griffith's theory to ductile materials - stress analysis of "cracked bodies - Effect of thickness on fracture

toughness" - stress intensity factors for typical 'geometries.

UNITV FATIGUE DESIGN AND TESTING 8

Safe life and Fail-safe design philosophies - Importance of Fracture Mechanics in aerospace structures -

Application to composite materials and structures


TEXT BOOKS:

1. Prasanth Kumar, "Elements of fracture mechanics", Wheeter publication, 1999.

2. Barrois W, Ripely, E.L., "Fatigue of aircraft structure," Pergamon press. Oxford, 1983.

REFERENCES:

1. Sih C.G., "Mechanics of fracture." Vol - I, Sijthoff and w Noordhoff International Publishing Co.,

Netherlands, 1989.

2. Knott, J.F., "Fundamentals of Fracture Mechanics," - Buterworth & Co., Ltd., London, 1983.

3. Kare Hellan .'Introduction to Fracture Mechanics', McGraw Hill, Singapore, 1985


Subject Code :

BAE 20E09

Subject Name : UAV SYSTEMS Ty/Lb

/ETL

L T/SLr P/R C

Prerequisite : Elements of Aernautical

Engineering

Ty 3 0/0 0/0 3



OBJECTIVES :

• To make the students to understand the basic concepts of UAV systems design


Students completing the course were able to

CO1 Outline the fundamentals of UAV(2)

CO2 Illustrate the designs of UAV systems(4)

CO3 Understand the principles and applications of Avionics hardware (3)

CO4 Estimate the payloads and operation range of UAV.(4)

CO5 Test the UAV and develop ground control software (4)



CO1 3 2

CO2 3 3 3 3 3 3 3 2 2 3 2 2

CO3 3 3 3 3 2 2 2 2

CO4 3 3 3 3 3 2 2 2 2 2 2

CO5 3 3 3 3 3 3 2 2 2 2 2


CO1 3

CO2 3 3 2

CO3 3 3 3

CO4 3 3 3

CO5 3 3


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Subject Code :

BAE 20E09

Subject Name : UAV SYSTEMS Ty/Lb/ETL L T/SLr P/R C

Prerequisite : Elements of Aernautical Engineering

Ty 3 0/0 0/0 3

UNIT I INTRODUCTION TO UAV 9

History of UAV -classification - Introduction to Unmanned Aircraft Systems-models and prototypes -System

Composition-applications

UNIT II THE DESIGN OF UAV SYSTEMS 9

Introduction to Design and Selection of the System- Aerodynamics and Airframe Configurations-

Characteristics of Aircraft Types- Design Standards and Regulatory Aspects-UK,USA and Europe-Design for

Stealth-control surfaces-specifications.

UNIT III AVIONICS HARDWARE 9

Autopilot - AGL-pressure sensors-servos-accelerometer -gyros-actuators- power supply-processor, integration,

installation, configuration, and testing

UNIT IV COMMUNICATION PAYLOADS AND CONTROLS 9

Payloads-Telemetry-tracking-Aerial photography-controls-PID feedback-radio control frequency range -

modems-memory system-simulation-ground test-analysis-trouble shooting

UNIT V THE DEVELOPMENT OF UAV SYSTEMS 9

Waypoints navigation-ground control software- System Ground Testing- System In-flight Testing-Future

Prospects and Challenges-Case Studies - Mini and Micro UAVs.


REFERENCES:

1. Reg Austin "Unmanned Aircraft Systems UAV design, development and deployment", Wiley, 2010.

2. Robert C. Nelson, Flight Stability and Automatic Control, McGraw-Hill, Inc, 1998.

3. Kimon P. Valavanis, "Advances in Unmanned Aerial Vehicles: State of the Art and the Road to Autonomy",

Springer, 2007

4. Paul G Fahlstrom, Thomas J Gleason, "Introduction to UAV Systems", UAV Systems, Inc, 1998

5. Dr. Armand J. Chaput, "Design of Unmanned Air Vehicle Systems", Lockheed Martin Aeronautics Company,

2001


Subject

Code:

BAE20E10

Subject Name :

DISASTER MANAGEMENT

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: NIL Ty 3 0/0 0/0 3

L : Lecture T : Tutorial S.Lr : Supervised Learning P : Practical : Research C: Credits


OBJECTIVES:

• To provide students an exposure to disasters, their significance and types.

• To ensure that students begin to understand the relationship between vulnerability, disasters,

disaster prevention and risk reduction.

.


CO1 Understanding various types of disasters, their causes and impacts. (Level 2)

CO2 Apply the various disaster risk reduction approaches (Level 3)

CO3 Analyze the relationship between disaster and development (Level 4)

CO4 Application of technologies in disaster relief(Level 3)

CO5 Conduct of case studies on various disasters like earth quake, drought, flooding etc(Level 5)



CO1 3 3 3 2 1 3 3 1 2 1 2 2

CO2 3 3 3 3 2 3 3 1 2 2 2 2

CO3 3 2 3 2 2 3 3 2 2 2 2 2

CO4 3 3 3 3 3 3 1 1 2 2 2 2

CO5 3 3 3 3 3 2 2 1 2 2 2 2


CO1 2 2 2 3

CO2 2 2 2 3

CO3 2 2 2 3

CO4 2 2 2 3

CO5 2 2 2 3


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Subject Code:

BAE20E10

Subject Name :

DISASTER MANAGEMENT

Ty/Lb/ET

L

L T/

SLr

P/R C


UNIT I INTRODUCTION TO DISASTERS 9

Definition: Disaster, Hazard, Vulnerability, Resilience, Risks - Disasters: Types of disasters -Earthquake,

Landslide, Flood, Drought, Fire etc - Classification, Causes, Impacts including social, economic, political,

environmental, health, psychosocial, etc.- Differential impacts- in terms of caste, class, gender, age, location,

disability - Global trends in disasters: urban disasters, pandemics, complex emergencies, Climate change-

Dos and Don'ts during various types of Disasters.

UNIT II APPROACHES TO DISASTER RISK REDUCTION (DRR) 9

Disaster cycle - Phases, Culture of safety, prevention, mitigation and preparedness community based DRR,

Structural- nonstructural measures, Roles and responsibilities of- community, Panchayati Raj

Institutions/Urban Local Bodies (PRIs/ULBs), States, Centre, and other stake-holders- Institutional

Processess and Framework at State and Central Level- State Disaster Management Authority(SDMA) - Early

Warning System - Advisories from Appropriate Agencies.

UNIT III INTER-RELATIONSHIP BETWEEN DISASTERS AND DEVELOPMENT 9

Factors affecting Vulnerabilities, differential impacts, impact of Development projects such as dams,

embankments, changes in Land-use etc.- Climate Change Adaptation- IPCC Scenario and Scenarios in the

context of India - Relevance of indigenous knowledge, appropriate technology and local resources.

UNIT IV DISASTER RISK MANAGEMENTS INDIA 9

Hazard and Vulnerability profile of India, Components of Disaster Relief: Water, Food, Sanitation, Shelter,

Health, Waste Management, Institutional arrangements (Mitigation, Response and Preparedness, Disaster

Management Act and Policy - Other related policies, plans, programmes and legislation - Role of GIS and

Information Technology Components in Preparedness, Risk Assessment, Response and Recovery Phases of

Disaster - Disaster Damage Assessment.

UNIT V DISASTER MANAGEMENT:APPLICATIONS AND CASE STUDIES AND

FIELDWORKS 9

Landslide Hazard Zonation: Case Studies, Earthquake Vulnerability Assessment of Buildings and

Infrastructure: Case Studies, Drought Assessment: Case Studies, Coastal Flooding: Storm Surge Assessment,

Floods: Fluvial and Pluvial Flooding: Case Studies; Forest Fire: Case Studies, Man Made disasters: Case

Studies, Space Based Inputs for Disaster Mitigation and Management and field works related to disaster

management.


TEXTBOOK:

1. Singhal J.P. "Disaster Management", Laxmi Publications, 2010. ISBN-10: 9380386427 ISBN-13: 978-

9380386423

2. Tushar Bhattacharya, "Disaster Science and Management", McGraw Hill India Education Pvt. Ltd., 2012.

ISBN-10: 1259007367, ISBN-13: 978-1259007361]

3. Gupta Anil K, Sreeja S. Nair. Environmental Knowledge for Disaster Risk Management, NIDM, New

Delhi, 2011

4. Kapur Anu Vulnerable India: A Geographical Study of Disasters, MAS and Sage Publishers, New Delhi, 2010.

REFERENCES

1. Govt, of India: Disaster Management Act, Government of India, New Delhi, 2005

2. Government of India, National Disaster Management Policy,2009


ELECTIVE- III


Subject Code:

BAE 20E11

Subject Name :

ADVANCED AEROSPACE MATERIALS Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Material science , Aircraft

Materials and Processes Ty 3 0/0 0/0 3




On the mechanical behavior and characterization of various materials, that are used for aircraft applications.

COURSE OUTCOMES (COs) : The students will be

CO1 Understanding the properties and mechanical behavior of conventional and high performance

alloys, used for Aircraft applications (Level 2)

CO2 Applying and relating, the high temperature materials for critical applications in an aircraft

(Lever 3)

CO3 Evaluating and Characterization of material structure using different techniques (Level 5)

CO4 Analyzing the scope of smart materials for Aerospace application (Level 4)

CO5 Differentiating and analyzing the different materials with respect to their Characterization,

behavior and performances. (Level 5)



CO1 3 2 2 3 1 2 2 1 2 2 2 2

CO2 3 2 2 2 2 2 2 1 2 2 2 2

CO3 3 2 3 2 3 2 2 1 2 2 2 2

CO4 3 2 3 3 2 3 3 1 2 2 2 2

CO5 3 3 3 3 2 2 2 1 2 2 2 2


CO1 3 2 3 2

CO2 3 3 3 2

CO3 3 3 3 2

CO4 3 3 3 2

CO5 3 3 3 2


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Subject Code:

BAE 20E11

Subject Name :

ADVANCED AEROSPACE MATERIALS Ty/Lb/

ETL

L T/

SL

r

P/R C

Prerequisite: Material science , Aircraft

Materials and Processes

Ty 3 0/0 0/0 3

UNIT I MECHANICAL BEHAVIOUR 9

Properties of Conventional Aircraft Materials – Linear and Non-Linear Behaviour – Yielding, Strain

Hardening and Fracture – Design for Strength – General Requirements of Materials for Aerospace

Applications – Principles of Stressed Skin Construction – Effect of Manufacturing Procedures on Material

Behaviour – Micro-structural Influence of Mechanical Behaviour

UNIT II HIGH PERFORMANCE ALLOYS 9

High Performance Alloys For Aerospace Application – Aluminium, Magnesium, and Titanium alloys –

Comparison of Properties – Steel Quality & Effect of Carbon Content – Effect of Alloying & Heat

Treatments – Properties of Advanced Alloys used in Aircraft – Effect of Corrosion on Mechanical properties

– Stress Corrosion Cracking – Corrosion Resistance Materials – Heat Resistance Alloys – Effect of Alloying

Elements & Ideal Percentage Composition

UNIT III HIGH TEMPERATURE MATERIALS 9

Carbon/Carbon composites – Properties & Advantages – Fabrication Processes – Metal Matrix Composites –

Mechanical Properties – Mechanical and Thermal Properties of Materials at Elevated Temperatures – Super

Alloys – Ceramic Material Systems and Their Properties – Fabrication of Ceramic Composites – Cermet

Tools – Application of These Materials in The Thermal Protection Systems of Aerospace Vehicles –

Application of High Temperature Materials in an Aircraft.

UNIT IV CHARACTERIZATION OF MATERIAL STRUCTURE 9

X- Ray Diffraction And Their Applications – Absorption of X-rays and filters - X-ray – Diffraction

Directions - Working Principles of Transmission Electron Microscopes – Image Formation – Resolving

Power – Magnification & Depth of Focus – Advanced Chemical and Thermal analysis – Basic Principles &

Practice – Augur Spectroscopy – Differential Thermal Analysis.

UNIT V SMART MATERIALS FOR AEROSPACE APPLICATION 9

Fundamentals of Piezoelectricity – Soft and Hard Piezoelectric Ceramics – Basic Piezoceramic

Characteristics – Shape Memory Alloys - Fundamentals of Shape Memory Alloy (SMA) Behavior – Phase

Transformation – Lattice Structure and DeformationMechanism – Origin of the One-Way Shape Memory

Effect – Stress Induced Martensite and Pseudoelasticity – Two-Way Shape Memory Effect.


TEXT BOOKS:

1. Adrian Mouritz,‘AIAA Education Series – Introduction to Aerospace Materials,2012.

2. Titterton.G., Aircraft Materials and Processes, V Edition, Pitman Publishing Co., 1995.

REFERENCES:

1.J.W. Martin, Engineering Materials, Their properties and Applications, Wykedham Publications (London)

Ltd.,1987.

2.N.Prasad, Eswara,R. J. H Wanhill, Aerospace Materials and Material Technologies – Indian Institute of Metals

Series,2017.

3.V. Raghavan. Materials Science and Engineering, Prentice Hall of India, New Delhi, 5th edition,2004.

4.Sam Zhang, ‗Aerospace Materials Handbook (Advances in Materials Science and Engineering) 1st

Edition,2016.

5.L.H. Van Vlack, Elements of Materials Science and Engineering Prentice Hall; publishers, 6th edition, 1989


Subject

Code:

BAE 20E12

Subject Name :

AIRFRAME MAINTENANCE AND REPAIR

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Strength of Materials; Aircraft Structures Ty 3 0/0 0/0 3



OBJECTIVES: To make the students to understand the Airframe components and the tools used to maintain the

components. Defect investigation, methods to carry out investigation and the detailed maintenance and practice

procedures


CO1 Understand the Airframe components and the tools used to maintain the components (Level 2)

CO2 Apply the knowledge of plastics and composites in aircraft maintenance. (Level 4)

CO3 Carry out aircraft jacking, assembly and rigging in maintenance(Level 4)

CO4 Apply hydraulic and pneumatic system during trouble shooting and maintenance practice.

(Level 5)

CO5 Apply the safety practices in aircraft management.(Level 6)



CO1 3 3 3 3 3 2 2 3 3 3 2 2

CO2 3 3 3 3 3 2 2 3 3 3 2 2

CO3 3 3 3 3 3 2 2 3 3 3 2 2

CO4 3 3 3 3 3 2 2 3 3 3 2 2

CO5 3 3 3 3 3 2 2 3 3 3 2 2


CO1 3 3 3 3

CO2 3 3 3 3

CO3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 3


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Subject Code:

BAE 20E12

Subject Name :

AIRFRAME MAINTENANCE AND REPAIR

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Strength of Materials; Aircraft Structures

Ty 3 0/0 0/0 3

UNIT I MAINTENANCE OF AIRCRAFT STRUCTURAL COMPONENTS 9

Equipments used in welding shop and their maintenance - Ensuring quality welds - Welding jigs and fixtures

- Soldering and brazing - laser welding.

Sheet metal repair and maintenance: Selection of materials; Repair schemes; Fabrication of replacement

patches; Tools - power/hand; Repair techniques; Peening - Close tolerance fasteners; Sealing compounds;

forming/shaping; Calculation of weight of completed repair; Effect of weight -change on surrounding

structure. Sheet metal inspection - N.D.T. Testing. Riveted repair design -Damage investigation - Reverse

engineering.

UNIT II PLASTICS AND COMPOSITES IN AIRCRAFT 9

Review of types of plastics used in airplanes - Maintenance and repair of plastic components - Repair of

cracks, holes etc., various repairs schemes - Scopes.

Cleaning of fibre reinforced plastic (FRP) materials prior to repair; Break test - Repair Schemes;

FRP/honeycomb sandwich materials; laminated FRP structural members and skin panels; Tools/equipment;

Vacuum-bag process. Special precautions - Autoclaves

UNIT III AIRCRAFT JACKING, ASSEMBLY AND RIGGING 9

Airplane jacking and weighing and C.G. Location. Balancing of control surfaces- Inspection

maintenance. Helicopter flight controls. Tracking and balancing of main rotor.

UNIT IV REVIEW OF HYDRAULIC AND PNEUMATIC SYSTEM 12

Trouble shooting and maintenance practices - Service and inspection - Inspection and maintenance of

landing gear systems. - Inspection and maintenance of air-conditioning and pressurization system, water and

waste system. Installation and maintenance of Instruments - handling - Testing -Inspection. Inspection and

maintenance of auxiliary systems - Rain removal system - Position and warning system - Auxiliary Power

Units (APUs).

UNITV SAFETY PRACTICES 6

Hazardous materials storage and handling, Aircraft furnishing practices - Equipments. Trouble shooting.

Theory and practices.


TEXT BOOKS:

1. Kroes, Watkins, Delp, "Aircraft Maintenance and Repair", McGraw Hill, New York, 1992.

REFERENCES:

1. Larry Reithmeir, "Aircraft Repair Manual", Palamar Books, Marquette, 1992.

2. Brimm D.J. Bogges H.E., "Aircraft Maintenance", Pitman Publishing corp., New York, 1940.

3. Delp. Bent and Mckinely "Aircraft Maintenance Repair", McGraw Hill, New York, 1987.


Subject

Code:

BAE20E13

Subject Name :

AERO ENGINE MAINTENANCE AND REPAIR Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Aircraft Systems,Aero Engine and

Airframe laboratory Ty 3 0/0 0/0 3



OBJECTIVES: To make the students to understand the Airframe components and the tools used to maintain the

components. Defect investigation, methods to carry out investigation and the detailed maintenance and practice

procedures.


CO1 Illustrate the usage of Inspection and Maintenance Tools. (Level 2)

CO2 Explain various Defects in Airframe. (Level 2)

CO3 Explain the repairing procedures of Airframe defects. (Level 3)

CO4 Describe about the inspection of Engine components. (Level 3)

CO5 Illustrate Overhauling procedure of Aero Engine. (Level 2)



CO1 3 3 3 3 3

CO2 3 3 3 3 3 3

CO3 3 3 3 3 3 3 3

CO4 3 3 3 3 3 3

CO5 3 3 3 3 3 3


CO1 3 2 2 1

CO2 3 2 2 1

CO3 3 2 2 1

CO4 3 2 2

CO5 3 2 2 1


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Subject Code:

BAE20E13

Subject Name :

AERO ENGINE MAINTENANCE AND

REPAIR

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Aircraft Systems,Aero Engine and Airframe laboratory

Ty 3 0/0 0/0 3

UNIT I PISTON ENGINES 9

Carburetion and Fuel injection systems for small and large engines - Ignition system components -spark plug

detail - Engine operating conditions at various altitudes - Engine power measurements -Classification of

engine lubricants and fuels - Induction, Exhaust and cooling system - Maintenance and inspection check to

be carried out.Inspection and maintenance and trouble shooting - Inspection of all engine components - Daily

and routine checks - Overhaul procedures - Compression testing of cylinders - Special inspection schedules -

Engine fuel, control and exhaust systems - Engine mount and super charger - Checks and inspection

procedures.

UNIT II PROPELLERS 9

Propeller theory - operation, construction assembly and installation - Pitch change mechanism-Propeller

axially system- Damage and repair criteria - General Inspection procedures - Checks on constant speed

propellers - Pitch setting, Propeller Balancing, Blade cuffs, Governor/Propeller operating conditions -

Damage and repair criteria.

UNIT III JET ENGINES 9

Types of jet engines - Fundamental principles - Bearings and seals - Inlets - compressors- turbines-exhaust

section - classification and types of lubrication and fuels- Materials used - Details of control, starting around

running and operating procedures - Inspection and Maintenance- permissible limits of damage and repair

criteria of engine components- internal inspection of engines- compressor washing- field balancing of

compressor fans- Component maintenance procedures - Systems maintenance procedures - use of

instruments for online maintenance - Special inspection procedures-Foreign Object Damage - Blade damage

.

UNIT IV TESTING AND INSPECTION 9

Symptoms of failure - Fault diagnostics - Case studies of different engine systems - Rectification during

testing equipments for overhaul: Tools and equipments requirements for various checks and alignment

during overhauling - Tools for inspection - Tools for safety and for visual inspection -Methods and

instruments for non destructive testing techniques - Equipment for replacement of parts and their repair.

Engine testing: Engine testing procedures and schedule preparation - Online maintenance.

UNITV OVERHAULING 9

Engine Overhaul - Overhaul procedures - Inspections and cleaning of components - Repairs schedules for

overhaul - Balancing of Gas turbine components. Trouble Shooting: Procedures for trouble shooting -

Condition monitoring of the engine on ground and at altitude - engine health monitoring and corrective

methods.


REFERENCES:

1. Kroes & Wild," Aircraft Power plants ", 7th Edition - McGraw Hill, New York, 1994.

2. Turbomeca," Gas Turbine Engines ", The English Book Store", New Delhi, 1993.

3. United Technologies Pratt & Whitney, "The Aircraft Gas turbine Engine and its Operation", The English

Book Store, New Delhi.


Subject Code:

BAE20E14

Subject Name :

AIR TRAFFIC CONTROL AND PLANNING

Ty/

Lb/

ET

L

L T/

SLr

P/R C

Prerequisite: Air line and airport Management Ty 3 0/0 0/0 3




Understanding the requirement of Air Traffic control systems, knowledge in flight information system and rules of

Air traffic systems


CO1 Understand the basic principles of Air Traffic Management (Level 2)

CO2 Understanding the requirements of Air traffic control system and its types.(Level 2 )

CO3 Knowledge in Flight Information System and rules of Traffic system(Level 3 )

CO4 Study Aerodrome and Runway Concepts. (level 6)

CO5 Knowledge indirection indicator systems for air navigation. (Level 3)



CO1 3 2 3 3 3 3 2 1 3 3 2

CO2 3 2 3 3 3 3 2 1 3 3 2

CO3 3 2 3 3 3 3 2 1 3 3 2

CO4 3 2 3 3 3 3 2 1 3 3 2

CO5 3 2 3 3 3 3 2 1 3 3 2


CO1 3 2 2

CO2 3 2 2

CO3 3 2 2

CO4 3 2 2

CO5 3 2 2


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Subject Code:

BAE20E14

Subject Name :

AIR TRAFFIC CONTROL AND PLANNING

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Air line and airport

Management Ty 3 0/0 0/0 3

UNIT I BASIC CONCEPTS 9

Objectives of air traffic control systems - Parts of ATC services - Scope and Provision of ATCs - VFR &

IFR operations - Classification of ATS air spaces - Various kinds of separation - Altimeter setting procedures

- Establishment, designation and identification of units providing ATS - Division of responsibility of control.

UNIT II AIR TRAFFIC SYSTEMS 9

Area control service, assignment of cruising levels - minimum flight altitude - ATS routes and significant

points - RNAV and RNP - Vertical, lateral and longitudinal separations based on time / distance -ATC

clearances - Flight plans - position report

UNIT III FLIGHT INFORMATION SYSTEMS 10

Radar service, Basic radar terminology - Identification procedures using primary / secondary radar -

performance checks - use of radar in area and approach control services - assurance control and coordination

between radar / non radar control - emergencies - Flight information and advisory service - Alerting service -

Co-ordination and emergency procedures - Rules of the air.

UNIT IV AERODROME DATA 9

Aerodrome data - Basic terminology - Aerodrome reference code - Aerodrome reference point -Aerodrome

elevation - Aerodrome reference temperature - Instrument runway, physical Characteristics; length of

primary / secondary runway - Width of runways - Minimum distance between parallel runways etc. -

obstacles restriction.

UNIT V NAVIGATION AND OTHER SERVICES 8

Visual aids for navigation Wind direction indicator - Landing direction indicator - Location and

characteristics of signal area - Markings, general requirements - Various markings - Lights, general

requirements - Aerodrome beacon, identification beacon - Simple approach lighting system and various

lighting systems - VASI & PAPI - Visual aids for denoting obstacles; object to be marked and lighter -

Emergency and other services.


TEXT BOOK

1. AIP (India) Vol. I & II, "The English Book Store", 17-1, Connaught Circus, New Delhi.

REFERENCES

1. "Aircraft Manual (India) Volume I", latest Edition - The English Book Store, 17-1, Connaught Circus, New

Delhi.

2. "PANS - RAC - ICAO DOC 4444", Latest Edition, The English Book Store, 17-1, Connaught Circus, New

Delhi


Subject

Code:

BAE 20E15

Subject Name :

AIRCRAFT PERFORMANCE

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Propulsion I &II ,Aircraft Stability and

control Ty 3 0/0 0/0 3




The concepts and necessary equations to assess the performance of aircraft


CO1 Draw and develop the drag polar diagram and associated equation for subsonic airplane

CO2 Calculate, under given operating condition, the range and endurance of jet and propeller

airplane

CO3 Assess the performance of the airplane during steady glide and glimp

CO4 Analyze the factors for take off and landing distance

CO5 Draw the flight envelope of the given aircraft



CO1 3 3 3 3 3 3 3 2

CO2 3 3 3 3 3 3 3 2

CO3 3 3 3 3 3 3 3 2

CO4 3 3 3 3 3 3 3 2

CO5 3 3 3 3 3 3 3 2


CO1 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


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Subject Code:

BAE 20E15

Subject Name :

AIRCRAFT PERFORMANCE

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Propulsion I &II ,Aircraft Stability

and control Ty 3 0/0 0/0 3

UNITI GENERAL CONCEPTS 9

International Standard atmosphere, IAS, EAS, TAS, Propeller theory- Froude momentum and blade element

theories, Propeller co-efficients, Use of propeller charts, Performance of fixed and variable pitch propellers,

High lift devices, Thrust augmentation.

UNITII DRAGOF BODIES 9

Streamlined and bluff body, Types of drag, Effect of Reynold‘s number on skin friction and pressure drag,

Drag reduction of airplanes, Drag polar, Effect of Mach number on drag polar. Concept of sweep- effect of

sweep on drag

UNITIII STEADY LEVEL FLIGHT 9

General equation of motion of an airplane. Steady level flight, Thrust required and Power required, Thrust

available and Power available for propeller driven and jet powered aircraft, Effect of altitude, maximum

level flight speed, conditions for minimum drag and minimum power required, Effect of drag divergence on

maximum velocity, Range and Endurance of Propeller and Jet aircrafts. Effect of wind on range and

endurance.

UNITIV GLIDING ANDCLIMBINGFLIGHT 9

Shallow and steep angles of climb, Rate of climb, Climb hodograph, Maximum Climb angle and Maximum

Rate of climb- Effect of design parameters for propeller jet and glider aircrafts, Absolute and service ceiling,

Cruise climb, Gliding flight, Glidehodograph.

UNITV ACCELERATED FLIGHT 9

Estimation of take-off and landing distances, Methods of reducing landing distance, level turn, minimum

turn radius, maximum turn rate, bank angle and load factor, Constraints on load factor, SST and MSTR. Pull

up and pull down maneuvers, V-n diagram.


TEXT BOOKS:

1. Anderson, Jr., J.D. Aircraft Performance and Design, McGraw-Hill International Edition, 1999.

2. Houghton,E.L. and Carruthers, N.B. Aerodynamics for engineering students, Edward Arnold

Publishers,1988.

REFERENCES:

1. J.D. Anderson, Introduction to Flight, McGraw-Hill; 8th

edition ,2015

2. L.J. Clancy, Aerodynamics, Shroff publishers(2006)

3. John J Bertin., Aerodynamics for Engineers, Prentice Hall; 6th

edition,2013.

4. A.M. Kuethe and C.Y. Chow, Foundations of Aerodynamics, John Wiley & Sons; 5th

Edition,1997


ELECTIVE- IV


Subject

Code:

BAE 20E16

Subject Name :

HYPERSONIC AERODYNAMICS

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Aerodynamics I &II Ty 3 0/0 0/0 3


OBJECTIVES: To introduce fundamental concepts and features peculiar to hypersonic flow to students to

familiarize them with the aerodynamical aspects of hypersonic vehicles and the general hypersonic flow theory.


CO1 Apply the basic concepts of hypersonic aerodynamics to hypersonic Internal/External flow

fields (Level 3)

CO2 Establish the properties of inviscid hypersonic flows using surface inclination and

approximate methods. (Level 4)

CO3 Establish the boundary layer equations for hypersonic flow ( Level 3)

CO4 Analyze the properties of hypersonic shockwaves and boundary layer interactions in

hypersonic flow. (Level 4)

CO5 Apply High-temperature gas dynamics to hypersonic Internal/External flow fields. (Level 3)



CO1 3 2 3

CO2 3 2

CO3 3 2 2

CO4 3 1

CO5 3 3 3


CO1 3 2

CO2 3

CO3 2 2

CO4 3

CO5 2


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Subject Code:

BAE 20E16

Subject Name :

HYPERSONIC AERODYNAMICS

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Aerodynamics I &II Ty 3 0/0 0/0 3

UNIT I FUNDAMENTALS OF HYPERSONIC AERODYNAMICS 9

Introduction to hypersonic aerodynamics - differences between hypersonic aerodynamics and supersonic

aerodynamics - concept of thin shock layers and entropy layers - hypersonic flight paths - hypersonic

similarity parameters - shock wave and expansion wave relations of inviscid hypersonic flows.

UNIT II SIMPLE SOLUTION METHODS FOR HYPERSONICINVISCID FLOWS 9

Local surface inclination methods - Newtonian theory - modified Newtonian law - tangent wedge and

tangent cone and shock expansion methods - approximate methods - hypersonic small disturbance theory -

thin shock layer theory.

UNIT III VISCOUS HYPERSONIC FLOW THEORY 9

Boundary layer equations for hypersonic flow - hypersonic boundary layers - self similar and non self similar

boundary layers - solution methods for non self similar boundary layers - aerodynamic heating and its

adverse effects on airframe.

UNIT IV VISCOUS INTERACTIONS IN HYPERSONIC FLOWS 9

Introduction to the concept of viscous interaction in hypersonic flows - Strong and weak viscous interactions

- hypersonic viscous interaction similarity parameter - introduction to shock wave boundary layer

interactions.

UNIT V HIGH TEMPERATURE EFFECTS in HYPERSONIC FLOWS 9

Nature of high temperature flows - chemical effects in air - real and perfect gases - Gibb's free energy and

entropy - chemically reacting boundary layers - recombination and dissociation.


TEXT BOOKS:

1. John D. Anderson. Jr., "Hypersonic and High Temperature Gas Dynamics", McGraw hill Series, New York,

1996.

REFERENCES:

1. John D. Anderson. Jr., "Modern Compressible flow with historical Perspective", McGraw Hill Publishing

Company, New York, 1996.

2. John T. Bertin, "Hypersonic Aerothermodynamics", published by AIAA Inc., Washington. D.C.,

1994.


Subject

Code:

BAE 20E17

Subject Name :

EXPERIMENTAL AERODYNAMICS

Ty/Lb/

ETL

L T/

SLr

P/R C

Prerequisite: Fluid Mechanics ,Fundamentals of

aircraft control and Instrumentation system Ty 3 0/0 0/0 3


OBJECTIVES: To provide details, operating principles and limitations of forces, pressure, velocity and

temperature measurements. To describe flow visualization techniques and to highlight in depth discussion of

analog methods.


CO1 Analyze the basic principles in fluid measurements. (Level 4)

CO2 Measure data using wind tunnel balances. (Level 5)

CO3 Analyze the basic principles of flow visualization techniques. (Level 4)

CO4 Do various measurements of pressure, velocity and temperature parameters. (Level 5)

CO5 Use data acquisition system for experiments. ( Level 3)



CO1 3 3 3 3

CO2 3 3 3 3

CO3 3 3 3 3

CO4 3 3 3 3

CO5 3 3 3 3


CO1 3 3 2

CO2 2 3 3

CO3 3 2 3

CO4 3 3 2

CO5 2 3 3


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Subject Code:

BAE 20E17

Subject Name :

EXPERIMENTAL AERODYNAMICS

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite: Fluid Mechanics ,Fundamentals

of aircraft control and Instrumentation

system

Ty

3

0/0

0/0

3

UNIT I BASIC MEASUREMENTS IN FLUID MECHANICS 7

Objective of experimental studies - Fluid mechanics measurements - Properties of fluids - Measuring

instruments - Performance terms associated with measurement systems - Direct measurements -Analogue

methods - Flow visualization -Components of measuring systems - Importance of model studies.

UNIT II CHARACTERISTICS OF MEASUREMENTS 10

Characteristic features, operation and performance of low speed, transonic, supersonic and special tunnels -

Power losses in a wind tunnel - Instrumentation of wind tunnels - Turbulence- Wind tunnel balance -

principles, types and classifications -Balance calibration.

UNIT III FLOW VISUALIZATION AND ANALOGUE METHODS 9

Principles of Flow Visualization - Hele-Shaw apparatus - Interferometer - Fringe-Displacement method -

Schlieren system - Shadowgraph - Hydraulic analogy - Hydraulic jumps - Electrolytic tank

UNIT IV PRESSURE, VELOCITY AND TEMPERATURE MEASUREMENTS 9

Measurement of static and total pressures in low and high speed flows- Pitot-Static tube characteristics -

Pressure transducers - principle and operation - Velocity measurements - Hot-wire anemometry - LDV -

PIV: Temperature measurements.

UNITV SPECIAL FLOWS AND UNCERTAINTY ANALYSIS 10

Experiments on Taylor-Proudman theorem and Ekman layer - Measurements in boundary layers -Data

acquisition and processing - Signal conditioning - Uncertainty analysis - Estimation of measurement errors -

External estimate of the error - Internal estimate of the error - Uncertainty calculation - Uses of uncertainty

analysis.


TEXT BOOKS:

1. Rathakrishnan, E., "Instrumentation, Measurements, and Experiments in Fluids," CRC Press -Taylor &

Francis, 2007.

2. Robert B Northrop, "Introduction to Instrumentation and Measurements", Second Edition, CRC Press,

Taylor & Francis, 2006.

REFERENCES:

1. Pope, A., and Goin, L, "High Speed Wind Tunnel Testing", John Wiley, 1985.Bradsaw Experimental Fluid

Mechanics.

2. NAL-UNI Lecture Series 12: Experimental Aerodynamics, NAL SP 98 01 April 1998

Lecture course on "Advanced Flow diagnostic techniques" 17-19 September 2008 NAL, Bangalore


Subject

Code:

BAE 20E18

Subject Name :

ROCKETS AND MISSILES

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite: Aerdynamics I&II,Propulsion I&II. Ty 3 0/0 0/0 3




On important topics like rocket motion, rocket aerodynamics and staging & control of rockets to students to enrich

their knowledge in the area of missile.

COURSE OUTCOMES (COs) : The students will be

CO1 Understanding about the types of Rockets and Missiles (Level 2)

CO2 Understanding the aerodynamics of Rockets and Missiles (Level 2)

CO3 Applying and understanding the concepts behind Rocket motion in free space and gravitational space

(Level 3)

CO4 Analyzing the design philosophy in staging of Rockets and Missiles (Level 4)

CO5 Analyzing the various aerodynamic characteristics and control methods of Rockets and Missiles

(Level 4)



CO1 3 2 3 2 1 2 2 1 2 1 2 2

CO2 3 2 3 2 1 2 2 1 2 1 2 2

CO3 3 3 3 2 2 2 2 1 2 2 2 2

CO4 3 3 3 2 2 2 2 1 2 2 2 2

CO5 3 3 3 2 2 2 2 1 2 2 2 2


CO1 3 2 2 2

CO2 3 2 2 2

CO3 3 3 2 2

CO4 3 3 2 2

CO5 3 3 2 2


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Subject Code:

BAE 20E18

Subject Name :

ROCKETS AND MISSILES

Ty/Lb

/ETL

L T/

SLr

P/R C

Prerequisite: Aerdynamics I&II,Propulsion

I&II. Ty 3 0/0 0/0 3

UNIT I CLASSIFICATION OF ROCKETS AND MISSILES 9

Various methods of classification of missiles and rockets - Basic aerodynamic characteristics of surface to

surface, surface to air, air to surface and air to air missiles - Examples of various Indian space launch

vehicles and missiles - Current status of Indian rocket programme with respect to international scenario

UNIT IIAERODYNAMICS OF ROCKETS AND MISSILES 10

Airframe components of rockets and missiles - forces acting on a missile while passing through atmosphere -

classification of missiles - slender body aerodynamics - method of describing forces and moments - lift force

and lateral moment -lateral aerodynamic damping moment - longitudinal moment - drag estimation - upwash

and downwash in missile bodies - rocket dispersion.

UNIT IIIROCKET MOTION IN FREE SPACE AND GRAVITATIONAL FIELD 10

One dimensional and two-dimensional rocket motions in free space and homogeneous gravitational fields -

description of vertical, inclined and gravity turn trajectories - determination of range and altitude - simple

approximations to determine burn out velocity and altitude - estimation of culmination time and altitude.

UNIT IV STAGING OF ROCKETS AND MISSILES 8

Design philosophy behind multistaging of launch vehicles and ballistic missiles - optimization of multistage

vehicles - stage separation techniques in atmosphere and in space - stage separation dynamics and lateral

separation characteristics -

UNIT V CONTROL OF ROCKETS AND MISSILES 8

Introduction to aerodynamic and jet control methods - various types of aerodynamic control methods for

tactical and short range missiles- aerodynamic characteristics - various types of thrust vector control methods

including secondary injection thrust vector control for launch vehicles and ballistic missiles -.


TEXT BOOKS:

1. Cornelisse, J.W., "Rocket Propulsion and Space Dynamics", J.W. Freeman & Co., Ltd, London,

1982


Edition, 1993.

REFERENCES:

1. Parker, E.R., "Materials for Missiles and Spacecraft", McGraw Hill Book Co. Inc. 1982.

Mathur, M.L., and Sharma, R.P., "Gas Turbine, Jet and Rocket Propulsion", Standard Publishers and

Distributors, Delhi, 1988


Subject Code:

BAE20E19

Subject Name : STRUCTURAL DYNAMICS Ty/Lb/

ETL

L T/

S.Lr

P/R C

Prerequisite:Aircraft Structures Ty 3 0/0 0/0 3



OBJECTIVES: To study the effect of periodic and periodic forces on mechanical systems with matrix approach

and also to get the natural characteristics of large sized problems using approximate methods.


CO1 Understand the basic principles constraints and generalized coordinates Virtual work andforce

- deflection influence functions - stiffness and flexibility methods. (Level 2)

CO2 Apply the free and forced vibrations of systems with finite degrees of freedom. (Level 3)

CO3 Analyzing various matrix method sand modal analysis.(Level 1)

CO4 Study the different methods to analyze the vibration of component. (Level 4)

CO5 Determine the approximate methods to evaluating the Eigen frequencies and vectors by

reduced subspace. (Level 5)



CO1 2 3 3 1 1 1 2 1 2 1 2 1

CO2 2 3 3 2 2 1 2 1 2 2 2 2

CO3 2 3 3 2 2 1 2 1 2 2 2 2

CO4 2 3 3 2 2 1 2 1 2 2 2 2

CO5 2 3 3 2 2 1 2 1 2 2 2 2


CO1 3 2 3 2

CO2 3 2 3 2

CO3 3 2 3 2

CO4 3 2 3 2

CO5 3 2 3 2


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Subject Code:

BAE20E19

Subject Name : STRUCTURAL DYNAMICS Ty/Lb/

ETL

L T/

S.Lr

P/R C

Prerequisite:Aircraft Structures Ty 3 0/0 0/0 3

UNIT I FORCE DEFLECTION PROPERTIES OF STRUCTURES 9

Constraints and Generalized coordinates - Virtual work and generalized forces - Force - Deflection influence

functions - stiffness and flexibility methods.

UNIT II PRINCIPLES OF DYNAMICS 9

Free and forced vibrations of systems with finite degrees of freedom - Response to periodic excitation -

Impulse Response Function - Convolution Integral

UNIT III NATURAL MODES OF VIBRATION 9

Equations of motion for Multi degree of freedom Systems - Solution of Eigen value problems - Normal

coordinates and orthogonality Conditions. Modal Analysis.

UNIT IV ENERGY METHODS 9

Rayleigh's principle - Rayleigh - Ritz method - Coupled natural modes - Effect of rotary inertia and shear on

lateral vibrations of beams - Natural vibrations of plates.

UNITV APPROXIMATE METHODS 9

Approximate methods of evaluating the Eigen frequencies and eigen vectors by reduced, subspace, Lanczos,

Power, Matrix condensation and QR methods.


TEXT BOOKS:

1. Tse. F.S., Morse. I.E. and Hinkle. H.T., "Mechanical Vibrations: Theory and Applications" , Prentice Hall

of India Pvt. Ltd, New Delhi, 2004.

2. Hurty. W.C. and M.F. Rubinstein, "Dynamics of Structures", Prentice Hall of India Pvt. Ltd., New Delhi

1987.

REFERENCES:

1. Vierck. R.K., "Vibration Analysis", 2nd

Edition, Thomas Y. Crowell & Co Harper & Row Publishers, New

York, U.S.A. 1989.

2. Timoshenko. S.P., and D.H. Young, "Vibration Problems in Engineering", John Willey & Sons Inc., 1984.

3. Ramamurthi. V., "Mechanical Vibration Practice and Noise Control" Narosa Publishing House Pvt. Ltd,

2008.


Subject

Code:

BAE20E20

Subject Name :

CONTROL ENGINEERING

Ty/L

b/ET

L

L T/

SLr

P/R C

Prerequisite:Mathematics I,II &III. Ty 3 0/0 0/0 3




To apply mathematical knowledge to model the systems and analysze the frequency domain


CO1 Apply mathematical knowledge to model the system (Level 3)

CO2 Analyse the frequency domain(Level 4)

CO3 To check the stability of time and frequency domain. (Level 5)

CO4 Identify the concept and construction of stability(Level 1)

CO4 Understand various Control system(Level 2)



CO1 3 3 3 3 3 2 2 1 2

CO2 3 3 3 3 3 2 2 1 2

CO3 3 3 3 3 3 2 2 1 2

CO4 3 3 3 3 3 2 2 1 2

CO5 3 3 3 3 3 2 2 1 2


CO1 3 3 2

CO2 3 3 2

CO3 3 3 2

CO4 3 3 2

CO5 3 3 2


C

ate

go

ry

Basi

c S

cie

nces

Eng

ineeri

ng

Scie

nces

Hu

manit

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an

d S

ocia

l

Scie

nces

Pro

gra

m C

ore

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ves

Open

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l

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kil

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✔


Subject Code:

BAE20E20

Subject Name :

CONTROL ENGINEERING

Ty/Lb/ET

L

L T/

SLr

P/R C

Prerequisite:Mathematics I,II &III. Ty 3 0/0 0/0 3

UNIT I INTRODUCTION 9

Historical review, Simple pneumatic, hydraulic and thermal systems, Series and parallel system, Analogies,

mechanical and electrical components, Development of flight control systems.

UNIT II OPEN AND CLOSED LOOP SYSTEMS 9

Feedback control systems - Control system components - Block diagram representation of control systems,

Reduction of block diagrams, Signal flow graphs, Output to input ratios.

UNIT III CHARACTERISTIC EQUATION AND FUNCTIONS 9

Laplace transformation, Response of systems to different inputs viz., Step impulse, pulse, parabolic and

sinusoidal inputs, Time response of first and second order systems, steady state errors and error constants of

unity feedback circuit.

UNIT IV CONCEPT OF STABILITY 9

Necessary and sufficient conditions, Routh-Hurwitz criteria of stability, Root locus and Bode techniques,

Concept and construction, frequency response.

UNITV SAMPLED DATA SYSTEMS 9

Z-Transforms Introduction to digital control system, Digital Controllers and Digital PID controllers


TEXT BOOKS:

1. OGATO, Modern Control Engineering, Prentice-Hall of India Pvt. Ltd., New Delhi, 1998.

2. Azzo, J.J.D. and C.H. Houpis Feed back control system analysis and synthesis, McGraw-Hill international

3rs Edition, 1998.

REFERENCES:

1. Kuo, B.C. "Automatic control systems", Prentice-Hall of India Pvt. Ltd., New Delhi, 1998.

2. Houpis, C.H. and Lamont, G.B. "Digital control Systems", McGraw Hill Book co., New York, U.S.A. 1995.

3. Naresh KSinha, "Control Systems", New Age International Publishers, New Delhi, 1998.


Department of Civil Engineering

OPEN ELECTIVE

THEORY


Subject Code:

BCE20OE1/ BCE18OE1

Subject Name : WATER POLLUTION AND ITS MANAGEMENT

T y/ Lb/ ETL

L T / S.Lr

P/ R C




OBJECTIVE : Tolearnthefundamentalconceptsinthefieldofwaterpollutionanditsmanagement

COURSE OUTCOMES (COs) : ( 3- 5) At the end of the course, Students will be able to

CO1 To study the various Effects of Water pollution

CO2 To learn the importance of methods of control of Water Pollution

C03 To understand the various Water Pollution control Act


COs/Pos PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12

CO1 H H H H M H H M L



COs / PSOs PSO1 PSO2

CO1 H H

CO2 H H

C03 H H


Ca

teg

ory

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

nces

Hum

anit

ies

and

Socia

l S

cie

nces

Pro

gra

m C

ore

Pro

gra

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ves

Open

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/ P

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al S

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Subject Code:

BCE20OE1/

BCE18OE1

Subject Name : WATER POLLUTION AND ITS MANAGEMENT

T y/ Lb/ ETL

L T / S.Lr

P/ R C


UNIT I SOURCES&CHARACTERISTICSOFWATERPOLLUTION 9

Waterpollution-Sources&typesofwaterpollution–Physical,chemical&biological– Effectofwater

pollution.DrinkingwaterqualitystandardswasteWatertreatment–

Primary,secondary,tertiary-water pollution prevention & control act –1974.

UNITII W ATER QUALITY&STANDARDS 9

Quality of surface waters, Water quality in flowing waters, Water quality in impounded

waters, Groundwater quality, Water quality standard Microbiological quality of drinking

water, and Chemical quality of drinking water

UNIT III INDUSTRIALACTIVITY&MITIGATIONMEASURES 9

Role of water in different industries-Effluent discharge characteristics-Discharge

Standards for Rivers and Streams-Role of stakeholders, Public NGOS, Government in

Protection of Water bodies-Control Measures-Mitigation Measures for Industrial Water

Contamination due to industries.

UNIT IV WATERPOLLUTIONREGULATIONS 9

Administrative regulation under recent legislations in water pollution control. Water

(Prevention & control of pollution) Act 1974 as amended by Amendment Act 1988. Water

(Prevention & control of pollution) Rules 1975 Water (Prevention & control of pollution)

Cess Act. 1977 as amended by Amendment Act1991.

UNIT V ROLE OFREGULATORYBOARDS 9

SustainableDevelopment,RainWaterHarvesting-Methods-WaterPollution-

CausesandEffects- RoleofRegulatorybodiesandLocalbodies-CPCB-TWADBoard–

CMWSSBetc-CaseStudies related to Effective WaterManagement


TEXT BOOKS

1. Fair.G.M,―WaterandWastewaterengineeringVol.I&II‖.JohnWileyandsons,Newyork. 2010.

REFERENCES

1. Metcalf & Eddy, “Wastewater engineering, Treatment and Reuse”, Tata MacGrawhill

publications,2008.

2. Eckenfelder,W.W.,"”IndustrialWaterPollutionControl",McGraw-Hill,2009.

3. Arceivala.S.J,"WastewaterTreatmentforPollutionControl",TataMcGraw-Hill,2008.

4.“Aruna Venkat Environmental Law and Policy”, PHI learning private limited New Delhi,

2011.

5. WaterManagementInIndia,”ConceptPublishingCompany”,NewDelhi,2004.


Subject Code:

BCE20OE2/

BCE18OE2

Subject Name

ENVIRONMENT,HEALTH AND

SAFETY IN INDUSTRIES

TY / L/

ETL

L T / S.Lr

P/ R C

Prerequisite: NIL TY 3 0/0 0/0 3



OBJECTIVE Tounderstandthebasicneedsofsafetyin

humanhealth,environmentalsafety,electricalsafety,safetyagainst accidents and fire safety in various industries COURSE OUTCOMES (COs) : ( 3- 5)

CO1 Students learn the occupational safety and hygiene

CO2 They understand the workplace safety and their responsibility.

CO3 Student possesses an awareness on environment, health and safety in industries



CO1 H M H H H H H H

CO2 H M H H H H H H

CO3 H M H H H H H H


CO1 H H

CO2 H H

CO3 H H


C

ate

go

ry

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

nces

Hu

manit

ies

and

Socia

l S

cie

nces

Pro

gra

m C

ore

Pro

gra

m E

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ves

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/ P

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Subject

Code:

BCE20OE2/ BCE18OE2



Need for developing Environment, Health and Safety systems in work places, Status

and relationship of Acts, Regulations and Codes of Practice, Role of trade union

safety representatives .International initiatives, Ergonomics and workplace.

UNITII OCCUPATIONALHEALTHANDHYGIENE 9

Definition of the term occupational health and hygiene, Categories of health hazards,

Exposure pathways and human responses to hazardous and toxic substances, Advantages

and limitations of environmental monitoring and occupational exposure limits, Hierarchy

of control measures for occupational health risks, Role of personal protective equipment

and the selection criteria.

UNITIII WORKPLACESAFETYANDSAFETYSYSTEMS 9

Features of the satisfactory design of work premises HVAC, ventilation. Safe

installation and use of electrical supplies, Fire safety and first aid provision,

Significance of human factors in the establishment and effectiveness of safe systems,

Safe systems of work for manual handling operations, Control methods to eliminate or

reduce the risks arising from the use of work equipment, Requirements for the safe use

of display screen equipment, Procedures and precautionary measures necessary when

handling hazardous substances, Contingency arrangements for events of serious and

imminent danger.

UNITIV TECHNIQUESOF ENVIRONMENTALSAFETY 9

Functions and techniques of risk assessment, inspections and audits, Investigation of

accidents- Principles of quality management systems in health and safety management.

UNITV EDUCATIONANDTRAINING 9

Factors to be considered in the development of effective training

programmes, Principles and methods of effective training, Feedback and

evaluation mechanism.


REFERENCE

1. EnvironmentalandHealthandSafetyManagementbyNicholasP.CheremisinoffandMadelyn

L. Graffia, William Andrew Inc. NY, 1995

2. The Facility Manager's Guide to Environmental Health and Safety by Brian

Gallant, Government Inst Publ. Effective Environmental, Health, and Safety

Management Using the

TeamApproachbyBillTaylor,CulinaryandHospitalityIndustryPublicationsServices

2005


Subject Code:

BCE20OE3/

BCE18OE3

Subject Name

GREEN BUILDING AND VASTU CONCEPTS

TY / L/

ETL

L T / S.Lr P/ R C




OBJECTIVE

Toexposethenecessityofgreenbuildingandacquireknowledgeonvastu-shastra

COURSE OUTCOMES (COs) : ( 3- 5) On completion of the course the students would have

CO1 Students should be able to describe the importance and necessity of green building.

CO2 Students should be able to assess a building on the norms available for green building.

CO3 Students should be able to suggest materials and technologies to improve energy efficiency of

building.

CO4 Students should be able to design and assess building with norms of vastu-shastra



CO1 H H H H H H M

CO2 H H H H H H M

CO3 H H H H H H M

CO4 H H H H H H M


CO1 H H

CO2 H H

CO3 H H

CO4 H H


C

ate

go

ry

B

asi

c S

cie

nces

E

ngin

eeri

ng

Scie

nces

H

um

anit

ies

an

d

Socia

l

P

rog

ram

Core

P

rog

ram

Ele

cti

ves

O

pen

Ele

cti

ves

Pra

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cal

/ P

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In

tern

ship

s /

Tech

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S

oft

Skil

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√


Subject Code:

BCE20OE3/

BCE18OE3

Subject Name

GREEN BUILDING AND VASTU CONCEPTS

TY / L/

ETL

L T / S.Lr P/ R C


UNITI INTRODUCTION OFGREENBUILDING 9

Concept of green building, History of green building, Need of green building in present

scenario,

ImportanceofgreenbuildingMeritsanddemerits,Classificationofgreenbuilding,Assessment

methods Global assessment and certification, Local assessment, LEED India GRIHA

(Green Rating for Integrated HabitatAssessment)

UNITII PRINCIPLESANDELEMENTSOFDESIGNOFGREENBUILDING 9

Sustainability: concept and reality 2. Climate responsive process of design: Climatic

zones, design sequence, shelter or form, land form, vegetation, water bodies, street

widths, open spaces, ground character, plan form, orientation, roof form 3. Shading

devices and their effect

UNITIII THERMAL COMFORT INSIDETHEBUILDING 9

Factors affecting, indices, cooling and heating requirement, Heat transmission through

building sections, thermal performance of building sections, simple calculation for U

value and insulation thickness . Day lighting. Ventilation

UNITIV WATERCONSERVATIONANDBUREAUOFENERGYEFFICIENCY 9

3 R's for water conservation, rain water harvesting, low flow fixtures, grey wat6er

recycling Material conservation: concept of embodied energy, low energy materials,

sustainable materials, alternative materials Concept of carbon emission and its reduction

Functions, policies, guidelines, Energy Conservation Building Code, Study of existing

green buildingsIntroduction to Energy efficiency softwares, carbon calculators

UNIT VVASTUCONCEPT 9

History, scientific approach, importance of shapes size and direction, vastu of a plot,

elements of vastu for selecting a plot, vastu of a residence, vastu of existing building


TEXT BOOKS

1. Climate responsive architecture (A design hand book for energy efficient

buildings), Arvind

Krishnana,SimosYannas,NickBaker,SVSzokolay,McGrawhillEducation,Seventh

reprint, 2013

2. Renewable Energy and Environment -A Policy Analysis for India, H,

Ravindranath, K Usha Rao, B Nataraja n, P Monga, Tata McGraw Hill,2000

3. EnergyandtheEnvironment,JMFowler,McGrawHill,NewYork,2ndEdition,1984

REFERENCE

1. Handbookonfunctionalrequirementsofbuildings(SP41),BIS,NewDelhi,1987

2. EnergyConservationbuildingcode(ECBC),Bureauofenergyefficiency,2011


Subject Code: BCE20OE4/ BCE18OE4

Subject Name

CLIMATE CHANGE AND

SUSTAINABLE DEVELOPMENT

TY / L/ ET L

L

T /

S.Lr

P/ R

C

Prerequisite: None TY 3 0/0 0/0 3



OBJECTIVE

TounderstandtheEarth‘sClimateSystemandtheconceptofGlobalWarming,theimpactofclima te change on society and its mitigationmeasures.

COURSE OUTCOMES (COs) : ( 3- 5) At the end of the course the student will be able to

CO1

Understand the global climate change and its effects

CO2

Learn about climate change adaptation and various mitigation measures

CO3 Understand the concept of clean energy and energy conservation



CO1 H M H H H H H H

CO2 H M H H H H H H

CO3 H M H H H H H H

COs / PSOs PSO PSO

CO1 H H

CO2 H H

CO3 H H


C

ate

go

ry

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

nces

Hu

manit

ies

an

d S

ocia

l

Scie

nces

Pro

gra

m C

ore

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ves

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Subject Name

CLIMATE CHANGE AND

SUSTAINABLE DEVELOPMENT

TY / L/ ET L

L

T /

S.Lr

P/ R

C

Prerequisite: None TY 3 0/0 0/0 3

UNITI EARTH’SCLIMATESYSTEM 9

Introduction-Climate in the spotlight -– Climate Classification - Global Wind Systems -Cloud

Formation and Monsoon Rains – Storms and Hurricanes – The Hydrological Cycle – Global Ocean

Circulation –Solar Radiation –The Earth's Natural Green House Effect – Green House Gases and

Global Warming – CarbonCycle.

UNITII OBSERVEDCHANGESANDITSCAUSES 9

Observation of Climate Change – Changes in patterns of temperature, precipitation and sea level

rise – Observed effects of Climate Changes – Patterns of Large Scale Variability – Drivers of

ClimateChange–ClimateSensitivityandFeedbacks–TheMontrealProtocol–UNFCCC–IPCC.

UNITIII IMPACTS OFCLIMATECHANGE 9

Impacts of Climate Change on various sectors -Methods and Scenarios – Projected Impacts for

Different Regions– Uncertainties in the Projected Impacts of Climate Change – Risk of Irreversible

Changes.

UNIT IV CLIMATECHANGEADAPTATIONANDMITIGATIONMEASURES 9

Adaptation Strategy/Options in various sectors -Key Mitigation Technologies and Practices –Carbon

sequestration – Carbon capture and storage (CCS)- Waste (MSW & Bio waste, Biomedical, Industrial

waste – International and Regionalcooperation.

UNITV CLEAN TECHNOLOGYANDENERGY 9

Clean Development Mechanism –Carbon Trading examples of future Clean Technology – Biodiesel

– Natural Compost – Eco- Friendly Plastic – Alternate Energy – Hydrogen – Bio-fuels – Solar Energy

– Wind – Hydroelectric Power.

REFERENCES


1. AnilMarkandya,ClimateChangeandSustainableDevelopment:ProspectsforDev

eloping Countries, Routledge,2002

2. Heal, G. M., Interpreting Sustainability, in Sustainability: Dynamics and

Uncertainty, Kluwer Academic Publ.,1998

3. Jepma, C.J., and Munasinghe, M., Climate Change Policy – Facts, Issues and

Analysis, Cambridge University Press,1998

4. Munasinghe, M., Sustainable Energy Development: Issues and Policy in

Energy,

EnvironmentandEconomy:AsianPerspective,KleindorforP.R.et.al(ed.),EdwardElga

r,1996

5. DashSushilKumar,“ClimateChange–

AnIndianPerspective”,CambridgeUniversityPress India Pvt. Ltd,2007.

B.Tech Aeronautical Engineering - 2018 Regulation


Subject Name

INTELLIGENT TRANSPORTATION SYSTEMS

TY / L/

ETL

L T / S.Lr

P/ R C




OBJECTIVE

ToexposetherecentadvancementsinTransportSystems


CO1 Knowledge on the various principles and aspects of Intelligent Transport System.

CO2 Knowledge on intersection management

CO3 Knowledge on advanced transport system



CO1 H H L H L H H H H




CO1 H H

CO2 H H

CO3 H H


Ca

teg

ory

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

nces

Hu

manit

ies

and

Socia

l

Scie

nces

Pro

gra

m C

ore

Pro

gra

m E

lecti

ves

Open

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Pra

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cal

/ P

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Inte

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/ T

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nic

al

Skil

l

So

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kil

ls

√

208

B.Tech Aeronautical Engineering - 2018 Regulation

Subject

Code:

BCE20OE5/

BCE18OE5

Subject Name

INTELLIGENT TRANSPORTATION SYSTEMS

TY / L/

ETL

L T / S.Lr

P/ R C


UNITIINTRODUCTIONTOINTELLIGENTTRANSPORTSYSTEM 8

Definition–RoleandResponsibilities–AdvancedTravellerInformationSystem–

FleetOrientedITS Services– Electronic Toll Collection – Critical issues – Security -

Safety 21

UNITII ITS ARCHITECTUREANDHARDWARE 9

Architecture–ITSArchitectureFramework–HardwareSensors–VehicleDetection–

Techniques– DynamicMessage Sign – GPRS – GPS – Toll Collection

UNITIII INTERSECTIONMANAGEMENT 10

VideoDetection–VirtualLoop-Cameras-ANPR–IRLighting–

IntegratedTrafficManagement– ControlCentre – Junction Management Strategies

UNITIVADVANCEDTRANSPORTMANAGEMENTSYSTEM 10

ATMS–RouteGuidance–Issues-TravelInformation–PreTripandEnrouteMethods–

Historical– Current–PredictiveGuidance–DataCollection–Analysis–

DynamicTrafficAssignment(DTA)– Components–Algorithm

UNITVADVANCEDTRAVELLERANDINFORMATIONSYSTEM 8

Basic ATIS Concepts – Smart Route System – Data Collection – Process – Dessemination to Travelers–

Evaluation of Information – Value of Information – Business Opportunities


REFERENCES

1. IntelligentTransportSystems,IntelligentTransportationPrimer,Washington,US,2001

2. HenryF.Korth,andAbrahamSiberschatz,DataBaseSystemConcepts,McGrawHill,1992

3. E.Turban,”DecisionSupportandExportSystemsManagementSupportSyste

ms",Maxwell Macmillan,1998

4. SitausuS.Mittra,"DecisionSupportSystems–

ToolsandTechniques",JohnWiley,NewYork,

19865.CycleW.HalsappleandAndrewB.Winston,"DecisionSupportSystems–

Theoryand Application‟, Springer Verlog, New York,1987

209


Subject Code:

BCE20OE6/

BCE18OE6

Subject Name

GEOGRAPHICAL INFORMATION SYSTEM

AND MAPPING

TY

/ L/ ET L

L T / S.Lr

P/ R C




OBJECTIVE: Introducingstudentstotheuseofgeographicinformationsystemsintheurban/suburban/metropolitan

environment


CO1 To understand the GIS, background, development and components of GIS

CO2 To study the data capturing for GIS techniques and data base management

CO3 To study the analysis of various spatial and non-spatial data in GIS



CO1 H H H H M H M

CO2 H H H H M H M

CO3 H H H H M H M

COs / PSOs PSO 1 PSO 2

CO1 H H

CO2 H H

CO3 H H


Ca

teg

ory

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

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Hu

manit

ies

and

Socia

l S

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Pro

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ore

Pro

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ves

Open

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Pra

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/ P

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/ T

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Skil

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kil

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√


Subject Code:

BCE20OE6/

BCE18OE6

Subject Name


AND MAPPING

TY

/ L/

ET

L

L T / S.Lr

P/ R C


UNITI INTRODUCTIONTOGIS 9

Definition of GIS, Historical background Concepts and Basic Requirements. GIS Softwares

Elements of GIS Cartography – definition and importance Map definition - Types Map

Analysis Coordinate system Different Coordinatesystem

UNITII DATABASEMANGEMENT 9

Introduction – Types of data Spatial data – Nonspatial data. Data input - Methods Data

Output - Methods Software Modules Vector data – Structure - Topology Raster data -

Structure Raster data – Structure – Merits and Demerits

UNITIII DATAANALYSIS 9

Spatial data analysis Non Spatial Data analysis Manipulation – Spatial interpolation Data

retrieval – Reclassification Techniques. Buffer analysis Vector and Topological Overlay

analysis Raster overlay analysis Measurement - Query Record Modeling and Expert System

UNITIV DIGITALELEVATIONMODEL 9

Introduction – Data Capture Generation of DEM - Parameters Modeling Surface

Applications of DEM Cost and Path analysis Digital Terrain Visualization TIN Generation

DTM and DEM advantages DTM and DEM advantages

UNITV APPLICATIONOFGIS 9

Use of GIS in Resource Mapping Use of GIS in Ground Water and Runoff Modeling Use of

GIS in Flood monitoring and Wetland Management. Use of GIS in Forest Management.

Land use and Land cover analysis Use of GIS in Geology Use of GIS in Regional and

Urban Planning Use of GIS in Agriculture andsoil Integrated with remote sensing


TEXT BOOKS

1. AnjiReddy.M,―RemotesensingandGeographicalinformationsystem‖,B.SPubl

ications, 2011.

REFERENCES

1. Chestern, “Geo Informational Systems - Application of GIS and Related

Spatial InformationTechnologies

2. », ASTER Publication Co.,1992.

3. Jeffrey Star and John Estes, “Geographical Information System - An

Introduction”, Prentice Hall,1990.

4. Burrough .P.A, “Principles of GIS for Land Resources Assessment”,

Oxford Publication,1980

5. SatheeshGopi, “Global Positioning System - Principles and Applications,”

Tata McGrawHillPublishing

6. Company Limited, New Delhi (India),2005


Subject Code:

BCE20OE7/

BCE18OE7

Subject Name

INDUSTRIAL POLLUTION PREVENTION

AND CLEANER PRODUCTION

TY / L/

ETL

L T / S.Lr

P/ R C




OBJECTIVE:

GeteducatedoncompletemanagementprinciplesrelatedtotheCleanerProductionandControlindus

trial Pollution


CO1 Know the Basics of sustainable development and about prevention against pollution

CO2 Know the concept of pollution prevention and cleaner production

CO3 Get educated on Life cycle assessment concept.



CO1 H H H H H H M M

CO2 H H H H H H M M

CO3 H H H H H H M M


CO1 H H

CO2 H H

CO3 H H


Ca

teg

ory

Basi

c S

cie

nces

En

gin

eeri

ng

Scie

nces

Hu

manit

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and

Socia

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Pro

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Pro

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ves

Open

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kil

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√


Subject

Code:

BCE20OE7/ BCE18OE7

Subject Name

INDUSTRIAL POLLUTION PREVENTION

AND CLEANER PRODUCTION

TY / L/

ETL

L T / S.Lr

P/ R C


UNIT I SUSTAINABLE DEVELOPMENT

Sustainable Development- Indicators of Sustainability sutainbility to 9

Sustainability-Industrial activity and Environment. Industrialization and sustainable

development Industrial Ecology-Cleaner Production (CP) in Achieving Sustainability-

Prevention versusControl of Industrial Pollution Environmental Policies and Legislations

Regulations to Encourage Pollution Prevention and Cleaner Production-Regulatory versus

Market BasedApproaches

UNITII POLLUTIONPREVENTION 9

Definition-Importance-Historical evolution Benefits-Promotion-Barriers-Role of Industry,

Government and Institutions - Environmental Management Hierarchy Source Reduction

Techniques- Process and equipment optimization, reuse, recovery, recycle Raw material

substitution-Internet Information and Other CP Resources.

UNITIII CONCEPT OFCLEANERPRODUCTION 9

Overview of CP Assessment Steps and skills, Preparing for the site visit, Information

Gathering, and process flow diagram, material balance , CP Option Generation Technical

and Environmental feasibility analysis-Economic valuation of alternatives-total cost analysis

Financing- Establishing a program-Organizing a program-preparing a program plan-

Measuring progress Pollution prevention and cleaner production Awarenessplan –Waste audit-

Environmental Statement

UNITIV LIFECYCLEASSESSMENT 9

Elements of LCA-Life Cycle Costing Eco Labeling –Design for the Environment

International Environmental Standards-ISO 14001- Environmental audit.

UNITV CASESTUDIES 9 Industrial application of CP, LCA, EMS Environmental Audits.

Total No. of Hours: 45

TEXT BOOKS

1. PaulLBishop,―PollutionPreventionFundamentalandPractice‖,McG

raw-Hill International,2009.

2. Prasad modak, C.Visvanathan and Mandarparasnis‖Cleaner Production

Audit‖, Environmental

SystemReviews,No.38,AsianInstituteofTechnology,Bangkok,2005.

3. S.P.Mahajan,―PollutionControlInProcessIndustries‖,McGraw-HillInternational,2005.

REFERENCES

1. World Bank Group, “Pollution Prevention and Abatement Handbook-

Towards Cleaner Production”,WorldBankandUNEP,WashingtonD.C,2005.

2. Arceivala,S.J.,"WastewaterTreatmentforPollutionControl",TataMcGraw-Hill,2008.


Subject Code:

BCE20OE8/

BCE18OE8

Subject Name

AIR POLLUTION AND CONTROL

TY

/ L/ ET L

L T / S.Lr

P/ R C




OBJECTIVES: To take up the basic concepts of airpollution.

Thecontentsinvolvedtheknowledgeofcausesofair pollution

Thecontentsinvolvedtheknowledgeofhealthrelatedtoair pollution


CO1 Concepts of air pollution.

CO2 How to estimate the quantity of air pollutant.

CO3 Be able to develop control technologies.



CO1 H H H H H M H H

CO2 H H H H H M H H

CO3 H H H H H M H H


CO1 H H

CO2 H H

CO3 H H


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Subject Code:

BCE20OE8/

BCE18OE8

Subject Name

AIR POLLUTION AND CONTROL

TY

/ L/

ET

L

L T / S.Lr

P/ R C



History of Air pollution and episodes, Sources of air pollution and types,Introduction to

meteorology and transport of air pollution: Global winds, Headley cells, wind rose terrestrial

wind profile, Effects of terrain and topography on winds, lapse rate, maximum mixing depths,

plume rise

UNITII TRANSPORTOFPOLLUTIONINATMOSPHERE 9

Plume behavior under different atmospheric conditions, Mathematical models of dispersion of air

pollutants, Plume behavior in valley and terrains. Plume behavior under different meteorological

conditions, Concept ofisoplates

UNITIII EFFECTS OFAIRPOLLUTION 9

Effects of Air Pollution on human beings, plants and animals and Properties. Global Effects-

Green house effect, Ozone depletion, heat island, dust storms, Automobile pollution sources and

control, Photochemical smog, Future engines and fuels

UNITIV AIRPOLLUTIONCONTROL 9

Air Pollution control- at source-equipments for control of air pollution-For particulate matter-

Settling chambers-Fabric filters-Scrubbers-Cyclones-Electrostatic precipitators, For Gaseous

pollutants-control by absorption-adsorption-scrubbers-secondary combustion after burners,

Working principles advantages and disadvantages, design criteria and examples.

UNITV AIRQUALITYSAMPLINGANDMONITORING 9

Stack sampling, instrumentation and methods of analysis of SO2, CO etc, legislation for control of air pollution and automobile pollution


REFERENCES:

1. H.CParkins,AirPollutionMcGrawHillPublication

2. H.S.Peavy,D.R.Row&G.Tchobanoglous,EnvironmentalEngineering,McGrawHill InternationalEdition

3. MartinCrawford,AirPollutionControlTheory,TMHPubl.

Web Materials:

1. http://www.epa.gov 2. http://www.indiaenvironmentportal.org.in 3. http://nptel.iitm.ac.in 4. http://www.filtersource.com 5. https://dgserver.dgsnd.gov

http://www.epa.gov/

http://www.indiaenvironmentportal.org.in/

http://nptel.iitm.ac.in/

http://www.filtersource.com/

http://www.epa.gov/


Department of Civil Engineering

OPEN ELECTIVE

LAB


Subject Code:

BCE20OL1/

BCE18OL1

Subject Name : BUILDING DRAWING PRACTICE USING AUTOCAD

Ty/Lb /ETL

L T / S.Lr

P/ R C




OBJECTIVE : Tointroducethestudentstodrafttheplan,elevationandsectionalviewsofbuildingsinaccordancewith

developmentandcontrolrulessatisfyingorientationandfunctionalrequirementsasperNationalBuil ding

Code.

COURSE OUTCOMES (COs) : ( 3- 5) At the end of the course, the student will be able to:

CO1 know about the basic principles of Building Drawing

CO2 know Basic commands of a popular drafting package

CO3 Acquire knowledge on plan, elevation and section of buildings



CO1 H M M M

CO2 H M M

CO3 H M M M

COs / PSOs PSO PSO

CO1 H H

CO2 H H

CO3 H H


C

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Subject Code:

BCE20OL1/

BCE18OL1

Subject Name : BUILDING DRAWING PRACTICE USING AUTOCADD

Ty/Lb /ETL

L T / S.Lr

P/ R C


EXPERIMENTS

1. Learn and use basic AutoCAD commands - manage drawing using layers,

colour and line types-

completebasiccaddrawings,withborders,textanddimensions-useandedittextand

textstyles–Methodofscalesinvariousdrawing-understandandtheuseofblocks.

2. Developmentoflineplanforresidentialbuilding.oneforsinglestoriedbuilding

3. Developmentoflineplanforresidentialbuilding.onefortwostoriedbuilding

4. Submission drawing for residential building including its planning and with

area and parkingstatementsandallotherdetailsasperthenormsandlocalbye-laws.

5. Industrial buildings with rooftruss.

6. Todrawthe3Dviewofresidentialbuilding.

Total No of periods: 30

TEXT BOOKS

1. CivilEngg.Drawing&Houseplanning–B.P.Verma,Khannapublishers,Delhi,1990

2. Buildingdrawing&detailing–Dr.Balagopal&T.S.Prabhu,Spadespublishers,Calicut,1989.

REFERENCES

1. Buildingdrawing–Shah,TataMcGraw-Hill,NewDelhi,2000.

2. Building planning & drawing – Dr. N.Kumaraswamy, A.Kameswara Rao,

Charotarpublishing house.Mumbai,1997.

3. Shah,KaleandPatki,Buildingdrawing,TataMcGraw-HillNewDelhi,,1998.


Subject Code:

BCE20OL2/

BCE18OL2

Subject Name :


AND MAPPING LAB

T y/

Lb/

ET L

L T / S.Lr

P/ R C

Prerequisite: None Lb 0 0/0 3/0 1



OBJECTIVE :

• Theexercisesaredesignedtogivepracticalexposuretothestudentstodatainput,datastorage

• Data analyses and data output capabilities of a standard GISsoftware.

COURSE OUTCOMES (COs) : ( 3- 5) At the end of the course, the student will be able to:

CO1

CO2

CO3

CO4



CO1 H M M

CO2 H M M

C03 H M M

C04 H M M


CO1 H H

CO2 H H

C03 H H

C04 H H


C

ate

go

ry

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Subject Code:

BCE20OL2/

BCE18OL2

Subject Name :


AND MAPPING LAB

T y/

Lb/

ET L

L T / S.Lr

P/ R C


LIST OF EXERCISES

1. Digitization - Point, Line, Polygon and SurfaceData

2. Buildingtopology–measuringdistanceandarea

3. Addingattributedata–queryingonattributedata

4. Onscreen digitization - Data Conversion – Vector to Raster, Rasterto Vector

5. Generation of DEM: from contours, spotheights

6. Vector Analysis – Buffering, Overlay and Networkanalysis

7. Data Output: Bar charts, Mapcompilation


REFERENCES

1. QGIS-1.8-UserGuide,http://docs.qgis.org/pdf/QGIS-1.8-UserGuide-en.pdf,2013

2. Getting to Know ArcGIS for Desktop,ISBN: 97815894830882013

3. Understanding GIS: An ArcGIS Project Workbook, ISBN: 97815894824252011

http://docs.qgis.org/pdf/QGIS-1.8-UserGuide-en.pdf%2C2013


Subject Code:

BCE20OL3/

BCE18OL3

Subject Name :

ENVIRONMENTAL

ENGINEERING LABORATORY

Ty/Lb /ETL

L T / S.Lr

P/ R C




OBJECTIVE : Toimpartknowledgeonpreparationofreagents,testingvariouswaterandwastewaterqualityparameters.


CO1 Togethand- onexperienceintheoperationofequipmentslikepHmeter,TDSmeter,turbiditymeter, etc.

CO2 To analyze water and wastewater volumetrically and using certain equipments

CO3 The students completing the course will be able to characterize wastewater and conduct treatability studies.



CO1 H H M H H H M M

CO2 H M M H H H M M

CO3 H M M H H H M M


CO1 H H

CO2 H H

CO3 H H


Ca

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Subject Code:

BCE20OL3/

BCE18OL3

Subject Name

ENVIRONMENTAL

ENGINEERING LABORATORY

Ty/Lb /ETL

L T / S.Lr

P/ R C


LIST OF EXPERIMENTS

a) Determination ofpH.

b) Determination of Turbidity.

1. Determination ofHardness.

2. Determination ofAlkalinity.

3. Determination of ResidualChlorine.

4. Estimation ofChlorides.

5. Estimation of AmmoniaNitrogen.

6. Estimation ofSulphate.

7. Determination of optimumcoagulant dose.

8. Determination of specificconductivity.

9. EstimationofavailablechlorineinBleachingPowder.

10. Determination of dissolvedOxygen.

11. Determinationofsuspendedsettleable,volatileandfixed solids

12. B.O.D.Test.

13. C.O.D.Test.


REFERENCE BOOKS

1. TrivediandGoel–Chemicalandbiologicalmethodsforwaterpollutionstudies.New

Delhi,2000.

2. A course Manual – Water and wastewater analysis. National

Environmental Engineering Research Institute. Nagpur –

publication.

3. Standard Methods for Examination of water and Waste water APHa,

AWWA and WPCF, 1985Edition.


Department of Electrical and Electronics

Engineering

OPEN ELECTIVE

THEORY


Subject

Code:

BEE20OE1/

BEE18OE1

Subject Name:

ELECTRICAL SAFETY FOR ENGINEERS

T

/L/

ETL

L T /

S.Lr

P /

R

C

Prerequisite:Nil TY 3 0/0 0/0 3


TY/LB/ETL: Theory/Lab/Embedded Theory andLab

OBJECTIVE:

To attain knowledge on ElectricalSafety

To know about the operation of Electrical SafetyEquipments

To learn about the safetyprocedures

To know about the electrical safetycodes

To train the students on the Safetytraining.


CO1 Attained knowledge on the basics of Electrical Safety

CO2 Knowledge about the operation of the Safety equipments

CO3 Knowledge on the safety procedures

CO4 Familiarity on the electrical safety codes

CO5 Ability to become consultant and to attend the Vendors.



CO1 H M L M H H H M M L M M

CO2 H H L M M H H H M M H H

CO3 M M M H L M M M H M M L

CO4 H L H M M L L L L H L M

CO5 L M M L H M M M M M M M


CO1 H M M M H

CO2 H M M M H

CO3 M H H L M

CO4 H M M M L

CO5 M L M M M


Ca

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Subject

Code:

BEE20OE1/

BEE18OE1

Subject Name:

ELECTRICAL SAFETY FOR ENGINEERS

T

/L/

ETL

L T /

S.Lr

P /

R

C


UNIT I HAZARDSOF ELECTRICITY 9

Introduction – Hazards Analysis – Shock – Shock Effect – Arc –arc energy release-Arc energy-Arcing

voltage-Arc surface Area-Incident Energy-Arc Flash Effect – Blast – Affected body parts – Summary

of causes –Injury and Death – Protective Strategies.

UNIT II ELECTRICALSAFETYEQUIPMENT 9

General Inspection and Testing Requirement for Electrical Safety Equipment – Flash and Thermal

Production – Head and Eye Protection – Rubber Insulating Equipment –Hot Sticks-Barrier and signs-

Insulated Tools –Safety Grounding Equipment – Electricians Safety Kit.

UNIT III SAFETY PROCEDURES ANDORGANIZATIONALMETHODS 9

Six Step Safety Methods – Safe Switching of Power System – Voltage measurement Techniques –

Placement of Safety Grounds – Tools And Test Equipment – One Minute Safety Audit-Electrical

Safety program Development – Employee Electrical Safety Teams – Safety Meetings – Outage

Reports – Safety Audits.

UNIT IV REGULATORY AND LEGAL SAFETY REQUIREMENTS AND STANDARDS 9

Regulatory Bodies-ANSI-IEEE-Electrical safety code –Standards for Electrical safety in the

workplace- Accident prevention-first aid –Rescue Techniques-accident invention.

UNIT V SAFETY TRAINING METHODSANDSYSTEMS 9

Introduction – Elements of a good Training Program – On the Job Training – Training Consultants and

Vendors- Training Program Setup – Step by Step Method


Text Book:

1. Electrical safety handbook - john cadick - McGRAW-HILL, Third Edition


Subject Code:

BEE20OE2/

BEE18OE2

Subject Name:

ENERGY CONSERVATION TECHNIQUES

T / L/

ETL

L T /

S.Lr

P/ R C

Prerequisite:Nil Ty 3 0/0 0/0 3



OBJECTIVE :

To study about introduction to the Energy ConservationTechnology

To know the working Principle of energyconservation

To impart knowledge on energyefficiencies

To analyse various economicaspects

To have a wide spread knowledge on advancedtopics


CO1 Attain Knowledge on Energy Conservation Technology

CO2 Knowledge on the working principle of energy conservation

CO3 Knowledge on energy efficiencies

CO4 Ability to analyse various economic aspects

CO5 Knowledge on advanced topics



CO1 H M H M H M M M L H H M

CO2 H M M M M M M M M H M M

CO3 H H M M M M M M M M M L

CO4 M L L L M H M H L L M L

CO5 H L M M L L H M H M H L


CO1 H H M L L

CO2 M M L M M

CO3 M L M H H

CO4 M M M M H

CO5 M H H M M


Ca

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Subject Code:

BEE20OE2/

BEE18OE2

Subject Name:

ENERGY CONSERVATION TECHNIQUES

T / L/

ETL

L T /

S.Lr

P/ R C



Historical uses–Components of the energy conseervation system – Power output from an ideal system –

Power output from practical system

UNIT IIENERGYCONSERVATION 9

Principle of energy conservation - waste heat recovery - Heat pump – Economics of energy

conservation, cogeneration, combined cycle plants, electrical energy conservation opportunities

UNIT IIIENERGYEFFICIENCIES 9

Efficiencies- Rate Processes in Energy Conversion- Energy Conversion Reactions- Energy

Conversion Devices and Their Efficiency- Heat Transfer Devices and Their Efficiency- Deviations

from the Ideal and Component Efficiencies

UNIT IVECONOMICASPECTS 9

Economics of power factor improvement – power capacitors – power quality. Importance of electrical

energy conservation – methods – energy efficient equipments.Introduction to energy auditing.

UNIT V ADVANCED TOPICS 9

Introduction to energy auditing- Other conversion technologies- Modeling of micro-grids and

distributed generation system- Energy source and energy yield of wind turbine generators- Interfacing

issues of renewable energy system to conventional power grid


Text books:

1. Manwell, J.F. Mcgowan, J.G. Rogers, A.L.(2002) Wind Energy Explained – Theory, Design &

Application. John Wiley &Sons

2. Gray L. Johnson,(1985) Wind Energy Systems. Prentice HallInc

Reference books:

1. Epenshaw Taylor, (2009) Utilization Of Electric Energy. 12th Impression. UniversitiesPress

2. Wadhwa, C.L. (2003) Generation, Distribution and Utilization of Electrical Energy. NewAge

International Pvt. Ltd.


Subject

Code:

BEE20OE3/

BEE18OE3

Subject Name:

ELECTRIC VEHICLE TECHNOLOGY

T

/L/

ETL

L T /

S.Lr

P /

R

C


L : Lecture T:Tutorial SLr : Supervised Learning P : Project R : Research C:Credits TY/LB/ETL: Theory/Lab/Embedded Theory and Lab

OBJECTIVE:

To study about Electric VehicleTechnology

To study the concept of Microgrid and the controlmodes

To impart knowledge on DistributedGeneration

To analyse the impact of GridIntegration.

To understand various power quality issues and the protection schemes forMicrogrid.


CO1 Understanding of various conventional and Nonconventional source of energy resources

CO2 Familiar to Electric Vehicles and the control modes

CO3 knowledge on Hybrid Vehicle

CO4 Familiar to Grid Integration

CO5 Acquire knowledge on various power quality issues and the protection schemes in Electric

Vehicle



CO1 M L H M M M L H M M H M

CO2 M L H H L M L H H L H H

CO3 H M H H H H M H H H H H

CO4 H H H H H H H H H H H H



CO1 M L H M M

CO2 M L H H L

CO3 H M H H H

CO4 H H H H H

CO5 H H H H H


Ca

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Subject

Code:

BEE20OE3/

BEE18OE3

Subject Name:

ELECTRIC VEHICLE TECHNOLOGY

T

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ETL

L T /

S.Lr

P /

R

C

Prerequisite: Nil TY 3 0/0 0/0 3

UNITI:INTRODUCTION 9

Advanced Energy Storage Systems - Types of PEVs - Charging Techniques - V2G and G2V -

Alternative Fuel and HEV Vehicle Technology

UNIT II:AUTOMOTIVESYSTEMS 9

Introduction to today‘s automobiles – Basic Automotive Components - A working knowledge of

basic automotive components - general maintenance necessary for vehicle operations f

UNIT III: ELECTRIC & HYBRID VEHICLETECHNOLOGY1 9

Fundamentals of Electric and Gas-Electric Hybrid Vehicles - EV and HEV batteries, Fuel Cells,

Electric Motor Controllers Invertors - AuxiliaryAccessories

UNIT IV: ELECTRIC & HYBRID VEHICLETECHNOLOGY2 9

Battery Electric Vehicles (BEV) - Hybrid Electric Vehicles (HEV) - Plug-in Hybrid Electric Vehicles

(PHEV) – Trouble Shooting PHEVTechnologies

UNIT V: EV DATA ACQUISITION &CONTROLSYSTEMS 9

Vehicle Network Theory, Vehicle Embedded Controllers - Communications Protocols - Sensors,

Actuators – Internal Combustion in Electric Assist Vehicles - Vehicle Emissions - Emission Control

Systems - PowerControl


REFERENCE BOOKS:

1. SumedhaRajakaruna, FarhadShahnia, Arindham Ghosh, “Plug-in-ElectricVehicles in SmartGrid

– Integration Techniques”, Springer,2015

2. SumedhaRajakaruna, FarhadShahnia, Arindham Ghosh “Plug-in-ElectricVehicles in SmartGrid

– Integration Techniques – Energy Management”, Springer,2015

3. SumedhaRajakaruna, FarhadShahnia, Arindham Ghosh, “Plug-in-ElectricVehicles in SmartGrid

– Charging Strategies”, Springer,2015


Subject

Code:

BEE20OE4/

BEE18OE4

Subject Name:

BIOMEDICAL INSTRUMENTATION

T

/L/

ETL

L T /

S.Lr

P /

R

C



OBJECTIVE:

Thestudentwillstudyaboutcommunicationmechanicsinabiomedicalsystemwithfewexamples

The student will acquire basic knowledge in life assisting and therapeuticdevices


CO1 The graduate is capable of knowing the human physiology.

CO2 The graduate will be able to study about communication mechanics in a biomedical system

with few examples

CO3 Understands the basic principles in imaging techniques

CO4 Acquires basic knowledge in life assisting and therapeutic devices

CO5 Familiar with Bio medical instruments









CO1 M L H M M

CO2 M L H H L

CO3 H M H H H

CO4 H H H H H

CO5 H H H H H


Ca

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Subject

Code:

BEE20OE4/

BEE18OE4

Subject Name:

BIOMEDICAL INSTRUMENTATION

T

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ETL

L T /

S.Lr

P /

R

C


UNIT I: ANATOMY, PHYSIOLOGYANDTRANSDUCERS 9

Brief review of human physiology and anatomy – cell and their structures – electrical mechanical and

chemical activities – action and resting potential – different types of electrodes – sensors used in

biomedicine – selection criteria for transducers and electrodes – necessity for low noise pre-

amplifiers– difference amplifiers – chopper amplifiers – electrical safety – grounding andisolation

UNIT II: ELECTRO –PHYSIOLOGICALMEASUREMENT 9

ECG – EEG – EMG– lead system and recording methods – typical waveforms

UNIT III: NON – ELECTRICALPARAMETERMEASUREMENTS 9

Measurement of blood pressure – blood flow cardiac output – cardiac rate – heart sound –

measurement of gas volume – flow rate of CO2 and O2 in exhaust air – PH ofblood

UNIT IV: MEDICAL IMAGINGPARAMETERMEASUREMENTS 9

X-RAY machine – computer tomography – magnetic resonance imaging system – ultra sonography –

endoscopy – different types of telemetry system – laser inbiomedicine.

UNIT V: ASSISTING ANDTHERAPEUTICDEVICES 9

Cardiac pacemakers – defibrillators ventilators – muscle stimulators – diathermy – introduction to

artificial kidney artificial heart – heart lung machine – limb prosthetics– elements of audio and visual

aids.


Text Books

1. Webster, J.G. (1999) Medical Instrumentation: Application and Design.3rd

Ed. John Wiley andSon.

2. Khandpur R.S.(1987) Hand book of Biomedical Instrumentation and Measurements. New Delhi:

Tata McGraw-Hill.

REFERENCES

1. Geddes and Baker, (1975) Principles of Applied Biomedical Instrumentation. USA:John Wiley

and Sons.

2. Well, G.(1980) Biomedical Instrumentation and Measurements. New Jersey: PrenticeHall.

3. Koryla, J. (1980) Medical and Biological Application of electro chemical devices. Chichester:

John Wiley andSons.

4. Wise, D. L. (1989) Applied Bio- sensors,Butterworth.USA:


Subject

Code:

BEE20OE5/

BEE18OE5

Subject Name:

INTRODUCTION TO POWER ELECTRONICS

T

/L/

ETL

L T /

S.Lr

P /

R

C



OBJECTIVE:

Togetanoverviewofdifferenttypesofpowersemi-conductordevicesandtheirswitching

characteristics.

To understand the operation, characteristics and performance parameters of controlled

rectifiers.

To study the operation, switching techniques and basic topologics of DC-DC switchingregulators

Tolearnthedifferentmodulationtechniquesofpulsewidthmodulatedinvertersandto

understand the harmonic reductionmethods To study the operation of AC voltage controller and Matrixconverters


CO1 Understanding of characteristics of power semi –conductors

CO2 Capable of understand operation of controlled rectifiers.

CO3 Capable of understand operation of Choppers.

CO4 Capable of understand operation of PWM Inverters

CO5 Capable of understand operation of AC voltage controller and Matrix converters.



CO1 M L H M M M M M M M H M

CO2 M L M H L L H L H L M H

CO3 H M H H H H H H H H H H




CO1 M L M M M

CO2 M L H H L

CO3 H M L H H

CO4 H H L H H

CO5 H H M H H


Ca

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Subject

Code:

BEE20OE5/

BEE18OE5

Subject Name:

INTRODUCTION TO POWER ELECTRONICS

T

/L/

ETL

L T /

S.Lr

P /

R

C


UNIT I POWERSEMI-CONDUCTORDEVICES 9

Study of switching devices, - Frame, Driver and snubber circuit of SCR, TRIAC,BJT, IGBT, MOSFET,-

Turn-on and turn-off characteristics, switching losses, Commutation

circuits for SCR, IGBT.

UNIT IIPHASE-CONTROLLEDCONVERTERS 9

2-pulse, 3-pulse and 6-pulse converters – Effect of source inductance – performance parameters –

Reactive power control of cnverters – Dual converters - Battery charger.

UNIT III DC TODCCONVERTER 9

Step-down and step-up chopper - Time ratio control and current limit control – Buck, boost,

buckboost converter, concept of Resonant switching - SMPS.

UNITIVINVERTERS 9

Single phase and three phase (both 1200 mode and 1800 mode) inverters -PWM techniques:

Sinusoidal PWM,modifiedsinusoidalPWM -multiplePWM –

Introductiontospacevectormodulations-Voltage and harmonic control - Series resonant inverter -

Current sourceinverter.

UNIT V AC TOACCONVERTERS 9

Single phase AC voltage controllers – Multistage sequence control - single and three phase

cycloconverters –Introduction to Integral cycle control, Power factor control and Matrix converters.


TEXT BOOKS

1. M.H. Rashid, ‗Power Electronics: Circuits, Devices andApplications‘, Pearson Education, PHI Third

edition, New Delhi2004.

2. Philip T.Krein, ―Elements of Power Electronics‖ Oxford University Press, 2004Edition.

REFERENCES

1. Ashfaq Ahmed Power Electronics for Technology Pearson Education, Indian reprint,2003.

2. P.S.Bimbra “Power Electronics” Khanna Publishers, third Edition2003.

3. NedMohan,Tore.M.Undeland,William.P.Robbins,„PowerElectronics: Converters,Applications and

Design‟, John Wiley and sons, third edition,2003.


Subject

Code:

BEE20OE6/

BEE18OE6

Subject Name:

INDUSTRIAL INSTRUMENTATION

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OBJECTIVE:

To know about force, torque,velocity

To learn the measurement of acceleration, vibration, density andviscosity

To understand the Pressure and Temperaturemeasurement


CO1 Attain knowledge on Force, Torque and velocity

CO2 Ability to measure the acceleration, vibration etc

CO3 Capable to use the techniques for temperature and pressure measurement

CO4 Attain knowledge on Thermocouple and pyrometers

CO5 Ability to work in an Instrumentation Industry









CO1 M L H M M

CO2 M L H H L

CO3 H M H H H

CO4 H H H H H

CO5 H H H H H


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Subject

Code:

BEE20OE6/

BEE18OE6

Subject Name:

INDUSTRIAL INSTRUMENTATION

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UNIT1:MEASUREMENT OF FORCE, TORQUE AND VELOCITY 9

Electric balance – Different types of load cells – Magnets – Elastic load cells - Strain gauge load cell

– Different methods of torque measurement – Strain gauge, relative regular twist – Speed

measurement – Revolutioncounter

UNITII:MEASUREMENTOFACCELERATION,VIBRATION,DENSITYANDVISCOSITY 9

Accelerometers – LVDT, piezoelectric, strain gauge and variable reluctance type accelerometers –

Mechanical type vibration instruments – Calibration of vibration pick-ups – Units of density, specific

gravity and viscosity used in industries – Types of density meter – Viscosityterms – Saybolt

viscometer– Rotameter type.

UNIT III:PRESSUREMEASUREMENT 9

Unitsofpressure-Manometers–Differenttypes–Elastictypepressuregauges–Bourdontypebellows

– Diaphragms – Electrical methods – Elastic elements with LVDT and strain gauges – Capacitive

type pressure gauge – Piezo resistive pressure sensor –Testing and calibration of pressure gauges –

Dead weight tester.

UNIT IV:TEMPERATUREMEASUREMENT 9

Definitions and standards – Primary and secondary fixed points – Calibration of thermometer,

different types of filled in system thermometer – Sources of errors in filled in systems and their

compensation – Bimetallic thermometers – Electrical methods of temperature measurement

UNIT V: THERMOCOUPLESANDPYROMETERS 9

Thermocouples – Laws of thermocouple – Fabrication of industrial thermocouples – Signal

conditioning of thermocouples output – Thermal block reference functions – Radiation methods of

temperature measurement – Radiation fundamentals – Total radiation & selective radiation

pyrometers – Optical pyrometer – Two colour radiation pyrometers.

Total No. of Credits -45

Text Books

1. Doebelin, E.O.(2003) Measurement Systems – Application and Design. Tata McGraw Hill

publishing company.

2. Jain, R.K. (1999) Mechanical and Industrial Measurements. New Delhi: KhannaPublishers.

References

1. Patranabis,D.(1996)PrinciplesofIndustrialInstrumentation.TataMcGrawHillPublishingCompany

Ltd.

2. Sawhney, A.K. and Sawhney, P.(2004) A Course on Mechanical Measurements, Instrumentation

and Control Dhanpath Rai andCo.

3. Nakra, B.C. &Chaudary, B.C.Instrumentation Measurement &Analysis.Tata McGraw Hill

PublishingLtd.

4. Singh, S.K.(2003) Industrial Instrumentation and Control.Tata McGrawHill.

5. Eckman, D.P. Industrial Instrumentation. Wiley EasternLtd.


Subject

Code:

BEE20OE7/

BEE18OE7

Subject Name:

SOLAR ENERGY CONVERSION SYSTEM

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OBJECTIVE:

To study about Solar Radiation and the collectortypes

To impart knowledge on the Application of Solar thermalTechnology

To understand the fundamentals of Solar Photovoltaiccells

To design the Solar cells in cost effectivemanner.

To learn about the solar passiveArchitecture


CO1 Students understand Solar Radiation and the collector types

CO2 Acquire knowledge on the Application of Solar thermal Technology

CO3 Understand the fundamentals of Solar Photovoltaic cells

CO4 Familiar to design the Solar cells in cost effective manner

CO5 Incorporate the knowledge about the solar passive Architecture



CO1 H H H H H H H M M M H M






CO1 M H H H H

CO2 M H H H H

CO3 M H H H H

CO4 M H H H H

CO5 M H H H H


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Subject

Code:

BEE20OE7/

BEE18OE7

Subject Name:

SOLAR ENERGY CONVERSION SYSTEM

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UNIT I SOLAR RADIATIONANDCOLLECTORS 9

Solar Radiation- Solar angles - Sun path diagrams - shadow determination – Solar Collectors - flat

plate collector thermal analysis - heat capacity effect - testing methods-evacuated tubular collectors -

concentrator collectors

UNIT II APPLICATIONS OF SOLARTHERMALTECHNOLOGY 9

Principle of working, types - design and operation of - solar heating and cooling systems - solar water

heaters – thermal storage systems – solar still – solar cooker – domestic, community – solar pond –

solar drying

UNIT III SOLARPVFUNDAMENTALS 9

Solar cells - p-n junction: homo and hetro junctions - metal-semiconductor interface - dark and

illumination characteristics - efficiency limits - variation of efficiency with band-gap and temperature

- efficiency measurements - high efficiency cells

UNIT IV SOLAR PHOTOVOLTAIC SYSTEM DESIGNANDAPPLICATIONS 9

Solar cell array system analysis and performance prediction- Shadow analysis: reliability - solar cell

array design concepts - PV system design - design process and optimization -voltage regulation -

maximum tracking – use of computers in array design - quick sizing method - array protection and

troubleshooting - stand alone

UNIT V SOLARPASSIVEARCHITECTURE 9

Thermal comfort - heat transmission in buildings- bioclimatic classification – passive heating

concepts: direct heat gain - indirect heat gain - isolated gain and sunspaces - passive cooling concepts:

evaporative cooling - application of wind, water and earth for cooling; shading - paints and cavity

walls for cooling - roof radiation traps - earth air-tunnel. – energy efficient landscape design


Text Books:

1. Sukhatme S P, (1984), Solar Energy, Tata McGrawHill

2. Kreider, J.F. and Frank Kreith, (1981), Solar Energy Handbook, McGrawHill

3. Goswami, D.Y., Kreider, J. F. and & Francis.,(2000),Principles of SolarEngineering

Reference Books:

1. Garg H P., Prakash J., (2000), Solar Energy: Fundamentals & Applications, Tata McGrawHill

2. Duffie, J. A. and Beckman, W. A., (1991), Solar Engineering of Thermal Processes, JohnWiley

3. Alan L Fahrenbruch and Richard H Bube, (1983), Fundamentals of Solar Cells: PV Solar

Energy Conversion, AcademicPress

4. Larry D Partain,(1995), Solar Cells and their Applications, John Wiley and Sons,Inc.


Subject

Code:

BEE20OE8/

BEE18OE8

Subject Name:

WIND ENERGY CONVERSION SYSTEM

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OBJECTIVE:

To know the basics of Wind Energy ConversionSystem

To solve the Energycrisis.

To know the Power Electronic Devices and itscharacteristics.

To understand differentconverters

To design wind Energy conversion system such as subsystems and itscomponents


CO1 Knowledge on Wind Energy Systems

CO2 Capability to find solution for Energy Crisis

CO3 Attained knowledge on various types of converters

CO4 Familiarity in Power Electronics Devices and its performance.

CO5 Ability to design Electrical Machines for Wind Energy Conversion System



CO1 H L L M M H M L L H H L

CO2 M H H H H H H H M M H H

CO3 H M M H M H M M M L H M

CO4 M M M M L H M M H M H L

CO5 H H H H H H M H H M H M


CO1 M L L M L

CO2 L H M H L

CO3 L M H M L

CO4 M M H M L

CO5 H H H H M


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Subject

Code:

BEE20OE8/

BEE18OE8

Subject Name:

WIND ENERGY CONVERSION SYSTEM

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UNIT I INTRODUCTION TOWINDSYSTEMS 9

Historical uses of wind – History of wind turbines – Horizontal axis wind turbines – Darreius Wind

Turbines – Innovative wind turbines – Components of the wind energy conversion system – Power

output from an ideal wind turbine – Power output from practical wind turbines

UNIT II WIND CHARACTERISTICS&MEASUREMENTS 9

Meteorology of wind – Wind speed statistics – Weibull Statistics – Rayleigh and normal distribution–

Windmeasurements–Eolianfeatures–BiologicalIndicators–Typesofanemometersandtheiroperation

– Wind direction – Wind measurements with balloons

UNIT III WIND TURBINE SUBSYSTEMS&COMPONENTS 9

Rotor – Blades – Aerodynamic design – Structural Design – Fabrication – Aerodynamic ControlSurfaces

– Hub – Types- Drive Train – Coupling – Gearbox – Brake – Types – Main frame & Nacelle – Tower

UNIT IV ELECTRICAL MACHINESFORWECS 9

Induction Machine – Theory of IM operation - Dynamic dq Modeling - Doubly fed Induction

Generator – Synchronous Machines – Theory of operation – Starting wind turbines with IG - Variable

Reluctance Machine – Effect of Harmonics

UNIT V OVERVIEWOFCONVERTERS 9

Six Pulse Converter – 12 Pulse Converter – Sequential control of converters – Converter Control –

EMI and Power Quality Problems – Control of Cycloconverter – Matrix Converters – High Frequency

Cycloconverter, VFC and CFC


Text books:

1. Manwell, J.F. Mcgowan, J.G. Rogers, A.L.(2002) Wind Energy Explained – Theory, Design

& Application. John Wiley &Sons

2. Gray L. Johnson,(1985) Wind Energy Systems. Prentice HallInc

3. Bose, B.K. (2001) Modern Power Electronics & AC Drives. PrenticeHall

Reference Books:

1. Vaughn Nelson, (2009) Wind Energy – Renewable Energy & the Environment. CRC Press


Subject

Code:

BEE 20OE9/

BEE18OE9

Subject Name:

ENERGY STORAGE TECHNOLOGY

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OBJECTIVE:

To study about the Energy StorageTechnology

To know the working Principle of Batteries and itstypes

To impart knowledge on Fuel Cells along with its advantage anddisadvantages

To analyse various types of energy storagedevices.

To have a wide spread knowledge on ElectricVehicle


CO1 Attain Knowledge on Energy Storage Technology

CO2 Knowledge on the working principle of batteries and its types

CO3 Knowledge n Fuel cells

CO4 Ability to analyse various types of energy storage devices

CO5 Knowledge on Electric vehicles



CO1 H M H M H M M M L H H M

CO2 H M M M M M M M M H M M

CO3 H H M M M M M M M M M L

CO4 M L L L M H M H L L M L

CO5 H L M M L L H M H M H L


CO1 H H M L L

CO2 M M L M M

CO3 M L M H H

CO4 M M M M H

CO5 M H H M M


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Subject

Code:

BEE 20OE9/

BEE18OE9

Subject Name:

ENERGY STORAGE TECHNOLOGY

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UNITI INTRODUCTION TOENERGYSTORAGE 9

Energy storage – Utilization of Energy storage devices - Need for Energy Storage – Types of energy

Storage – Comparison of Energy Storage technologies – Applications.

UNITII ELECTRICALENERGYSTORAGE 9

Concept of batteries – Measurement of Battery performance – Charging and Discharging- Storage

Density – Safety issues. Types of Batteries – Lead Acid, Nickel-Cadmium, Zinc manganese dioxide

and modern batteries- Zinc Air, Nickel Hydride, lithiumbattery.

UNITIII FUELCELL 9

Fuel Cell – History of fuel cell – Principle of electrochemical Storage – Types – Hydrogen oxygen

cells, Hydrogen air cell – Hydrocarbon air cell –alkaline fuel cell – detailed analysis – advantage and

drawback of each cell.

UNIT IV ALTERNATE ENERGYSTORAGETECHNOLOGIES 9

Solar Photovoltaics – Wind Power - Flywheel – Super Capacitors – Principles & applications,

Compressed Air Energy Storage- Concept of Hybrid Storage -Applications

UNIT V ELECTRICVEHICLE 9

ElectricVehicle–Types–HybridVehicle–BatteringCharging–UsageofbatteriesinHybridvehicle–

Fundamentals of Electric vehicle modeling - EV and the Environment – Pollution effect.


Text Books:

1. IbrabimDincer, marc A,Rosen, (2011) Thermal Energy Storage Systems and Applications, 2nd

Ed, JohnWiley

2. James Larminie, John Lowry (2003), Electric Vehicle Technology Explained, John Wiley &Sons

References

1. Seth Leitman, Bob Brant (2013) Build Your Own Electric Vehicle, 3rd

Ed, McGrawHill

2. James larminie, Andrew Dicks, (2003), Fuel Cell Systems Explained,Wiley


Department of Electrical and Electronics

Engineering

OPEN ELECTIVE

LAB


Subject

Code:

BEE20OL1/

BEE18OL1

Subject Name:

TRANSDUCER LAB

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Prerequisite:Nil Lb 0 0/0 3/0 1



OBJECTIVE:

To learn practically about transducers and about the types ofTransducers

To study various transducers used for the measurement of various physicalQuantities

To identify suitable instruments to meet the requirements of industrialapplications

To measure Resistive, Capacitive and Inductivetransducers

To calibrate varioustransducers


CO1 Enables the students to practically know about transducers and about the types of Transducers

CO2 various transducers used for the measurement of various physical Quantities

CO3 The student can identify suitable instruments to meet the requirements of industrial

applications

CO4 The graduate can measure Resistive, Capacitive and Inductive transducers

CO5 Graduate can calibrate various transducers



CO1 H L M H H M M L H M H M

CO2 H H H H M M L L M H M L

CO3 H M M M M L M M H H M L

CO4 M H H M H M H H H M L M

CO5 H H H M L M L M H H M L


CO1 M M H H L

CO2 H H H M M

CO3 M H H M L

CO4 H H M H L

CO5 M M H L H


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Subject

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BEE20OL1/

BEE18OL1

Subject Name:

TRANSDUCER LAB

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LIST OF EXPERIMENTS

1. Displacement versus output voltage characteristics of a Potentiometrictransducer.

2. Strain gaugecharacteristics.

3. Load cellcharacteristics.

4. Photoelectrictachometer.

5. Hall effecttransducer.

6. Characteristics ofLVDT.

7. Characteristic of LDR, Thermistor andthermocouple.

8. Ramp response characteristic of filled in systemthermometer.

9. Step response characteristic of RTD andthermocouple.

10. Flapper nozzle system.

11. P/I and I/Pconverters.

12. Study of smarttransducers

Total Number of periods: 45


Subject Code:

BEE20OL2/

BEE18OL2

Subject Name:

PLC AND SCADA LAB

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OBJECTIVE :

To understand the programming inPLC.

The students will be able to understand various faults usingSCADA.


CO1 Acquire programming knowledge in PLC

CO2 Student can understand various faults using SCADA



CO1 H H H H H H M L H L H L

CO2 H H H H H H M L H L H L


CO1 H H H H H

CO2 H H H H H


Ca

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Subject Code:

BEE20OL2/

BEE18OL2

Subject Name:

PLC AND SCADA LAB

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LIST OF EXPERIMENTS

1. 1. a) Interfacing of lamp and button with PLC forON/OFFoperation.

2. b) Perform Delayed Operation Of Lamp By Using PushButton.

3. 2. a)Multiple push button operation with delayed lamp forON/OFFoperation.

4. b)Combination of Counter & Timer for Lamp ON/OFFoperation

5. 3. To study Set and Reset operation oflamp.

6. 4. DOL Starter & Star Delta Starter operation by usingPLC.

7. 5. PLC based temperature sensing usingRTD.

8. 6. PLC based thermal ON/OFFcontrol.

9. 7. PLC interfaced with SCADA and status read/ commandtransferoperation.

10. 8. Parameter reading of PLC inSCADA.

11. 9. Alarm annunciation usingSCADA.

12. 10. Reporting and Trending in SCADASystem.

13. 11. Temperature sensing usingSCADA

14. 12. Pressure sensing usingSCADA

Total Number of periods: 45


Subject

Code:

BEE20OL3

/BEE18OL3

Subject Name:

ELECTRICAL MAINTENANCE LAB

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OBJECTIVE:

To acquire knowledge on ElectricalWiring

To know about energymeter

To study about theInsulators

To know about the Neutral andEarthing

To learn about the DistributionTransformers


CO1 Capable of designing a Electrical wiring circuit for Residence.

CO2 Acquired knowledge o how to calibrate Energy meter

CO3 Knowledge on Insulators and its types

CO4 Ability to calculate the earthing of a particular area

CO5 Familiarity in Distribution Transformers



CO1 H H H H H M M M L M M L

CO2 H H H H M M M M H M L L

CO3 M M H H H H M M L M M H

CO4 L L M M H H M M L M H M

CO5 H M M L H H M M H M M L


CO1 M L M M L

CO2 H L M H L

CO3 H M L H M

CO4 L M H L M

CO5 L M L M H


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Subject

Code:

BEE20OL3

/BEE18OL3

Subject Name:

ELECTRICAL MAINTENANCE LAB

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LABORATORY LIST OF EXPERIMENTS

1. Residential House Wiring Using switches, Fuse, Indicator, Lamp and EnergyMeter

2. Types ofWiring

3. Study Troubleshooting of ElectricalEquipment

4. To study earthing of electricalinstallation.

5. To study types ofinsulators.

6. To study maintenance schedule for distribution transformer, testing, maintenance and

protection of distributiontransformer.

7. To study of measurement of insulation resistance andcapacitance.

8. To study of maintenance schedule for storagebatteryswitchgear and control equipment.

9. To study fault occurring in an induction motor to troubleshootthem.

10. To study the types of neutral earthing and substationearthing.

11. To study construction and types ofearthing.

12. Calibration of Energy meter



Subject

Code:

BEE20OL4/

BEE18OL4

Subject Name:

POWER ELECTRONICS LAB

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OBJECTIVE:

To obtain an overview of different types of power semiconductor devices and their switching

characteristics with different triggeringmethods.

To understand the operation, characteristics and performance parameters of controlled Rectifiers and

Inverters. To understandthe techniquestocontrolthespeedofBrushlessDCMotorandSRMotor To understand the operation of AC VoltageControllers To understand the applications of Power Electronic devices and Electric drives in PowerSystem


CO1 Students will understand the operation of power electronics devices and gain knowledge of the comparative

study of different devices based on their switching characteristics .

CO2 Students will understand the operation , characteristics and performance parameters of controlled

Rectifiers and Inverters

CO3 Students capable to understand the techniques to control the speed of Brushless DC Motor and SR

Motor

CO4 Students able to understand the operation of AC Voltage Controllers

CO5 Students able to understand the operation of different converters and incorporate in designing the

HVDC transmission System



CO1 H H H H H M M M L M M L

CO2 H H H H M M M M H M L L

CO3 M M H H H H M M L M M H

CO4 L L M M H H M M L M H M

CO5 H M M L H H M M H M M L


CO1 M L M M L

CO2 H L M H L

CO3 H M L H M

CO4 L M H L M

CO5 L M L M H


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Subject

Code:

BEE20OL4/

BEE18OL4

Subject Name:

POWER ELECTRONICS LAB

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LIST OF EXPERIMENT

1. SCR TriggeringCircuits.

2. Phase control usingTRIAC

3. Phase control usingSCR.

4. Characteristics ofSCR.

5. Characteristics ofIGBT.

6. Single phaseconverters.

7. Parallel Inverters.

8. Seriesinverters.

9. IGBT based PWM Inverters withfilters.

10. IGBT based PWM Inverters withoutfilters.

11. Step upChopper.

12. Step DownChoppers.

Total No of periods : 45


Subject

Code:

BEE20OL5/

BEE18OL5

Subject Name:

BIOMEDICAL INSTRUMENTATION LAB

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OBJECTIVE:

Study of BiologicalPreamplifiers.

To learn Recording of ECG signal andAnalysis.

To learn Recording ofAudiogram.

To study Recording ofEMG

To study the safety aspects of surgicaldiathermy


CO1 Understands Biological Preamplifiers.

CO2 Capable of Recording of ECG signal and Analysis.

CO3 Capable of Recording of Audiogram.

CO4 Capable of Recording of EMG

CO5 Understands Biological Preamplifiers.



CO1 H M M H M L M M L H M L

CO2 H M L M H L M H L M H L

CO3 M M M L H M L H M L M H

CO4 L M H M L M H L M H H M

CO5 H H H M L M L M H H M L


CO1 M M H H L

CO2 H H H M M

CO3 M H H M L

CO4 H H M H L

CO5 M M H L H


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Skil

l

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Open E

lecti

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ab/

Pra

cti

cal

✔


Subject

Code:

BEE20OL5/

BEE18OL5

Subject Name:

BIOMEDICAL INSTRUMENTATION LAB

T

/Lb/

ETL

L T /

S.Lr

P /

R

C




LIST OF EXPERIMENTS

1. Study of BiologicalPreamplifiers.

2. Recording of ECG signal andAnalysis.

3. Recording ofAudiogram.

4. Recording of EMG,EEG

5. Recording of various physiological parameters using patient monitoring system and telemetry units.

6. Measurement of pH, pO2 andconductivity.

7. Study and analysis of functioning and safety aspects of surgicaldiathermy.

8. Acquisition of Heart sounds usingPCG

9. Biotelemetrysystem

10. BP measuringtechniques

11. Glucosesensor

12. Heart Lung machine

Total No of periods : 45


Department of Chemical Engineering

OPEN ELECTIVE

THEORY


Subject Code:

BCT20OE1/

BCT18OE1

Subject Name : Fundamentals of Nanoscience T y/ Lb/ ETL L T / S.Lr P/ R C

Prerequisite: Nil Ty 3 0/0 0/0 3



OBJECTIVE:

To enable the students to learn about basis of nanomaterial science, preparation method, types andapplication.


CO1 Will familiarize about the science of nano materials

CO2 Will develop knowledge in characteristic nano material

CO3 Will demonstrate the preparation of nano materials



CO1 M H - - - - M - - - - -

CO2 M H H - - - - - - L - H

CO3 H H H - L - - - - - - -


CO1 M M M -

CO2 H L H -

CO3 H L H -

Ca

teg

ory

Basi

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Subject Code:

BCT20OE1/

BCT18OE1

Subject Name : Fundamentals of Nanoscience T y/ Lb/ ETL L T / S.Lr P/ R C





Nanoscale Science and Technology- Implications for Physics, Chemistry,Biology and Engineering-

Classifications of nanostructured materials- nanoparticles- quantum dots, nanowires-ultra-thinfilms- multilayered

materials.Length Scales involved and effect on properties: Mechanical, Electronic, Optical, Magnetic and

Thermal properties. Introduction to properties and motivation for study (qualitative only).

UNITII GENERAL METHODSOFPREPARATION 9 Bottom-up Synthesis-Top-down Approach: Co-Precipitation, Ultrasonication,Mechanical Milling, Colloidal

routes, Self-assembly, Vapour phase deposition,MOCVD, Sputtering, Evaporation, Molecular Beam Epitaxy,

Atomic Layer Epitaxy, MOMBE.

UNITIII NANOMATERIALS 9 Nanoforms of Carbon - Buckminster fullerene- graphene and carbon nanotube,Single wall carbon Nanotubes

(SWCNT) and Multi wall carbon nanotubes (MWCNT)- methods of synthesis(arc-growth, laser ablation, CVD

routes,Plasma CVD), structure-property Relationships applications- Nanometal oxides-ZnO, TiO2,MgO, ZrO2,

NiO, nanoalumina, CaO, AgTiO2, Ferrites, Nanoclays functionalization and applications-Quantum wires,

Quantum dots- preparation,properties and applications.

UNITIV CHARACTERIZATIONTECHNIQUES 9 Xray diffraction technique, Scanning Electron Microscopy – environmental techniques, Transmission Electron

Microscopy including high-resolution imaging, Surface Analysis techniques- AFM, SPM, STM, SNOM,

ESCA,SIMSNanoindentation.

UNITV APPLICATIONS 9 NanoInfoTech: Information storage- nanocomputer, molecular switch, super chip, nanocrystal, Nanobiotechlogy:

nanoprobes in medical diagnostics and biotechnology, Nano medicines, Targetted drug delivery, Bioimaging –

Microelectro Mechanical Systems (MEMS), Nano Electro Mechanical Systems (NEMS)- Nanosensors, nano

crystalline silver for bacterial inhibition,Nanoparticles for sunbarrier products - In Photostat, printing, solar cell,

battery.

Total No. of peirods: 45 TEXT BOOKS:

1.A.S. Edelstein and R.C. Cammearata, eds., ―Nanomaterials: Synthesis, Properties andApplications‖,

Institute of Physics Publishing, Bristol and Philadelphia, 1996.

2.N John Dinardo, ―Nanoscale charecterisation of surfaces & Interfaces‖, 2nd edition, Weinheim

Cambridge, Wiley-VCH,2000

REFERENCES: 1.G Timp (Editor), “Nanotechnology”, AIP press/Springer,1999.

2.Akhlesh Lakhtakia (Editor),“The Hand Book of NanoTechnology,Nanometer Structure, Theory,

3.Modeling and Simulations”.Prentice-Hall of India (P) Ltd, New Delhi,2007.


Subject Code:

BCT20OE2/

BCT18OE2

Subject Name: Electrochemical Engineering Ty / Lb/

ETL

L T / SLr P/ R C




OBJECTIVE:

To solve problems related to the production, storage, distribution and utilization of electrochemical energy and the

associated environmentalissues


CO1 Student would be able to integrate professional, ethical, social and environmental factors in electrochemical

engineering design and problem solving and understand the impact of these factors on global energy issues.

CO2



CO1 H - - L - M - - - - - L

CO2 M - - M - - - - - H - -


CO1 H M - -

CO2 M L - -


C

ate

go

ry

Basi

c

Scie

nces

En

gin

eeri

ng

Scie

nces

Hum

anit

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and

Socia

lScie

nces

P

r

Pro

gra

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Ele

ctiv

es

Open

Ele

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es

Pra

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cal

/

Pro

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Inte

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ips

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Technic

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kil

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S

o f

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Subject Code:

BCT20OE2/

BCT18OE2

Subject Name: Electrochemical Engineering Ty / Lb/

ETL

L T / SLr P/ R C




UNITI 9

Review basics of electrochemistry: Faraday‘s law -Nernst potential –Galvanic cells – Polarography, The electrical

double layer: It‘s role in electrochemical processes –Electro capillary curve –Helmoltz layer –Guoy –Steven‘s

layer –fields at the interface.

UNITII 9 Mass transfer in electrochemical systems: diffusion controlled electrochemical reaction –the importance of

convention and the concept of limiting current. Over potential, primary-secondary current distribution –rotating

discelectrode.

UNITIII 9 Introduction to corrosion, series, corrosion theories derivation of potentialcurrent relations of activities controlled

and diffusion controlled corrosion process. Potential-pH diagram, Forms of corrosion- definition, factors and

control methods of various forms of corrosion-corrosion control measures industrial boiler water corrosion

control –protective coatings –Vapor phase inhibitors –cathodic protection, sacrificialanodes

–Paint removers.

UNITIV 9 Electro deposition –electro refining –electroforming –electro polishing –anodizing –Selective solar coatings,

Primary and secondary batteries –types of batteries, Fuel cells.

UNITV 9 Electrodes used in different electrochemical industries: Metals-Graphite –Lead dioxide –Titanium substrate

insoluble electrodes –Iron oxide –semi conducting type etc. Metal finishing-cell design. types of electrochemical

reactors, batch cell, fluidized bed electrochemical reactor, filter press cell, Swiss roll cell, plug flow cell, design

equation, figures of merits of different type of electrochemical

reactors.

Total No. of peirods: 45

TEXTBOOKS:

1. Eckenfelder, W. W, Jr. “Industrial Water Pollution Control” McGraw-Hill: New York,1966.

2. P. L. Ballaney, “Thermal Engineering”, Khanna Publisher New Delhi,1986.

3. Perry R. H. Green D. W. “Perry‟s chemical Engineer‟s Handbook”, McGraw Hill, New York,2007.

REFERENCES: 1. P. N. Ananthanarayan, “Basic Refrigeration & Air conditioning”, Tata McGraw Hill, New Delhi,2007


Subject Code:

BCT20OE3/

BCT18OE3

Subject Name: Alternative Fuels And Energy

Systems

Ty / Lb/ ETL L T / SLr P/ R C




OBJECTIVE:

To know about the types of alternative fuels and energy sources for ICengines.


CO1 On completion of the course, the student will understand the various alternative fuels available, its properties,

performance characteristics, combustion characteristics, emission characteristics, engine modifications required etc.,

CO2



CO1 H - - L - M - - - - - L

CO2 M - - M - - - - - H - -


CO1 H M - -

CO2 M L - -


C

ate

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ry

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Subject Code:

BCT20OE3/

BCT18OE3

Subject Name: Alternative Fuels And Energy

Systems

Ty / Lb/ ETL L T / SLr P/ R C




UNIT I : ALCOHOLS AS FUELS 9 Introduction to alternative fuels. – Need for alternative fuels – Availability of different alternative fuels for SI

and CI engines. Alcohols as fuels. Production methods of alcohols. Properties of alcohols as fuels. Methods of

using alcohols in CI and SI engines. Blending, dual fuel operation, surface ignition and oxygenated additives.

Performance emission and combustion characteristics in CI and SI engines.

UNIT II : VEGETABLE OILSASFUELS 9 Various vegetable oils and their important properties. Different methods of using vegetable oils engines –

Blending, preheating Transesterification and emulsification of Vegetable oils – Performance in engines –

Performance, Emission and Combustion Characteristics in dieselengines.

UNIT III : HYDROGEN ASENGINEFUEL 9 Production methods of hydrogen. Combustive properties of hydrogen. Problems associated with hydrogen as

fuel and solutions. Different methods of using hydrogen in SI and CI engines. Performance, emission and

combustion analysis in engines. Hydrogen storage – safety aspects of hydrogen.

UNIT IV : BIOGAS, NATURAL GAS AND LPGASFUELS 9 Production methods of Biogas, Natural gas and LPG. Properties studies. CO2 and H2S scrubbing in Biogas.,

Modification required to use in SI and CI Engines- Performance and emission characteristics of Biogas, NG and

LPG in SI and CI engines.

UNIT V : ELECTRIC, HYBRID AND FUELCELLVEHICLES 9 Layout of Electric vehicle and Hybrid vehicles – Advantages and drawbacks of electric and hybrid vehicles.

System components, Electronic control system – Different configurations of Hybrid vehicles. Power split

device. High energy and power density batteries – Basics of Fuel cell vehicles.

Total No. of periodss:45

TEXT BOOK: 1. Ayhan Demirbas, „Biodiesel A Realistic Fuel Alternative for Diesel Engines‟, Springer- Verlag London

Limited 2008.

REFERENCES:

1. Gerhard Knothe, Jon Van Gerpen, Jargon Krahl, The Biodiesel Handbook, AOCS Press Champaign,

Illinois2005.

2. Richard L Bechtold P.E., Alternative Fuels Guide book, Society of Automotive Engineers, 1997 ISBN 0-76-

80-0052-1.

3. Transactions of SAE on Biofuels (Alcohols, vegetable oils, CNG, LPG, Hydrogen, Biogasetc.).

4. Science direct Journals (Biomass & Bio energy, Fuels, Energy, Energy conversion

Management, Hydrogen Energy, etc.) onbiofuels.

5. Devaradjane. Dr. G., Kumaresan. Dr. M., “Automobile Engineering”, AMK Publishers,2013.


Subject Code:

BCT20OE4/

BCT18OE4

Subject Name: Petrochemical Unit Processes Ty / Lb/ ETL L T / SLr P/ R C




OBJECTIVE:

To design and conduct experiments and analyze and interpret data related to petrochemical Unitprocesses.


CO1 Students would be able to understand the principles of various unit processes in the petrochemical industry.

CO2



CO1 H - - L - M - - - - - L

CO2 M - - M - - - - - H - -


CO1 H M - -

CO2 M L - -


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Subject Code:

BCT20OE4/

BCT18OE4

Subject Name: Petrochemical Unit Processes Ty / Lb/ ETL L T / SLr P/ R C




UNITI FEED STOCK AND SOURCEOFPETROCHEMICALS 9

Overview of Petrochemical Industry – The key growth area of India, Economics – Feed stock selections for

Petrochemicals – Steam cracking of Gas and Naphtha to produce Olefins, Diolefins and Production of Acetylene –

Cracker product separation and BTX separation.

UNITII SYNTHESISGASPRODUCTION 9

Steam reforming of Natural gas – Naphtha and Heavy distillate to produce Hydrogen and Synthesis gas –

Production of Methanol – Oxo process.

UNITIII UNITPROCESSES I 9

Fundamental and Technological principled involved in Alkylation – Oxidation – Nitration and Hydrolysis.

UNITIV UNITPROCESSESII 9

Fundamental and Technological principled involved in Sulphonation, Sulfation and Isomerisation.

UNITV UNITPROCESSESIII 9

Fundamental and Technological principles involved in Halogenation and Esterification

Total No. of periods:45

TEXT BOOKS:

1. Bhaskara Rao, B.K., “A Text on Petrochemicals”, Khanna Publishers,2000.

2. Sukumar Maiti, “Indroduction to Petrochemicals”, 2nd Edition, Oxford and IBHPublishers,2002.

REFERENCES: 1. Margaret Wells, “Handbook of Petrochemicals and Processes”, 2nd Edition, Ash GatePublishing Limited,2002.

2. Sami Matar, and Lewis F. Hatch., “Chemistry of Petrochemical Processes”, 2nd Edition,Gulf Publishing

Company, 2000.

3. Dryden, C.E., “Outlines of Chemical Technology”, 2nd Edition, Affiliated East-WestPress,1993


Subject Code:

BCT20OE5/

BCT18OE5

Subject Name: Principles of Desalination Technologies Ty / Lb/ ETL L T / SLr P/ R C




OBJECTIVE: Understand the techniques and technologies of desalination, Correlate the core curriculum to practical

applications, Learn to select the right type of desalination system for a given location and purpose.


CO1 Understand the relevance and need for desalination

CO2 Learn the science behind desalination



CO1 H - - L - M - - - - - L

CO2 M - - M - - - - - H - -


CO1 H M - -

CO2 M L - -


C

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Eng

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Subject Code:

BCT20OE5/

BCT18OE5

Subject Name: Principles of Desalination Technologies Ty / Lb/

ETL

L T / SLr P/ R C




UNITI:INTRODUCTION 9

Water Scenario around the world and India – need and relevance of desalination - water sources for desalination –

typical seawater composition – brackish water compositional changes- contaminants: anthropogenic and geogenic-

drinking water standards – WHO and Indian Standards – Mineral Water standards (indian). Desalination –meaning

and description – relation to natural components of desalination - general descriptionminimum energy requirement

– review of fundamentals of physical chemistry aspects relevant to desalination, solution properties – estimating the

minimum energy requirement - based concept of de-mixing – exergy - estimation from colligative properties –

Performance assessment parameters for desalination for thermal and membrane. Different types of Desalination

techniques basic resources required for desalination – energy options – relative characteristics of different types of

energy options.

UNIT II:MEMBRANEDESALINATION 9

General features of Pressure Driven Membrane Processes – classification –Micro-filtration(MF) Ultrafiltration

(UF), Nano-Filtration (NF) – pore-size – performance relationship. Pretreatment System – Need and relevance –

different unit operations including membrane pretreatment (UF) – scaling calculations – dosing systems – treated

water quality monitoring – SDI concept. Reverse Osmosis – basic principle – characteristics of membranes used –

Nano-filtration – basic principle – comparative features of NF and RO – concentration polarization - transport

mechanism and equations (no derivation required)- energy recovery. Performance characteristics of Reverse

Osmosis and Nano-filtration – solute rejection - recovery- water flux – relationship amongst them –effect of

temperature – performance of lab experiments – interpretation of lab data.- application of RO and NF for

desalination.

UNIT III:THERMALDESALINATION 9

Basic Components of thermal Desalination – Heat Source – Sensible heat vs latent heat for use in desalination –

features of isothermal and adiabatic processes. Thermodynamic properties – pressure vs temperature for steam,

change of latent, Cp and BPE with temperature. – corrosion of materials and normal material of

construction.Description of Flashing and Boiling: single effect evaporation and flashing – Need for multiple effects

/ stages – accessories for thermal desalination – ejectors – demisters - vacuum systems – pretreatment systems –

Pumps. Principles of MSF/ MED : MED with TVC and MVC : Basic design considerations for thermal systems –

operational features.

UNIT IV:NON CONVENTIONAL DESALINATION SYSTEMS 9

Membrane based Systems :Electrodialysis, Membrane. Distillation, Forward Osmosis.- Basic Principles –

performance characteristics – Energy requirements – Challenges. Low temperature thermal desalination including

ocean thermal energy and waste heat – Solar desalination including solar stills, solar thermal and solar

photovoltaic– limitations and advantages. Hybrid Desalination systems, combined power and water dual purpose

plants – examples of working desalination plants.

UNIT V: SOCIETAL, COMMERCIAL, ECONOMICS AND ENVIRONMENTAL ASPECTS 9

Selection of Desalination System – considerations based on capacity – local resources (including power, water

etc.)– ultimate use– scale up – brackish water systems – considerations for societal cause / industrial water recycle.

Economic Aspects of esalination – water cost calculation– capital cost/operating costs – feasibility analysis-

Environmental issues –challenges – spent membrane, disposal- discharge concentrated stream – use of concentrate

stream – recovery of values.

Total No. of periods:45

REFERENCE BOOKS:

1 Fundamentals of Salt Water Desalination: Hisham T. El-Dessouky and Hisham M. Ettouney, ISBN:978-0-444-

50810-2 Elsevier(2009)

2 A Desalination Primer: Introductory Book for Students and Newcomers to Desalination :K.S.Spiegler and

Y.M. El-Sayed, ISBN 086689 034 3, Desalination Publications Elsevier(1994)

3 Kirk &Othmer :Encyclopaedia of ChemicalTechnology


Subject Code:

BCT20OE6/

BCT18OE6

Subject Name : Piping Design Engineering T y/ Lb/ ETL L T / S.Lr P/ R C




OBJECTIVE:

To secure position of the Chief Piping Engineer in a reputed engineering firm where the sound technical

experience and prowess in installation of piping can help in executing projects at a faster pace throughreduced costs.


CO1 Supervising team of designers and engineers to execute piping work as well as checking various details

related to piping materials and its thickness .

CO2 Develop skill in Work analysis and material management that could help in efficient management of an enterprise.



CO1 - - M L - - H - M H - M

CO2 M - - M - - M - - H M L


CO1 M M M -

CO2 H L H -

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Subject Code:

BCT20OE6/

BCT18OE6

Subject Name : Piping Design Engineering T y/ Lb/ ETL L T / S.Lr P/ R C




UNITI INTRODUCTION TOPIPINGENGINEERING 9

Fluid flow, types of fluids and examples, different pipe fittings. Friction factor, pressure drop for

flow Newtonian and non-Newtonian fluids, pipe sizing, economic velocity. Pipe line networks and

their analysis for flow in branches, restriction orifice sizing. Pressure drop calculations for non-

Newtonian fluids. two phase flow, types of two phase flow, two phase flow as encountered in

piping for steam, distillation column, pressure drop, vibrations in two phase flow.

UNITII MATERIALSFORPIPING 9

Selection of material for piping, desirable properties of piping materials, materials for various

temperature and pressure conditions, materials for corrosion resistance. Common ASTM and IS

specifications for: Seamless / ERW pipes, pipe fittings, flanges, and fasteners, materials for valves.

Gaskets: Functions and properties, types of gaskets and their selection.

UNIT III CONTROL & SAFETYINPIPING 9

Types of valves, control valves, safety valves, constructional features, criteria for selection. Piping

components, pressure relieving devices, constructional features, selection criteria and application,

safety features. Calculations for line sizing, steam traps, P.R.V. & condensive systems.

UNITIV PIPINGSYSTEMDESIGN 9

Design principles, calculation of pipe diameter, thickness, important system characteristics and

design principles related to steam flow at high and low pressures. Design principles and line sizing

for vacuum pipelines, slurry pipelines, surge drums and flare stacks, vacuum devices including

ejector system. Considerations governing pump selection, analysis of system and pump

characteristics in connection with series, parallel flow, and minimum flow and equalizing lines,

NPSH, allowable nozzle loads in various codes. Design principles and line sizing of pneumatic

conveying of solids, components of conveying systems, dust and fume extraction

systemsprinciples.

UNITV INSULATION AND COSTINGOFPIPING 9

Purposes of thermal insulation, principles of conductive and convective heat transfer to the extent

of application to heat loss / gain through bare pipe surfaces. Critical thickness of insulation,

estimating thickness of insulation, optimum thickness of insulation. Insulation for hot and cold

materials and their important properties, insulation material selection criteria, typical insulation

specification – hot and cold materials. Introduction to P & I Diagrams, Process flow diagrams,

standard symbols and notations. Introduction to various facilities required guidelines for Plot Plan

/ Plant Layout. Introduction to equipment layout, piping layout, piping isometrics and bill of

material. Typical piping system layout considerations for following systems: (i) Distillation

columns andheatexchangers,(ii)Reactors,(iii)Piperacks,(iv)Storagetanks,(v)Pumps


REFERENCE BOOKS:

1. Piping Design Handbook by John J. Mcketta, by Marcel Dekker, Inc, NewYork.

2. Process plant layout and piping design by Ed Bausbacher & Roger Hunt (PTK Prentice

HallPublication)

3. Piping Handbook, Edited by Mohinder Nayyar, McGraw-HillEducation

4. Pipe Drafting and Design by Roy A Parisher & Robert A. Rhea. ASME Codes31


Subject Code:

BCT20OE7/

BCT18OE7

Subject Name : E-Waste Management T y/ Lb/ ETL L T / S.Lr P/ R C


L : Lecture T:Tutorial SLr : Supervised Learning P : Project R :

Research C: Credits TY/LB/ETL: Theory/Lab/Embedded Theory

andLab

OBJECTIVE:

To secure position of the Chief Piping Engineer in a reputed engineering firm where the soundtechnical

experience and prowess in installation of piping can help in executing projects at a faster pace through reduced costs.


CO1 Supervising team of designers and engineers to execute piping work as well as checking various details

related to piping materials and its thickness .

CO2 Develop skill in Work analysis and material management that could help in efficient management of an

enterprise.



CO1 M H - L - - H - - H - M

CO2 M H - M - - M - - H H L


CO1 M M M -

CO2 H L H -

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Subject Code:

BCT20OE7/

BCT18OE7

Subject Name : E-Waste Management T y/ Lb/ ETL L T / S.Lr P/ R C



Composition – e-waste generation in global context – growth of electrical and electronic industry-

Environmental concerns.- Effects on Environment and Human Health.

UNITII THEBASELCONVENTION 12 Compliance and implementation- Scheme to control the movement of hazardous waste - Technical

assistance offered by the Convention -Other important highlights of the Basel Convention - Waste

Electrical and Electronic Equipment (WEEE)- Obligations of the producer under the WEEE.

UNIT III MANAGEMENTE-WASTE 9 Hazardous waste isolation- Guidelines for environmentally sound management- compliance and

implementation – inventory management- reduction- process modification- volume reduction-

recovery and reuse- Concerns/ Challenges for e-waste management

UNIT IV RECYCLINGE-WASTE 12 Global trade in hazardous waste - Rising illegal e-waste exports - Main factors in global waste trade

economy Waste trading as a quintessential part of electronic recycling - Free trade agreements as a means

of waste trading Import of hazardous e-waste - Porous ports and lack of checking facilities - Illegal waste

imports seized in ports

UNIT V RECOMMENDEDOPTIONS 6

Creating awareness-Training for the management and minimization of hazardous wastes –sustainable

product design –role of government – Responsibility of Industries andpublic.


REFERENCES:

1. K. Satyamurty, „Managing e-waste without harming environment‟, The Hindu, 03 April,2006.

2.Marwaan Macan- Markar, „Free Trade Cannot Include Toxic Waste‟, Toxic Trade News, Basel

Action Network

(BAN), February, 2007.

3.Freeman M. H. 1989. Standard Handbook of Hazardous Waste Treatment and Disposal, McGraw-

Hill Company.


Department of Biotechnology

OPEN ELECTIVE

SUBJECTS


Subject

Code:BBT20OE1/

BBT18OE1

Subject Name : FOOD AND

NUTRITION

Ty / Lb/ ETL L T /

S.Lr

P/

R

C




OBJECTIVES: Understanding relationship between food, nutrition and health

COURSE OUTCOMES (COs) : After studying this course the student would be able to

CO1 Understand about the nutritional significance of carbohydrate

CO2 Understand the nutritive and caloric value of food

CO3 Know about the deficiency of vitamins , micro and macro nutrients


COs/POs PO

O1

POO2 PO33 POO4 POO5 POO6 POO7 PO8 PO9 PO10 PO11 PO12

CO1 M H H H H M H H L L L H



COs / PSOs PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


Ca

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Subject

Code:BBT20OE1/

BBT18OE1

Subject Name : FOOD AND NUTRITION Ty / Lb/

ETL

L T /

S.Lr

P/

R

C


UNIT-I: BASIC TERMS USED IN STUDY OF FOOD AND NUTRITION 9

Understanding relationship between food, nutrition and health. Concept of Balanced Diet, Food

Groups, Food Pyramid

UNIT-II:NUTRITIONAL SIGNIFICANCE OF CARBOHYDRATES 9

Definition and classification of carbohydrates. Digestion and absorption of carbohydrates, Metabolism

of carbohydrates (Glycolysis, glycogenesis and Glycogenolysis)

UNIT-III:NUTRITIONAL SIGNIFICANCE OF PROTEINS 9

Definition for proteins,building blocks of proteins (Amino acid classification) functions of proteins,

Metabolism of proteins (Synthesis and degradation)

UNIT-IV:NUTRITIONAL SIGNIFICANCE OF LIPIDS 9

Definition for lipids. Formation of lipids from fatty acids, Classification of lipids. Lipoproteins and

their biological role. Biochemical functions of lipids.

UNIT-V NUTRITIONAL SIGNIFICANCE OF VITAMINS AND MINERALS 9

Classification, Biochemical function and deficiency diseases of Vitamins and minerals


TEXT BOOK

1. Anita Tull (1996). Food and Nutrition.Third Edition. Oxford University Press.

2. Jenny Ridgwell (1996). Examining Food and Nutrition.Heinemann.

3. Paul Fieldhouse (1995). Food and Nutrition.Second Edition, Published by Chapman & Hall.

REFERENCE

1. Bamji MS, Krishnaswamy K, Brahmam GNV (2009). Textbook of Human Nutrition, 3rd Edition.

Oxford and IBH Publishing Co. Pvt. Ltd.

2. Srilakshmi (2007). Food Science, 4th Edition. New Age International Ltd.

3.Srilakshmi,(2005), Dietetics, Revised 5th edition. New Age International Ltd.

4. Wardlaw MG, Paul M Insel Mosby (1996). Perspectives in Nutrition, Third Edition. Core

Course ICMR.

5. Sumati R.Mudambi, M.V. Rajagopal (2001). Fundamentals of Foods and Nutrition. Fourth

Edition. New Age International Publishers.


Subject

Code:BBT20OE2

/ BBT18OE2

Subject Name : HUMAN

PHYSIOLOGY

Ty / Lb/ ETL L T /

S.Lr

P/ R C




OBJECTIVES :To learn about the various physiological mechanism involved in the human system


CO1 Understand the basic respiratory mechanism , circulatory and digestive system

CO2 Understand the excretory system

CO3 Understand the Endocrine and Nervous system


COs/POs POO1 POO2 PO33 POO4 POO5 POO6 POO7 PO8 PO9 PO10 PO11 PO12




COs /

PSOs

PSO1 PSO2 PSO3

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CO2 H H H

CO3 H H H


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Subject

Code:BBT20OE2/

BBT18OE2

Subject Name : HUMAN PHYSIOLOGY Ty / Lb/

ETL

L T /

S.Lr

P/

R

C


UNIT-I: RESPIRATORYSYSTEM 9

Components of transport of Oxygen and Carbon dioxide, Role hemoglobin in transport. Mechanism of

respiration, Chloride shift, Bhor‘s effect.

UNIT-II: CIRCULATORY SYSTEM: 9

Introduction, function, types, of Circulatory organ. Design of Blood vessels, Blood Flow, blood pressure,

Cardiac cycle

UNIT-III:DIGESTIVE SYSTEM 9

Components of Digestive system, Digestion, absorption of carbohydrates, protein, lipids. Role of various

enzymes involved in digestive process

UNIT-IV:EXCRETORY SYSTEM 9

Structure and function of kidney, Structure of a nephron Mechanism of urine formation and other

functions of kidney.

UNIT-V: ENDOCRINE AND NERVOUS SYSTEM 9

Brief outline of various endocrine glands and their secretion, physiological role of hormones. Nervous

system - Brain, spinal cord, nerve cells, and nerve fibers. Synapse, chemical and electrical synapses, nerve

impulses, action potential and neurotransmission.

Total No.of periods: 45

TEXT BOOK

1.BJ Mejer, HS Meij, AC Meyer ,Human physiology, 2nd edition- AITBs publishers abd

distributers.

2.K. Saradha subramanyam, S, A Hand Book of Basic Human physiology. Chand & Co., Ltd.

3.Y. Rajakshmi, S , Guide to physiology. Chand & Co., Ltd.

REFERENCE

1. Gillian Pocock, Christopher D. Richards, David A. Richards. Third Edition 2006. Oxford

University Press.

2. David Wright,(2000) Human Physiology and Health. Heinemann Educational Publishers.

3.Laurence A. Cole, Peter R. Kramer (2016) Human Physiology, Biochemistry and Basic

Medicine Academic Press –Elsevier.

4. Indu Khurana,(2009) Textbook of Medical Physiology. Published by Elsevier.

5.Joseph Feher, (2017) Quantitative Human Physiology an Introduction. Second Edition,

Academic Press- Elsevier


Subject

Code:

BBT20OE3/

BBT18OE3

Subject Name : CLINICAL

BIOCHEMISTRY

Ty /

Lb/

ETL

L T /

S.Lr

P/ R C




OBJECTIVES: To study the basic concept of clinical biochemistry and to gain knowledge about the inborn error of

metabolism. To have knowledge on the clinical enzymology study


CO1 Understand the disease related and inborn error in the metabolism

CO2 Understand the different organ test like liver test and gastric function test etc

CO3 Understand the Enzyme patterns in various function






COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


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Subject Code:

BBT20OE3/

BBT18OE3

Subject Name : CLINICAL

BIOCHEMISTRY

Ty / Lb/

ETL

L T /

S.Lr

P/

R

C


UNIT-I: BASIC CONCEPTS OF CLINICAL BIOCHEMISTRY 9

Specimen collection and processing (Blood, urine, faeces). Anti-coagulant and preservatives for

blood and urine. Transport of specimens.

UNIT-II: DISEASES RELATED TO CARBOHYDRATE METABOLISM 9

Regulation of blood sugar, Glycosuria - types of glycosuria. Oral glucose tolerance test in normal

and diabetic condition. Diabetes mellitus andhyperglycemia hypoglycemia, Ketonuria and

ketosis,Glucogen storage diseases

UNIT-III:DISEASES RELATED TO PROTEIN AND AMINOACID METABOLISM 9

Diseases related to protein calorie malnutrition (Kwashiorkorand marasmus).Inborn errors of

metabolismphenyl ketonuria, alkaptonuria andalbinism

UNIT-IV:DISEASES RELATED TO LIPID METABOLISM 9

Lipid and cholesterol, Classifications, mode of action. Factors affecting blood cholesterol level.

Dyslipoproteinemias, IHD, atherosclerosis, and fatty liver.

UNIT-V: CLINICAL ENZYMOLOGY 9

Enzymes a definition. Isoenzymes with examples. Role of marker enzymes in diseases. Enzyme

patterns in acute pancreatitis, liver damage, bone disorder, myocardial infarction and muscle

wasting.


TEXTBOOK

1. H. Varley, A. H. Gowenlock, and M. Bell (2006) Practical Clinical Biochemistry (6th Ed)

London: Heinemann Medical Books,New Delhi (India) : CBS

2. Ramakrishnan(2001) Clinical biochemistry(3rd Ed) Orient Longman private Ltd.

3. Text book of Medical Biochemistry - Dr. M.N. Chatterjee and Rane Shinde

REFRENCES

1. Clinical chemistry – William Hoffman

2. Clinical Biochemistry with clinical correlation – Devin, Wiley

3. Practical clinical biochemistry – Harold Varley, CBS, New Delhi

4. Nessar Ahmed ( 2017) Fundamentals of Biomedical Science, Second Edition, Oxford Press.

5. R.Swaminathan (2011) Handbook of Clinical Biochemistry,Second Edition,World Scientific

Publishing Co.Pte.Ltd


Subject

Code:

BBT20OE4/

BBT18OE4

Subject Name : BIOPROCESS PRINCIPLES Ty / Lb/ ETL

L T / S.Lr

P/ R C




OBJECTIVES: To study the basic concept of Bioprocess concepts and to gain knowledge about the various industrial

products produced by bioprocess technology.


CO1 Understand the concept of biotranformtion reactions

CO2 Understand the requirements for the bioprocess reactions

CO3 Understand the industrial applications of bioprocess systems



CO1 M H H H H H H H M L M H



COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


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Subject Code:

BBT20OE4/

BBT18OE4

Subject Name : BIOPROCESS

PRINCIPLES

Ty /

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ETL

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UNITI: INTRODUCTION TO INDUSTRIAL BIOPROCESS 9

A brief survey of organisms, processes, products relating to modern biotechnology, General

requirements of fermentation process

UNIT II:RAW MATERIALS AND MEDIA DESIGN FOR FERMENTATION PROCESS 9

Medium requirements for fermentation processes, Media optimization, simple and complex media,

design of various commercial media for industrial fermentation

UNIT III:DESIGN OF A FERMENTOR 9

Basic functions of a fermentor for microbial or animal cell culture, Bioreactors: Batch, fed batch

reactor, continuous stirred tank reactors, residence time distribution.

UNIT IV:STERILIZATION KINETICS 9

Thermal death kinetics of microorganisms, batch and continuous heat sterilization, filter sterilization ,

air sterilization and design of sterilization equipment for batch and continuous.

UNIT V:APPLICATIONS 9

Production of Industrially important enzymes (Cellulase and Protease) and Antibiotics (Penicillin and

Streptomycin)


TEXT BOOKS

1. Peter F. Stanbury, Stephen J. Hall & A. Whitaker, Principles of Fermentation Technology, Science &

Technology Books.

REFERENCES:

1. Bailey and Ollis, “ Biochemical Engineering Fundamentals”, McGraw Hill (2nd

Ed.), 1986.

2. Shule and Kargi, “ Bioprocess Engineering “, Prentice Hall, 1992.

3. Harvey W. Blanch, Douglas S. Clark, Biochemical Engineering, Marcel Dekker, Inc.


Subject

Code:

BBT20OE5/

BBT18OE5

Subject Name :BIOSENSORS AND

BIOMEDICAL DEVICES IN

DIAGNOSTICS

Ty / Lb/

ETL

L T / S.Lr P/ R C




OBJECTIVES : To study the biosensors based on DNA conformation changes, Biosensors based on protein conformation changes


CO1 Understand the biosensors as functional analogs of chemo receptors

CO2 Gain knowledge on the types of biosenors and its application in the clinical field

CO3 Understand the basic principles involved in the non clinical biosensors in various field and other reagent

less biosensors and array based chips


COs/

POs

POO1 POO2 PO33 POO4 POO5 POO6 POO7 PO8 PO9 PO10 PO11 PO12




COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


Ca

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Subject Code:

BBT20OE5/

BBT18OE5

Subject Name :BIOSENSORS

AND BIOMEDICAL DEVICES IN

DIAGNOSTICS

Ty / Lb/

ETL

L T /

S.Lr

P/

R

C


UNITI: FUNDAMENTALS OF BIOSENSORS 9

Biosensors as Functional Analogs of Chemo receptors- Immobilization and biosensor construction,

Biosensor instrumentation-Transduction principles used in a biosensor, Biocomponent of the sensor.

Biological sensing elements and transducer systems- their sensitivity specificity and linearity.

UNIT II: TYPES OF BIOSENSORS 9

Thermometric Indication with Thermistors, Opto electronic Sensors, Piezoelectric Sensors,

Electrochemical Sensors, Potentiometric Electrodes, Amperometric Electrodes, Conductometric

Measurement. Flow injection analysis based biosensors, fiber optics biosensors,Bioluminescence

biosensors, Microbial biosensors, Affinity biosensors, immunosensors.DNA Probes, organic acid probes,

antigen-antibodies reaction, biochemical detection of organelles, receptors, sensors for pollution gases

stability and reusability of sensors.

UNIT III: BIOSENSORS FOR CLINICAL ANALYSIS 9

Biosensors for personal diabetes management (Glucose, Galactose, Gluconate, Lactate, Pyruvate Sensors)

Noninvasive Biosensors in Clinical analysis and health care.

UNIT IV: NON CLINICAL APPLICATION OF BIOSENSORS 9

Applications in Veterinary, Agriculture, Food production, Environmental control and pollution monitoring,

and bioprocess industry.

UNIT V: REAGENTLESS BIOSENSORS & ARRAY-BASED CHIPS 9

Surface Dielectric Enhancement, Gold nanoparticle enhanced surface plasmon resonance, carbon nanotube

and silicon nanowire enhanced conductivity, catalytic activation, electro catalytic detection, catalytically

enabled optical and magnetic detection, Reagent less Immunoelectrodes, biomolecule conformational

modulated effects, Biosensors based on DNA conformation changes, Biosensors based on protein

conformation changes


TEXT BOOK

1. Turner A.P.F, Karube I and Wilson G.S, (1987) Biosensors- Fundamentals and applications, Oxford

Univ.Press.

2. Yang V.C. and T.T.Ngo,(2000) Biosensors and their Applications, Academic/Plenum Publishers.

3.Ashok Mulchandani and Kim R Rogers,(1998)Enzyme and Microbial bio sensors: Techniques and

Protocols,Humana Press Totowa, NJ.

REFERENCE BOOKS

1. Turner A.P.F and Wilsons G.S, (1997) Biosensors: Fundamentals and Applications, Oxford Science

Publications

2. Zoraida P.Aguilar (2013),Nanomaterials for Medical Applications,Elsevier

3. Roger J Narayan (2017), Medical Biosensors for Point of care (POC) applications, Wood Publishing –

Elsevier.

4. Ashutosh Tiwari, Murugan Ramalingam,Hisatoshi Kobayashi, Anthony P.F Turner (2013), Biomedical

Materials and Diagnostic Devices


Subject Code:

BBT20OE6/

BBT18OE6

Subject Name :Basic Bioinformatics Ty / Lb/

ETL

L T / S.Lr P/ R C




OBJECTIVE: To learn nucleotide, protein and genome databases and know about the file formats . To understand

pairwise and multiple sequence alignment and the principle and to gain knowledge on approaches for gene prediction

methods in prokaryotes and eukaryotes

COURSE OUTCOMES (COs) : Upon completion of this course, students will be able to

CO1 Develop bioinformatics tools with programming skills.

CO2 Apply computational based solutions for biological perspectives.

CO3 Pursue higher education in this field.



CO1 M H H H H M H H M M M H




CO1 H H H

CO2 H H H

CO3 H H H


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Subject Code:

BBT20OE6/ BBT18OE6

Subject Name :Basic Bioinformatics Ty / Lb/

ETL

L T /

S.Lr

P/

R

C


UNIT I: BIOLOGICAL DATABASES AND DATA RETRIEVAL 9

Nucleotide databases (Genbank, EMBL), Sequence submission Methods and tools (Sequin, Sakura),

Sequence retrieval systems (Entrez), Protein (Swiss-Prot, Tr-EMBL, Expasy), Genome (NCBI, EBI,

TIGR), Metabolic Pathway DB (KEGG)

UNIT II:PAIRWISE SEQUENCE ALIGNMENT 9

Similarity, Identity and Homology, Global Alignment, Local Alignment, Database Search methods &

tools, Scoring Matrices,

UNIT III:MULTIPLE SEQUENCE ALIGNMENT 9

Significance of MSA, Scoring of MSA, PSI/PHI-BLAST.

UNIT IV:GENE PREDICTION 9

Structure in Prokaryotes and Eukaryotes, Gene prediction methods, Neural Networks, Pattern

Discrimination methods, Signal sites Predictions (Promoter, Splice, UTR, CpG-islands)Methods of

Construction of Phylogenetic trees

UNIT V: NUTRIGENOMICS 9

Introduction to Nutrigenomics and Nutraceuticals


REFERENCES

1. Introduction to Bioinformatics - A. Lesk 2002, Oxford University Press

2. Fundamental concepts of Bioinformatics by D.E. Krane and M.L Raymer, Pearson

Education 2003 ISBN 81-297-0044-1

3. Current Protocols in Bioinformatics, Edited by A.D. Baxevanis et. al., Wiley

Publishers 2005

4. Introduction to Computational Molecular Biology by Joao Carlos Setubal, Joao


Department of Biotechnology

OPEN ELECTIVE

LAB


Subject Code:

BBT20OL1/

BBT18OL1

Subject Name : Basic Biochemistry Lab Ty / Lb/

ETL

L T /

S.Lr

P/ R C

Prerequisite: NIL Lb 0 0/0 3/0 1



OBJECTIVE :.To learn the basic knowledge about different types of Biomolecules and their identification

by chemical reactions

COURSE OUTCOMES (COs) : After finishing this course the students would be able to

CO1 Acquire knowledge about the basics of Nutrition

CO2 Know about the different types of Biomolecules

CO3 Understand the applications of Bio chemistry



CO1 M H H H H M H H H M L H



COs /

PSOs

PSO1 PSO2 PSO3

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CO2 H H H

CO3 H H H


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Subject Code:

BBT20OL1/

BBT18OL1

Subject Name : Basic Biochemistry

Lab

Ty / Lb/

ETL

L T / S.Lr P/ R C


1. Laboratory Safety and Hygiene

2. Preparation of Molar solution

3. Preparation of percentage solution

4. Preparation of Normal solution

5. Qualitative analysis of carbohydrates ( any one sample)

6. Qualitative analysis of Proteins (any one sample)

7. Isolation of Casein

8. Isolation of starch

TEXT BOOKS:

1. Gupta R.C. and Bhargavan S. Practical Biochemistry.

2. David T. Phummer. Introduction of Practical Biochemistry (II Edition).


Subject Code:

BBT20OL2/

BBT18OL2

Subject Name : Basic Bioprocess lab Ty / Lb/

ETL

L T /

S.Lr

P/ R C




OBJECTIVE :.To learn the basic knowledge about different types of biotransformation reactions for the production of commercially important products


CO1 Acquire knowledge about the basics Bioprocess reactions

CO2 Know about the culturing techniques





COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


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Subject Code:

BBT20OL2/

BBT18OL2

Subject Name : Basic Bioprocess lab Ty / Lb/

ETL

L T / S.Lr P/ R C


1. Pure culture techniques

2. Determination of growth curve of the given organism

3. Screening of amylase producing microorganism

4. Screening of protease producing microorganism

5. Determination of TDP (Thermal death point)

6. Determination of TDT (Thermal death time)

7. Production of ethanol using batch fermentation

REFERENCE

1. Manual of industrial microbiology and Biotechnology, Demain A.L. Solomon, J.J., 1986. ASM press.

2. Industrial Microbiology, Reed C., Prescott and Dann‟s, 1982. Macmillan publishers.


Subject Code:

BBT20OL3/

BBT18OL3

Subject Name : Basic Microbiology Lab Ty / Lb/

ETL

L T /

S.Lr

P/ R C

Prerequisite: Nil Lb 0 0/0 3/0 1



OBJECTIVE :.To learn the basic knowledge about different types of Microorganisms identification by

staining methods


CO1 Acquire knowledge about the basics of microbiology

CO2 Know about the staining methods

CO3 Understand the staining methods and identification






COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H H

CO2 H H H

CO3 H H H


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Subject Code:

BBT20OL3/

BBT18OL3

Subject Name : Basic Microbiology

Lab

Ty / Lb/

ETL

L T / S.Lr P/ R C


1. Sterilization technique – Moist heat, dry heat

2. Preparation of culture media (a) Solid medium (b) liquid medium

3. Sterilization of media

4. Pure culture technique

5. Use of microscope

6. Identification of microbes - simple Staining

7. Identification of microbes – Gram staining

8. Hanging drop preparation for motility test

TEXT BOOKS

1. Monica Chessbrough(1999) Laboratory Manual in Microbiology(Vol I & II)Cambridge University Press

2. collee, J.G. etal., ―Mackie & McCartney Practical Medical Microbiology‖ 4th Edition,

Churchill Livingstone, 1996.

REFERENCE BOOKS

1. Cappucino (1999) Microbiology - A laboratory Manual Benjamin Cumming


Subject Code:

BBT20OL4/

BBT18OL4

Subject Name : Basic Bioinformatics Lab Ty / Lb/

ETL

L T / S.Lr P/ R C


L : Lecture T : Tutorial SLr : Supervised Learning P : Project R : Research C: Credits TY/LB/ETL:

Theory/Lab/Embedded Theory and Lab

OBJECTIVE : To enable the students to understand To understand basic commands in UNIX OS.To understand

different biological databases.To carry out sequence and phylogenetic analysis.

COURSE OUTCOMES (COs) : After completing this course students were able

CO1 To demonstrate the protein/DNA sequence search methods and sequence alignment databases.

To understand and hands-on-training on the genome sequence analysis and annotation.

CO2 To analyze the comparative genomics.

CO3 To use various computational tools for expression analysis to identify open reading frames,

mutations, conserved region







CO1 H H H

CO2 H H H

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Subject

Code:

BBT20OL4/

BBT18OL4

Subject Name : Basic Bioinformatics Lab Ty / Lb/

ETL

L T / S.Lr P/ R C


1. Demonstration of Entrez

2. Demonstration of SRS

3. Exploring nucleotide database GenBank

4. Exploring Protein Database Uniprot

5. Database Searches with BLASTP

6. Pair wise Sequence Alignment -EMBOSS

7. Multiple sequence alignment – CLUSTAL OMEGA

REFERENCE BOOK

1. Bioinformatics and Functional Genomics by Jonathan Pevsner

2. Bioinformatics Data Skills: Reproducible and Robust Research with Open by Vince Buffalo

3. Introduction to Bioinformatics Using Action Labs by Jean-Louis Ryan Rossi, Stephen Shee


Department of Computer Science

Engineering

OPEN ELECTIVES


Subject Code:

BCS18OE1/

BCS20OE1

Subject Name :

CYBER SECURITY & FORENSICS

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C


L : Lecture T : Tutorial S.Lr : Supervised Learning P : Project R : Research C: Credits


OBJECTIVE :

To learn the Basics of cyber crime.

To Understand the infrastructure, information security and risk management.

To ability to work with digital evidence, information collection and information protection.


CO1 Understand the fundamental of Cyber crime.

CO2 Will be able to understand the the infrastructure, information security and risk

management.

CO3 Will have ability to work with the digital evidence, information collection and information

protection.



CO1 H M M L L L L M L M L L

CO2 H H L H M L L M L M L L


COs /

PSOs

PSO1 PSO2 PSO3 PSO4 PSO5 PSO6

CO1 H M L M L L

CO2 H L L L L L

CO3 H L L L L L


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✔


Subject Code:

BCS18OE1/

Subject Name :

CYBER SECURITY & FORENSICS

Ty /

Lb/

L T /

S.Lr

P/ R C


OBJECTIVES:

To learn the Basics of cyber crime.

To Understand the infrastructure, information security and risk management.

To ability to work with digital evidence, information collection and information protection.

UNIT I: Introduction to Cyber Crime 9

Overview, what is Cybercrime?, Computer Intrusions and Attacks (Unauthorized Access) Computer

Viruses, Time Bombs, Trojans, Malicious Code (Malware),Online Fraud and Identity Theft;

Intellectual Property Theft; Virtual Crime, Online Vice: Gambling; Pornography; Child

Exploitation, International Aspects and Jurisdiction

UNIT II: Information security 9

Infrastructure and Information Security; Risk Management

UNIT III: Instigation and digital evidence 9

Investigating Cybercrime: Digital Evidence and Computer Forensics,Interception, Search and

Seizure, and Surveillance

UNIT IV: Information Welfare 9

Information Warfare, Cyber terrorism, and Hacktivism,Terrorism, Radicalization, and The War of

Ideas, Trade Secret Theft and Economic Espionage, National Security.

UNIT V: Data Prevention 9

Desktop Security, Data and file Security, Network resources Security, Firewall, Mobile data

Security.


Text Books

1. David J. Loundy, COMPUTER CRIME, INFORMATION WARFARE, AND ECONOMIC

ESPIONAGE, Carolina Academic Press (2003) (ISBN:0890891109).

2. Jack Balkin, et al. eds., CYBERCRIME: Digital Cops in a Networked World (NYU Press 2007)

(ISBN:0814799833).

REFERENCE BOOKS

1. Hacking for Dummies by by Kevin Beaver Published by Wiley Publishing, Inc.2004

2. Kenneth C.Brancik “Insider Computer Fraud” Auerbach Publications Taylor & Francis Group–

2008.

3. AnkitFadia “ Ethical Hacking” second edition Macmillan India Ltd, 2006

4. Live Hacking: The Ultimate Guide to Hacking Techniques & Countermeasures for Ethical Hackers &

IT Security Experts... by Ali Jahangiri (Oct 21, 2009)

5. Ethical hacking countermeasures - An Ultimate Guide For Ethical Hackers [Paperback]Mr.

Lomeaskeshkumar (Author), September 1, 2014.


Subject Code:

BCS18OE2/

BCS20OE2

Subject Name :

ARTIFICIAL INTELLIGENCE AND

EXPERT SYSTEM

Ty / Lb/

ETL

L T /

S.Lr

P/ R C




OBJECTIVE :

Study the concepts of Artificial Intelligence.

Learn the methods of solving problems using Artificial Intelligence.

Introduce the concepts of Expert Systems and machine learning.


CO1 Understand concept of Artificial Intelligence.

CO2 Will be able to understand the problem and find a solution using Artificial Intelligence.

CO3 Will have a basic knowledge on machine learning.






COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


C

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go

ry

Basi

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Eng

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Scie

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Hu

manit

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echn

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Skil

l

So

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kil

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Subject Code:

BCS18OE2/ BCS20OE2

Subject Name :

ARTIFICIAL INTELLIGENCE AND

EXPERT SYSTEM

Ty /

Lb/ ETL

L T /

S.Lr

P/ R C


OBJECTIVES:

Study the concepts of Artificial Intelligence.

Learn the methods of solving problems using Artificial Intelligence.

Introduce the concepts of Expert Systems and machine learning.

UNIT I: Introduction and Problem Solving 9

Introduction – Types of agents – Agent Structure – Problem solving agents – Problem Formulation -

Uninformed search strategies.

UNIT II: Informed Search and Game Playing 9

Informed search Strategies – A* Heuristic function – Hill Climbing –Constraint Specification

problem - Optimal decisions in games – Pruning

UNIT III: Knowledge Inference 9

Knowledge representation - Inference – Backward chaining, Forward chaining, Fuzzy reasoning –

Certainty factors- Bayesian Theory-Bayesian Network-Dempster – Shafer theory.

UNIT IV: Planning and Machine Learning 9

Planning-STRIPS-planning with state space search-partial order planning –Learning- Machine

learning, adaptive Learning.

UNIT V: Expert Systems 9

Expert systems – Architecture of expert systems, Roles of expert systems – Knowledge Acquisition

–Meta knowledge, Heuristics. Typical expert systems – MYCIN, DART, XOON, Expert systems

shells.


Text Books:

1. Stuart Russel and Peter Norvig ―AI – A Modern Approach‖, 2nd Edition, Pearson Education

2007.

2. Kevin Night and Elaine Rich, Nair B., ―Artificial Intelligence (SIE)‖, McGraw Hill- 2008. (Unit-

1,2,4,5).

3. Dan W. Patterson, ―Introduction to AI and ES‖, Pearson Education, 2007. (Unit-III)

REFERENCES:

1. Peter Jackson, “Introduction to Expert Systems”, 3rd Edition, Pearson Education, 2007.

2. Deepak Khemani “Artificial Intelligence”, Tata Mc Graw Hill Education 2013.

3. http://nptel.ac.in/

http://nptel.ac.in/


Subject Code:

BCS18OE3/

BCS20OE3

Subject Name :

PYTHON PROGRAMMING

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVE :

The students will be able to do programming in Python.

Develop a basic understanding of programming and the Python programming language.

See the value of programming in a variety of different disciplines—especially as it relates in

engineering.


CO1 Describe the role of programming language.

CO2 The current scenario of information technology and relate those issues to the firm using

programming language.

CO3 Reproduce a working knowledge of concepts and terminology related to programming language

by developing students creativity.






COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


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Basi

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Subject Code:

BCS18OE3/

BCS20OE3

Subject Name :

PYTHON PROGRAMMING

Ty / Lb/

ETL

L T /

S.Lr

P/ R C


OBJECTIVES:

The students will be able to do programming in Python.

Develop a basic understanding of programming and the Python programming language.

See the value of programming in a variety of different disciplines—especially as it relates in

engineering.

UNIT I: INTRODUCTION 9

History of Python, Need of Python Programming, Applications Basics of Python Programming

Using the REPL(Shell), Running Python Scripts, Variables, Assignment, Keywords, Input-Output,

Indentation.

UNIT II: TYPES, OPERATORS AND EXPRESSIONS 9

Types - Integers, Strings, Booleans; Operators- Arithmetic Operators, Comparison (Relational)

Operators, Assignment Operators, Logical Operators, Bitwise Operators, Membership Operators,

Identity Operators, Expressions and order of evaluations Control Flow- if, if-elif-else, for, while,

break, continue, pass.

UNIT III: FUNCTIONS 9

Defining Functions, Calling Functions, Passing Arguments, Keyword Arguments, Default

Arguments, Variable-length arguments, Anonymous Functions, Fruitful Functions (Function

Returning Values), Scope of the Variables in a Function - Global and Local Variables.

UNIT IV: DATA STRUCTURES 9

Lists - Operations, Slicing, Methods; Tuples, Sets, Dictionaries, Sequences. Comprehensions.

UNIT V: OBJECT ORIENTED PROGRAMMING OOP IN PYTHON 9

Classes, 'self variable', Methods, Constructor Method, Inheritance, Overriding Methods, Data

hiding.


TEXT BOOKS:

1. Python Programming: A Modern Approach, Vamsi Kurama, Pearson.

2. Learning Python, Mark Lutz, Orielly.

REFERENCE BOOKS:

1. Think Python, Allen Downey, Green Tea Press

2. Core Python Programming, W.Chun, Pearson.

3. Introduction to Python, Kenneth A. Lambert, Cengage.


Subject

Code:

BCS18OE4/

BCS20OE4

Subject Name :

COMPUTER HARDWARE AND

MAINTENANCE

Ty / Lb/ ETL L T /

S.Lr

P/ R C

Prerequisite:Nil. Ty 3 0/0 0/0 3



OBJECTIVE :

To learn about basics of computers hardware & software

To aware the basics of operating system installation and application installation

Understand the basics of hardware, Software and network troubleshooting


CO1 Understand the components of computers.

CO2 Will be aware and have knowledge of hoe to install an operating system.

CO3 Will have a basic knowledge on problem and how to solve the problem.






COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


C

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go

ry

Basi

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En

gin

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Scie

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manit

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Socia

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Pro

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Technic

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So

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kil

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Subject Code:

BCS18OE4/

BCS20OE4

Subject Name :

COMPUTER HARDWARE AND

MAINTENANCE

Ty /

Lb/

ETL

L T /

S.Lr

P/ R C

Prerequisite:Nil. Ty 3 0/0 0/0 3

OBJECTIVES:

To learn about basics of computers hardware & software

To aware the basics of operating system installation and application installation

Understand the basics of hardware, Software and network troubleshooting

UNIT I: Introduction 9

Evolution of Computers - Generations, Types of computers, Computer system characteristics, Basic

components of a Digital Computer - Control unit, ALU, Input/output functions and memory,

Memory addressing capability of a CPU, Word length of a computer, processing speed of a

computer, Computer Classification. Number Systems: Definition of Number system, necessity of

binary number system, binary, decimal, octal and hexadecimal number system, inter conversion of

numbers, Representation of integers, fixed and floating points, BCD codes, Error detecting and

correcting codes, character Representation-ASCII, EBCDIC, Binary arithmetic

UNIT II:Input /Output devices 9

Input /Output devices-: Keyboard, Mouse, Trackball, Joystick, Digitizing tablet, Scanners, Digital

Camera, MICR, OCR, OMR, Bar-code Reader, Voice Recognition, Light pen, Touch Screen,

Display unit and it types -Digital, Analog, Size, Resolution, Refresh Rate, Dot Pitch, Video Standard

- VGA, SVGA, XGA etc, Printers & types - Daisy wheel, Dot Matrix, Inkjet, Laser, Line Printer,

Plotter, Sound Card and Speakers.

Memory - RAM, ROM, EPROM, PROM and other types of memory, Storage fundamentals -

Primary Vs Secondary Data Storage, Various Storage Devices - Magnetic Tape, Magnetic Disks,

Cartridge Tape, Hard Disk Drives, Floppy Disks (Winchester Disk), Optical Disks, Zip Drive, flash

drives , Blue Ray Disc,

UNIT III:Software Concepts 9

Software Concepts: Introduction, types of software - System & Application software; Definition of

Operating System, Types of Operating System, features of Unix, Basic Architecture of Unix/Linux

system, features of Kernel and Shell. Introduction to Unix File system – History of Microsoft

Windows operating system, File system in Windows, introduction to MAC operating system and file

system.

UNIT IV: Computer assembling 9

Computer assembling – Operating System Installation, install/upgrading new hardware, device

driver configuration. Installing and configure various type of Application software. Data Backup –

automatic , Manual – Data / File recovery. Configuring various type of system services. Software

upgrade and Maintenance.

UNIT V: Case study 9

Case study on troubleshooting in Hardware, Software (System and Application) and Networking.


TEXT BOOK

1. Computer Fundamentals – B. Ram – New Age International Publishers

2. PC Hardware: A Beginner‘s Guide - RON GILSTER- McGraw-Hill

REFERENCE BOOKS

1. Computer Fundamentals – P. K. Sinha – BPB Publication

2. PC Software – Shree Sai Prakashan, Meerut


Subject Code:

BCS18OE5/

BCS20OE5

Subject Name :

DATA BASE CONCEPTS

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVE :

To learn the Basics of DBMS concepts.

To Understand the DDL, DML and SQL Procedures.

To ability to work with the Database software.


CO1 The students will have knowledge on various file system.

CO2 The students will be able to create and maintain the database.

CO3 The students will have knowledge how the backend database is been maintained.






COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


C

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go

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Basi

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Eng

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Scie

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Hu

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Subject Code:

BCS18OE5/ BCS20OE5

Subject Name :

DATA BASE CONCEPTS

Ty / Lb/

ETL

L T /

S.Lr

P/ R C


OBJECTIVES:

To learn the Basics of DBMS concepts

To Understand the DDL,DML and SQL Procedures

To ability to work with the Database software

Unit I: Fundamentals of Database 9

DBMS Definition, Characteristics of DBMS ,Application and advantages of DBMS, Instances,

Schemas and Database States, Three Levels of Architecture, Data Independence, DBMS languages,

Data Dictionary, Database Users, Data Administrators.

Unit II: ER Model 9

Data Models, types and their comparison, Entity Relationship Model, Entity Types, Entity Sets,

Attributes and its types, Keys, E-R Diagram, Data Integrity RDBMS –Concept, Components and

Codd‘s rules.

Unit III: Relational Model 9

Relational Algebra (selection, projection, union, intersection, Cartesian product, Different types of

join like theta join, equi-join, natural join, outer join) Functional Dependencies, Good & Bad

Decomposition, Anomalies as a database: A consequences of bad design, Normalization: 1NF, 2NF,

3NF, BCNF, 4NF 5NF.

Unit IV: SQL 9

Introduction to SQL, DDL, DML, and DCL statements, Creating Tables, Adding Constraints,

Altering Tables, Update, Insert, Delete & various Form of SELECT- Simple, Using Special

Operators for Data Access. Aggregate functions, Joining Multiple Tables (Equi Joins), Joining a

Table to itself (self Joins) Functions

Unit V: PL / SQL 9

Introduction to PL/SQL (blocks of PL/SQL, Variables, constants), Control Structure Introduction to

Stored Procedures, Functions, Cursor and Triggers.


Text Book:

1. H. F. Korth & A. Silverschatz, Database Concepts, Tata McGraw Hill, New Delhi

REFERENCES:

1. C. J. Date, Database Systems, Prentice Hall of India, New Delhi.

2. Ivan Bayross, SQL,PL/SQL, The programming language of Oracle.


Subject Code:

BCS18OE6/

BCS20OE6

Subject Name :

INTRODUCTION TO MACHINE LEARNING

Ty /

Lb/

ETL

L T /

S.Lr

P/

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OBJECTIVE :

Introduce the concept of learning patterns from data and develop a strong theoretical foundation for

understanding state of the art Machine Learning algorithms.

This course is broad in scope and gives the student a holistic understanding of the subject


CO1 Be able to formulate machine learning problems corresponding to different applications and

Understand a range of machine learning algorithms along with their strengths and

weaknesses.

CO2 Understand the basic theory underlying machine learning, Be able to apply machine learning

algorithms to solve problems of moderate complexity.





COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L


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Eng

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Subject Code:

BCS18OE6/

BCS20OE6

Subject Name :

INTRODUCTION TO MACHINE LEARNING

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C


OBJECTIVES:

Introduce the concept of learning patterns from data and develop a strong theoretical foundation for

understanding state of the art Machine Learning algorithms.

This course is broad in scope and gives the student a holistic understanding of the subject.

COUSE OUTCOME OF THE COURSE:

1. Be able to formulate machine learning problems corresponding to different applications.

2. Understand a range of machine learning algorithms along with their strengths and weaknesses.

3. Understand the basic theory underlying machine learning.

4. Be able to apply machine learning algorithms to solve problems of moderate complexity.

Unit I: Introduction 9

Introduction -Idea of Machines learning –Issues in machine learning-Concept Learning task-search-

version spaces-candidate elimination algorithm.

Unit II: Classification Learning 9

Decision tree Learning-Hypothesis space search-Inductive bias-Issues-Artificial Neural Networks-

representaion-learning-Back propagation algorithm-Face recognition-advanced topics-Evaluating

Hypotheses.

Unit III: Statistical Learning 9

Bayesian Learning-Bayes Theorem-Bayesian belief networks-EM algorithm-Computational learning

theory-Finite and Infinite hypothesis spaces.

Unit IV: Clustering 9

Instance Based learning-K-Nearest neighbor learning-Genetic algorithms-Learning set of rules-

FOIL-Inverted resolution.

Unit V: Analytical Learning 9

Analytical Learning-PROLOG-Combinative learning-KBANN-EBNN-FOCL-Reinforcement

Learning-Qlearning.


Text Books:

1. Machine Learning, Tom M. Mitchell McGraw-Hill Science/Engineering/Math.

REFERENCE BOOKS:

1. Building Machine Learning Systems with Python, Richert & Coelho ,2013.


OPEN LAB

Subject Code:

BCS18OL1/

BCS20OL1

Subject Name :

VISUAL PROGRAMMING LAB

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C

Prerequisite: Nil. Lb 0 0/0 3/0 1



OBJECTIVE :

The objective is to review the basics of Visual programming.

Students will also understand the concepts of Visual Basic programming.

Getting more knowledge about windows programming.


CO1 Understand concept of Visual Programming.

CO2 Will be able to understand the problem and will have the creativity for writing programe.

CO3 Will have a basic knowledge on intercommunication of windows programming.






COs / PSOs PSO1 PSO2 PSO3 PSO4 PSO5 PSO6

CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


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Subject

Code:

BCS18OL1/

BCS20OL1

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/ R C


OBJECTIVES:




1. VISUAL BASIC

1. Adding menus to forms

2. Creating dialog boxes with various options

3. MDI applications

4. Writing code for various keyboard and mouse events

5. OLE container control

6. Data access through Data control and DAO.

7. Active X control

8. Active X Document

9. Active X DLL 2.

2. VISUAL C++

1. Creating applications with App wizard

2. Working with MFC

3. Exception handling

4. Loading - Editing and - Adding resources - Linking resources to applications

5. Drawing bitmaps

6. Threads

7. OLE

8. Graph Applications

LEARNING OUTCOMES: Upon completion of this course, the student will be able to:

a. Design, create, build, and debug Visual Basic applications.

b. Explore Visual Basic‘s Integrated Development Environment (IDE).


Subject Code:

BCS18OL2/

BCS20OL2

Subject Name :

WEB DESIGN LAB

Ty /

Lb/

ETL

L T /

S.Lr

P/

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C




OBJECTIVES :

Overview Object Web Technologies

Basic Concept of Web Technologies

Advance Programming.


CO1 Understand concept of web technologies.

CO2 Will be able to design the web programming.





COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L


C

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Subject

Code:

BCS18OL2/ BCS20OL2

Subject Name :

WEB DESIGN LAB

Ty / Lb/

ETL

L T / S.Lr P/ R C


OBJECTIVES :




1. Practice Internet applications.

2. Explore Web browsers, search engines

3. Familiarise with web portals, e-commerce sites, blogs etc

4. Basic Html Tags

5. Hyper Links, Tables & Multimedia

6. Frames & iFrames

7. Inline, Internal and External Style sheets

8. Design a web page to display your full bio-data.

9. Simple Validating Form (a) HTML forms, (b) JavaScript

10. Registration Form with Multi-Validating

11. Design a web page to select the elective subject through online with registration form.


Subject Code:

BCS18OL3/

BCS20OL3

Subject Name :

PYTHON PROGRAMMING LAB

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :

To write, test, and debug simple Python programs.

To implement Python programs with conditionals and loops.

Use functions for structuring Python programs.

Read and write data from/to files in Python.


CO1 Understand, write and test simple python program.

CO2 Execute Python programs with conditionals and circles.

CO3 Use capacities for organizing Python programs.

CO4 Students can Create own phython program.



CO1 H M L L M L L L L L L M




COs /

PSOs


CO1 H M L L L M

CO2 H M L L L M

CO3 H M L L L M

CO4 H M L L L M


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Subject Code:

BCS18OL3/

BCS20OL3

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

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C


OBJECTIVES :





1. Write a python program to perform all arithmetic operation.

2. Write a python program to change the last character in a word.

3. Write a python program to check for palindrome.

4. Write a python program to check for prime number.

5. Write a python program to find the length of the word and display either the length is odd or even.

6. Write a python program to perform Fibonacci series for n numbers.

7. Write a python program to display the words using Dictionaries.

8. Write a python program to to change the alternative characters of a word.

9. Write a python program to find the ASCII value for your name.

10. Write a python program to to perform stack operation using array.


Subject Code:

BCS18OL4/

BCS20OL4

Subject Name :

COMPUTER NETWORK LAB

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :

To understand the working difference between straight cable and cross over cable.

To use the packet tracer to simulate various networks.


CO1 Understand concept and working of different cables.

CO2 Will be able to use stimulator and can stimulate various networks.





COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L


C

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Basi

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Eng

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Scie

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Subject

Code:

BCS18OL4/

BCS20OL4

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/ R C


OBJECTIVES :



1. Study of different types of Network cables and Practically

implement the cross-wired cable

2. Study of Network Devices in Detail.

2a. Study of Network Devices in layer1( HUB, REPEATER)

2b.Study of Network Devices in layer2(Swith)

2c.Study of Network Devices in layer3( Router)

3. Study of FIREWALL

4. Connect the computers in Local Area Network.

5. Study of Network IP.

5a. IPV4

5b. IPV6

6. Study of Network Topologies

6a. Bus Topology

6b. Ring Toplogy

6c. Star Topology

7. Study of MAC address and port numbers.


Subject Code:

BCS18OL5/

BCS20OL5

Subject Name :

PHP / MySQL PROGRAMMING LAB

Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :

To Become a Web Site developer / Programmer

To Enable the Students to become expert in MySQL.


CO1 Understand the requirement and develop the website.

CO2 To establish a back-end connectivity for data storage and utilization.





COs /

PSOs


CO1 H M L L L M

CO2 H M L L L M


C

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Eng

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Scie

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Open

Lab

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Subject Code:

BCS18OL5/

BCS20OL5

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C


OBJECTIVES :



1. Use of select statements for queries

2. Nested queries using SQL

3. Built in functions in SQL

4. Update operations using SQL.

5. Use of index, creating views and querying in views

6. Create a php program to find odd or even number from given number

7. Write a php program to find maximum of three numbers.

8. Write a PHP program to swap two numbers.

9. Write a PHP Program to demonstrate the variable function: Gettype():

10. Write a PHP program to drop table using MySQL.

11. Create a student Registration in PHP and Save and Display the student Records

12. Write a program to Develop student registration form and display all the submitted data on another page.


Department of Information

Technology

OPEN ELECTIVES


BIT20OE1/

BIT18OE1

Subject Name :

WEB DESIGN

Ty/

Lb/

ETL

L T/

S.Lr

P/R C




OBJECTIVES :

The students will learn the Network and Internet works.

To learn the HTML program structure, elements and Tags.

To have knowledge to design basic website for their own.

To learn how to design an effective website using CSS.

To learn and develop a dynamic web sites using scripting languages.


CO1 Basics of Network and Internet works.

CO2 Able to evaluate a web site

CO3 Ability to make a well interactive online applications.

CO4 Have knowledge to analysis and evaluate on web site and design a quality web site.



CO1 H L M L L H L L H M L L

CO2 H M L H L L L L L L L H

CO3 M M H L H M H L M M L L

CO4 M M H L L M L L M M L L

COs /

PSOs


CO1 L H L L M L

CO2 L H L L M L

CO3 H M L L M M

CO4 H M L L M M


C

ate

go

ry

Basi

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En

gin

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Scie

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manit

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BIT20OE1/

BIT18OE1

Subject Name :

WEB DESIGN

Ty/

Lb/

ETL

L T/

S.Lr

P/R C


OBJECTIVES:

The students will learn the Network and Internet works.

To learn the HTML program structure, elements and Tags.

To have knowledge to design basic website for their own.

To learn how to design an effective website using CSS.

To learn and develop a dynamic web sites using scripting languages.

UNIT I: Introduction to Network 9

Introduction to computer networks and uses - Network: devices, topology and types –

Communication media. Introduction to OSI layers, Port and Protocols, Network applications. Client

/ Serverarchitecture. Internet server provider, DNS and Hosting.

UNIT II: Web Design Principles 9

Brief History of Internet - What is World Wide Web - Why create a web site - Web Standards -

Audience requirement. Basic principles involved in developing a web site - Planning process - Five

Golden rules of web designing - Designing navigation bar - Page design - Home Page Layout -

Design Concept.

UNIT III: HTML 9

Introduction to HTML- HTML version- Basic structure of an HTML document – Creating HTML

document – HTML Elements - HTML Tags - Working with Text - Working with Lists, Tables and

Frames - Working with Hyperlinks, Images and Multimedia - Working with Forms and controls .

UNIT IV: Cascading Style Sheet 9

Concept of CSS - Creating Style Sheet - CSS Properties - CSSStyling (Background, Text Format,

Controlling Fonts) - Working with block elements and objects - Working with Lists and Tables -

CSS Id and Class - Box Model(Introduction, Border properties, Padding Properties, Margin

properties) - CSS Advanced(Grouping, Dimension, Display, Positioning, Floating, Align, Pseudo

class, Navigation Bar, Image Sprites, Attribute sector) - CSS Color - Creating page Layout and Site

Designs.

UNIT IV: Scripting Languages 9

JavaScript introduction – control structures – functions – arrays – objects – simple web applications.

Web hosting and maintenance.


Text Books:

1. Computer Networks by A Tanenbaum - 5th edition , Pearson Education

2. Mastering HTML, CSS & JavaScript Web Publishing by Laura Lemay, Rafe Coburn, Jennifer

Kyrnin , Pearson Education.

3. HTML & CSS: The Complete Reference, Fifth Edition by Thomas A. Powell, McGraw-Hill

publication.


BIT20OE2/

BIT18OE2

Subject Name :

DIGITAL MARKETING

Ty/

Lb/

ETL

L T/

S.Lr

P/R C




OBJECTIVES :

This course helps the students to understand the fundamental principles of Digital marketing, the

past, present and future potential of Digital marketing.

At the end of the course students will be able to identify the role of e-marketing in the present

context and develop an e-marketing plan with appropriate e-marketing strategies.


CO1 Understand the concepts and uses of Digital Marketing

CO2 Develop Strategic Planning for the Market

CO3 Evaluate the Ethical and Legal Values

CO4 Predict the Marketing Trends



CO1 H L M L L L L H L M L L

CO2 H M L L L L H L L L L H

CO3 M M H L H M L L M M L L

CO4 M M H L L M L L M M H L

COs /

PSOs


CO1 L H L L M L

CO2 L H L L M L

CO3 H M L L M M

CO4 H M L L M M


C

ate

go

ry

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Scie

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Skil

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BIT20OE2/

BIT18OE2

Subject Name :

DIGITAL MARKETING

Ty/

Lb/

ETL

L T/

S.Lr

P/R C


OBJECTIVES:

This course helps the students to understand the fundamental principles of Digital marketing, the past,

present and future potential of Digital marketing.

At the end of the course students will be able to identify the role of e-marketing in the present context

and develop an e-marketing plan with appropriate e-marketing strategies.

UNIT I: INTRODUCTION 9

Digital-Marketing Past, Present & Future – Digital-Marketing Landscape, Digital-marketing‘s Past -

Web 1.0, Digital Marketing Present - Web 2.0, Future -Web 3.0, Strategic Digital-Marketing, and

Digital -Business Models – Online Revenue Models, Value Models, and Strategic Digital-Business

Models.

UNIT II: DIGITAL MARKETING PLAN 9

Process, Creating a Digital-Marketing Plan, Seven Steps –Situation Analysis, Strategic Planning,

Objectives, Digital-Marketing Strategies – Product, Price, Distribution, Communication,

Relationship Management; Implementation plan, Budget, Evaluation.

UNIT III: DIGITAL -MARKETING ENVIRON MENT 9

Overview of Digital-Marketing Environment, Global Digital -Markets, Wireless Internet Access,

Digital divide, Building inclusive Digital markets, social networking, Ethical and Legal Issues –

Overview, Digital Property, Emerging issues.

UNIT IV:DIGITAL-MARKETING MANAGEMENT 9

Online offer – Creating customer value online, Product Benefits, Digital Marketing enhanced

product development, Payment options, Pricing Strategies; Internet as distribution, Digital

Marketing Communication – Owned Media, Paid media, Earned Media.

UNIT V: EMERGING TRENDS 9

Emerging trends in Digital-marketing, Content Marketing, Social Media Marketing, Email

Marketing, Affiliate Marketing, Video Marketing, Mobile Marketing, Interactive advertising,

International Online Marketing, Search Engine Marketing, Online Partnership, Viral Marketing, E-

CRM, E-Business, E-Tailing.


TEXT BOOK:

1. Strauss Judy, Frost Raymond (2013), E-Marketing, 7/e; New Delhi: Prentice Hall.

2.

REFERENCE BOOKS:

1. Chaffey Dave and Smith PR (2013), Emarketing Excellence: Planning and Optimizing your Digital

Marketing; 4/e; Routledge.

2. Ryan Damian, (2014), Understanding Digital Marketing: Marketing Strategies for Engaging the

Digital Generation, 3/e; Kogan Page Limited.


Subject Code:

BIT20OE3/

BIT18OE3

Subject Name :

INFORMATION SECURITY MANAGEMENT

Ty/

Lb/

ETL

L T/

S.Lr

P/R C




OBJECTIVES :

To provide an understanding of the principles of information security management commonly

used in business

Introduce the commonly used frameworks and methods

Explore critically the suitability and appropriateness of security needs.


CO1 To Understand the Security and classification of Components.

CO2 Concept of Security Analysis, Design and Implementation

CO3 Develop the security plan methodology and follow policy procedures

CO4 Using ISO to enhance security



CO1 H L M L L L H L L M L H

CO2 H M L H L L L L L L L L

CO3 M M H L L M L H M M L L

CO4 M M H L H M L L M M L L

COs /

PSOs


CO1 L H L H M L

CO2 L H L L M L

CO3 H M H L M M

CO4 H M L L M M


C

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Basi

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En

gin

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ng

Scie

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manit

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Subject Code:

BIT20OE3/

BIT18OE3

Subject Name :

INFORMATION SECURITY MANAGEMENT

Ty/

Lb/

ETL

L T/

S.Lr

P/R C


OBJECTIVES :

The objective of the course is

To provide an understanding of the principles of information security management commonly used in

business

Introduce the commonly used frameworks and methods

Explore critically the suitability and appropriateness of security needs.

UNIT I : INTRODUCTION TO INFORMATION SECURITY AND MANAGEMENT 9

Information sensitivity classification-governance-computing environment- security of various

components – Management Concepts: traditional management skills and security literacy,

managerial skills, redefining Mintzberg‘s Managerial roles, IS Security management activities-

information security management life cycles- security management vs functional management

UNIT II : INFORMATION SECURITY LIFECYCLE 9

Introduction-Security planning in SLC-Security analysis-security design- security implementation –

design- continual security

UNIT III : SECURITY PLAN AND POLICY 9

Security plan: Development guidelines-security plan methodologies- Policy: security policy,

standards and guidelines- security policy methodologies

UNIT IV: SECURITY RISK MANAGEMENT 9

Introduction- risk management life cycle- preparation efforts- security culture-factors affecting

security risk- ALE risk methodology- operational, functional and strategic risks- ABLE

methodology

UNIT V: SECURITY DESIGN AND IMPLENTATION 9

ISO/IEC 27002- Using ISO/IEC 27002 to enhance security- measurement and implementation-

general ISMS Framework- ISMS Model and design- integration of ISMS Subsystems-self

assessment for compliance- Security solutions: security management, access control, security

analysis


Text Book

1. ―Information Security Management: Concepts and Practice ―Bell G. Raggard, CRC Press 2010

REFERENCE BOOKS:

1. “Information Security Management Principles” David Alexander, Amanda Finch, BCS Learning and

Development Ltd, 2013

2. “Security Analysis and Portfolio Management” Ronald E Fischer, S.Kevin PHI Learning Pvt Ltd,

2015.


Subject Code:

BIT20OE4/

BIT18OE4

Subject Name :

INTRODUCTION TO MULTIMEDIA Ty/

Lb/

ETL

L T/

S.Lr

P/R C




OBJECTIVES :

To learn about Basics of Computer Graphics.

To understand the difference between normal, 2D and 3D Dimensional Graphics

To understand the conversion of 2D to 3D Pictures.


CO1 Understand the various types of Display

CO2 Transform geometrical structures, perform clipping on geometrical objects

CO3 Concept of Various Clipping Operations

CO4 Analyze a 3D structure



CO1 H L M H H L L L L M L L

CO2 H M L L L L L L L L L H

CO3 M M H L L M H H M M L L

CO4 M M H L L M L L M M H L

COs /

PSOs


CO1 L H L L M L

CO2 L H H L M L

CO3 H M L H M M

CO4 H M L L M M


C

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ry

Basi

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Scie

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Subject Code:

BIT20OE4/

BIT18OE4

Subject Name :

INTRODUCTION TO MULTIMEDIA

Ty/

Lb/

ETL

L T/

S.Lr

P/R C


OBJECTIVES:

To learn about Basics of Computer Graphics.

To understand the difference between normal, 2D and 3D Dimensional Graphics

To understand the conversion of 2D to 3D Pictures.

UNIT – I TYPES OF DISPLAY 9

Video display device: Cathode ray tube, Raster scan displays, Random scan displays. Raster scan

systems, Random scan systems, Input devices, Graphics software.

UNIT – II BASIC ALGORITHM OF DRAWINGS 9

Output Primitives: Points & Lines, Line drawing Algorithms, Loading the frame buffer, Circle &

Ellipse generating Algorithms, Pixel addressing & Object geometry, Fill area primitives, Character

generation

UNIT – III TYPES OF TRANSFORMATION 9

2-D Geometric Transformations : Basic Transformations , Matrix representation & Homogeneous

Coordinates, Composite Transformations, Other Transformations, Transformations between

Coordinate Systems, Raster methods for Transformations

UNIT – IV CLIPPINGS OPERATION 9

2- Dimensional Viewing: Viewing pipeline, Viewing Coordinate reference frame, Window-to-view

port coordinate transformation, Line clipping, Polygon Clipping, Curve Clipping.

UNIT – V 3D EFFECTS 9

3 -D Concepts: 3 -D display methods. 3-D Geometric & Modeling Transformations: Translation,

Rotation, Scaling, Other Transformations, Composite Transformations, Modeling & Coordinate.


TEXT BOOK:

1. D.Hearn & M.P.Becker , ―Computer graphics‖; 2 nd Ed., Prentice Hall India- 1995

REFERENCES:

1. Foley Vandam & Hughes, “ Computer Graphics”; Addision Wesly.

2. Angel Edward., “Interactive Computer Graphics – A Top-down Approach with OpenGL”

,Addison-Wesley 1996.

3. Newmann W and Sproull R.F., Principles of Interactive Computer Graphics, McGraw-Hill, 1980


OPEN LAB

Subject code

BCS20OL1/

BCS18OL1

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVE :





CO1 Understand concept of Visual Programming.

CO2 Will be able to understand the problem and will have the creativity for writing programe.

CO3 Will have a basic knowledge on intercommunication of windows programming.






COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L

CO3 H M L M L L


C

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Basi

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Eng

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Scie

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and

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Subject code

BCS20OL1/

BCS18OL1

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/ R C


OBJECTIVES:




1. ISUAL BASIC

1. Adding menus to forms

2. Creating dialog boxes with various options

3. MDI applications

4. Writing code for various keyboard and mouse events

5. OLE container control

6. Data access through Data control and DAO.

7. Active X control

8. Active X Document

9. Active X DLL 2.

2. ISUAL C++

1. Creating applications with App wizard

2. Working with MFC

3. Exception handling

4. Loading - Editing and - Adding resources - Linking resources to applications

5. Drawing bitmaps

6. Threads

7. OLE

8. Graph Applications

LEARNING OUTCOMES: Upon completion of this course, the student will be able to:

a. Design, create, build, and debug Visual Basic applications.

b. Explore Visual Basic‘s Integrated Development Environment (IDE).


Subject Code:

BCS20OL2/

BCS18OL2

Subject Name : WEB DESIGN LAB

T / L/ ETL

L T / S.Lr

P/ R

C




OBJECTIVES :





CO1 Understand concept of web technologies.

CO2 Will be able to design the web programming.





COs / PSOs PSO1 PSO2 PSO3 PSO4 PSO5 PSO6

CO1 H M L M L L

CO2 H L L L L L


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Subject Code:

BCS20OL2/

BCS18OL2

Subject Name : WEB DESIGN LAB

T / L/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :




Practice Internet applications.

1. Explore Web browsers, search engines

2. Familiarise with web portals, e-commerce sites, blogs etc

3.Basic Html Tags

4.Hyper Links, Tables & Multimedia

5.Frames & iFrames

6.Inline, Internal and External Style sheets

7.Design a web page to display your full bio-data.

8.Simple Validating Form (a) HTML forms, (b) JavaScript

9.Registration Form with Multi-Validating

10.Design a web page to select the elective subject through online with registration form.


Subject Code:

BCS20OL3/

BCS18OL3

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C

Prerequisite: Basic knowledge on computers, C. Lb 0 0/0 3/0 1



OBJECTIVES :






CO1 Understand, write and test simple python program.

CO2 Execute Python programs with conditionals and circles.

CO3 Use capacities for organizing Python programs.

CO4 Students can Create own phython program.







COs /

PSOs


CO1 H M L L L M

CO2 H M L L L M

CO3 H M L L L M

CO4 H M L L L M


C

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Basi

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Subject Code:

BCS20OL3/

BCS18OL3

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C

Prerequisite: Basic knowledge on computers, C. Lb 0 0/0 3/0 1

OBJECTIVES :





1.Write a python program to perform all arithmetic operation.

2.Write a python program to change the last character in a word.

3.Write a python program to check for palindrome.

4. Write a python program to check for prime number.

5. Write a python program to find the length of the word and display either the length is odd or even.

6.Write a python program to perform Fibonacci series for n numbers.

7. Write a python program to display the words using Dictionaries.

8. Write a python program to to change the alternative characters of a word.

9.Write a python program to find the ASCII value for your name.

10.Write a python program to to perform stack operation using array.


Subject Code:

BCS20OL4/

BCS18OL4

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :




CO1 Understand concept and working of different cables.

CO2 Will be able to use stimulator and can stimulate various networks.





COs /

PSOs


CO1 H M L M L L

CO2 H L L L L L


C

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Basi

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Subject Code:

BCS20OL4/

BCS18OL4

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C


OBJECTIVES :



1. Study of different types of Network cables and Practically

implement the cross-wired cable

2. Study of Network Devices in Detail.

2a. Study of Network Devices in layer1( HUB, REPEATER)

2b.Study of Network Devices in layer2(Swith)

2c.Study of Network Devices in layer3( Router)

3. Study of FIREWALL

4. Connect the computers in Local Area Network.

5. Study of Network IP.

5a. IPV4

5b. IPV6

6. Study of Network Topologies

6a. Bus Topology

6b. Ring Toplogy

6c. Star Topology

7. Study of MAC address and port numbers.


Subject Code:

BCS20OL5/

BCS18OL5

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C




OBJECTIVES :




CO1 Understand the requirement and develop the website.

CO2 To establish a back-end connectivity for data storage and utilization.





COs /

PSOs


CO1 H M L L L M

CO2 H M L L L M


C

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Basi

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Eng

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Hu

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ocia

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Subject Code:

BCS20OL5/

BCS18OL5

Subject Name :


Ty /

Lb/

ETL

L T /

S.Lr

P/

R

C


OBJECTIVES :



1.Use of select statements for queries

2.Nested queries using SQL

3.Built in functions in SQL

4.Update operations using SQL.

5. Use of index, creating views and querying in views

6. Create a php program to find odd or even number from given number

7.Write a php program to find maximum of three numbers.

8. Write a PHP program to swap two numbers.

9. Write a PHP Program to demonstrate the variable function: Gettype():

10. Write a PHP program to drop table using MySQL.

11. Create a student Registration in PHP and Save and Display the student Records

12. Write a program to Develop student registration form and display all the submitted data on another page.


ELECTRONICS AND

COMMUNICATION

ENGINEERING

OPEN ELECTIVES


Subject Code:

BEC20OE1/

BEC18OE1

Subject Name :Internet of Things and its

Applications

Ty / Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

To study basics of IoT.

To study IoT with Cloud environment.

To study IoT applications.

COURSE OUTCOMES (COs) : ( 3- 5) The students will be able to

CO1 Explore basics concepts of technology of IoT

CO2 Understand different IoT domains.

CO3 Manage system data in cloud environment

CO4 Interface embedded system with IoT

CO5 Learn new applications based on IoT.



CO1 3 3 3 3 3 2 3 2 2 2 3 3

CO2 3 2 2 3 3 2 2 2 2 2 3 3

CO3 3 2 3 3 3 2 2 2 2 2 3 3

CO4 3 3 2 3 3 2 2 2 1 2 3 3

CO5 3 2 3 3 3 2 2 2 1 2 3 3

COs /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 3 3 3

CO2 3 3 2 3

CO3 3 3 2 3

CO4 3 3 2 3

CO5 2 3 1 3


C

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Subject Code:

BEC20OE1/

BEC18OE1

Subject Name :Internet of Things and its

Applications

Ty / Lb/ ETL L T/SLr P/R C


UNIT I INTRODUCTION TO INTERNET OF THINGS 9

Definition and Characteristics of IoT – Things in IoT – IoT Protocols – Logical Design of IoT – IoT enabling technologies – IoT Levels.

UNIT II DOMAIN SPECIFIC IoT 9

Home Automation – Cities – Environment – Energy – Retail – Logistics – Agriculture – Industry –

Health and Life style–SDN and NFV for IoT.

UNIT III IoT SYSTEM MANAGEMENT AND CLOUD 9

Need for IoT System Management - SNMP – NETOPEER – IoT design methodology - Xively –

Django- Amazon Web for IoT – SkyNetIoT.

UNIT IV IoT PHYSICAL DEVICES 9

Raspberry Pi - Raspberry Pi Interfaces – Arduino boards – Other IoT devices –Intel Galileo Arduino board Specification.

UNIT V IoT APPLICATIONS 9

Applications based on IoT - Smart Cities -Smart Home and Buildings -Smart Energy and the Smart Grid - Smart Health- Smart Transportation and Mobility




Textbooks:

1. ArshdeepBahga.Vijaymadisetti ,“ Internet of things – A hands- on approach ‖ , Universities press,

First Editon, 2015.

2. Adrian McEwen and Hakim Cassimally, ―Designing the Internet of Things‖,Wiley,First edition 2014.

3. C HillarGastn, ―Internet of Things with Python‖,Packt publishing, first edition ,2016.

REFERENCE BOOKS:

1. Dominique D. Guinard and Vlad M. Trifa “Building the Web of Things With examples in Node.js and

Raspberry Pi”,June 2016 ISBN 9781617292682

2. CharalamposDoukas, “Building Internet of Things with the Arduino” ISBN/EAN13:1470023431 /

9781470023430

3. Gastón C. Hillar, “Internet of Things with Python”, May 2016 , PACKT Publishing limited.

4. Marco Schwartz “Internet of Things with the Raspberry Pi: Build Internet of Things Projects Using

the Raspberry Pi Platform”, Kindle Edition.


Subject Code:

BEC20OE2/

BEC18OE2

Subject Name : Cellular Mobile

Communication

Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

It deals with the fundamental cellular radio concepts such as frequency reuse and hand off.

It presents different ways to radio propagation models and predict the large scale effects of

radio propagation in many operating environment.

COURSE OUTCOMES (COs) : ( 3- 5) The students will be able to

CO1 Interpret basic concepts in mobile communication.

CO2 Apply the concepts in establishing a PSTN.

CO3 Recognize basic concepts in cellular technology.

CO4 Analyze different propagation models for improving system coverage.

CO5 Examine the latest wireless systems and standards.



CO1 3 3 2 2 3 3 3 3 1 3 1 2

CO2 3 3 3 1 2 2 2 3 2 2 2 2

CO3 3 3 3 3 3 3 1 1 3 3 2 3

CO4 3 3 3 3 3 3 3 2 3 3 3 3

CO5 3 3 3 2 3 2 3 3 3 3 3 3

COs /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 2 2 2

CO2 3 3 2 2

CO3 3 3 3 3

CO4 3 3 2 3

CO5 3 3 3 3


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Subject Code:

BEC20OE2/

BEC18OE2

Subject Name : Cellular Mobile

Communication

Ty /

Lb/

ETL

L T/SLr P/R C


UNIT I INTRODUCTION TO MOBILE COMMUNICATION 9

History and Evolution of mobile radio system – Types of mobile wireless system/services –

Paging, cellular, WLL , FTTH, Wi-Fi, and Future trends in Personal wireless system.

UNIT IIPSTN TECHNOLOGY 9

Difference between simplex, half-duplex and duplex transmissions – basic understanding of

telephone set – history and evolution of Central Exchange Switching – Operator Switch Boards

(PBX) – intraoffice and interoffice calls – Extended Area Service (EAS) – circuit switching, packet

switching & TDM switching – DTMF signaling – dial register – in band & out-of-band signaling.

UNIT IIICELLULAR CONCEPT 9

Structure of a cell – Basic cellular terminologies – Principle of Frequency Reuse – Principle of

Channel assignment and its types – Types of channel interference – Different types of handoff

strategies

UNIT IV INTERFERENCE AND MOBILE RADIO COMMUNICATION 9

Interferences in Cellular Systems – Methods to improve cell coverage - Free space propagation

model, reflection, diffraction, scattering, link budget design, Outdoor Propagation models and

Indoor propagation models

UNIT V WIRELESS SYSTEMS AND STANDARDS 9

GSM, IS-95, DECT, AMPS, GPRS, UMTS, WLAN, WPAN, WMAN, Ultra Wideband

communications, 4G/LTE and beyond 4G.Telecom standards and wireless standards.




TEXT BOOKS

1. Marion Cole, ―Introduction to Telecommunications: Voice, Data and Internet‖, Pearson

Education, 2nd edition, 2008.

2. Anu A. Gokhale, ―Introduction to Telecommunications‖, Delmar, 2nd edition, 2005.

3. T.S. Rappaport, "Wireless Communication, Principle and Practice", Prentice Hall, NJ, 1996

4. Roy Blake," Wireless Communication technology", Thomson Learning, 1st Edition 2001

REFERENCES

1. Pete Moulton, Jason Moulton, “The Telecommunication Survival Guide”, Pearson Education, 2001.

2. Roger L. Freeman, “Telecommunication System Engineering”, Wiley-India, 4th edition, 2004.

3. W.C.Y.Lee, “Mobile Communication Engineering”, (2/e), McGraw- Hill, 1998.

4. Dharma P. Agarwal," Introduction to wireless and Mobile systems", Thomson Learning, II Edition, 2006


Subject Code:

BEC20OE3/

BEC18OE3

Subject Name :Satellite and its Applications Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

To learn the basics of spacecraft subsystem

To understand the operation of domestic satellite system

To apply the principle of satellite in remote sensing technology


The students will be able to

CO1 Understand the principle of orbital mechanics

CO2 Understand the elements of satellite system

CO3 Analyze the various domestic satellite systems

CO4 Apply the concepts in designing earth station

CO5 Appraise the applications of satellites in remote sensing



CO1 H M H M H

CO2 H H H H M

CO3 H M H H

CO4 H H M H

CO5 H H M


CO1 H M

CO2 H H

CO3 H M

CO4 H

CO5 H


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Subject Code:

BEC20OE3/

BEC18OE3

Subject Name :Satellite and its Applications Ty /

Lb/

ETL

L T/SLr P/R C


UNIT I ELEMENTS OF ORBITAL MECHANICS 9

Kepler‘s laws of planetary motion - Newton‘s laws of gravitation- Orbital Equation- Orbital

Elements- Orbital Perturbation; Tracking and Orbital Determination- Orbital Correction / Control

UNIT IIELEMENTS OF SATELLITE SYSTEM 9

Space Environment- Spacecraft Configuration- Spacecraft Subsystem- Payload- Reliability

Consideration – Spacecraft Integration and Testing.

UNIT III DOMESTIC SATELLITE SYSTEMS AND LAUNCH VEHICLES 9

The INSAT System- International System: INTELSAT- IMMARSAT- Satellite Based Personal

Communication- LEO- MEO- GEO Systems- PSLV and GSLV

UNIT IVEARTH STATION DESIGN 9

Earth Station Configuration- Receiver and Transmitter Subsystems- Terminal Equipment:

Telephone / Video Interface-Echo Suppressor- FM Digitizers- Elements of Frequency Co-ordination

and Control.

UNIT VAPPLICATIONS OF SATELLITES 9

Satellite Broadcasting- Satellite TV Systems. Remote sensing satellites - satellite remote sensing in

various important areas- such as environmental issues- agriculture- forestry- urban issues and water

management - usage of satellite data models in remote sensing- analysis of data from various climate

zones and applications in research and society.




TEXT BOOKS:

1. T. Pratt and C.W. Bostian, "Satellite Communication" John Wiley & Son- 1986.

2. A. Abdul Namith, ―Satellite Communication" Lakshmi Publications.

REFERENCES:

1. B.N. Agarwal, "Design of Geosynchronous Spacecraft" ,prentice Hall- 1986.

2. D. Roddy, "Satellite Communication" , Prentice Hall- 1989.

3. M. Richharia “Satellite Communication Systems Design Principles” Macmillan Press Ltd.

Second Edition 2003.

4. http://www.ceinsys.com/blog/applications-of-satellite-imagery-remote-sensing-data/

http://www.ceinsys.com/blog/applications-of-satellite-imagery-remote-sensing-data/


Subject

Code:

BEC20OE4/

BEC18OE4

Subject Name :Fundamentals of Sensors Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

Tounderstandbasic fundamentals of sensor.

To study sensor characteristics.

To understand sensor properties of elements.


CO1 Interpret basics of sensors.

CO2 Recognize sensor characteristics.

CO3 Demonstrate sensor properties.

CO4 Explain principles of sensing.

CO5 Study various sensor elements.



CO1 3 2 3 3 2 1 2 1 1 2 2 2

CO2 3 2 2 3 2 1 2 1 2 2 2 2

CO3 3 2 2 2 2 2 2 1 2 2 2 3

CO4 2 2 2 2 2 1 1 2 1 2 2 3

CO5 2 2 2 2 2 1 1 2 1 2 2 2


CO1 3 2 2 3

CO2 3 2 2 3

CO3 3 3 2 3

CO4 3 3 2 3

CO5 2 2 3 3

3/2/1 indicatesM Strength of Correlation 3- High, 2- Medium, 1-Low

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Subject

Code:

BEC20OE4/

BEC18OE4

Subject Name :Fundamentals of Sensors Ty /

Lb/

ETL

L T/SLr P/R C


UNITI SENSOR FUNDAMENTALS 9

Basic Sensor Technology - Sensor Systems - Sensor Characteristics - Signals, and Systems -

Sensor Classification

UNITII SENSOR CHARACTERISTICS 9

Transfer Function - Span (Full-Scale Input) - Full-Scale Output – Accuracy- Calibration --

Calibration Error –Hysteresis – Nonlinearity - Saturation

UNITIII SENSOR PROPERTIES 9

Repeatability - Dead Band – Resolution -Special Properties - Output Impedance - Excitation .-

Dynamic Characteristics - Environmental Factors - Reliability

UNITIV PHYSICAL PRINCIPLES OF SENSING 9

Electric Charges, Fields, and Potentials - Capacitance – Magnetism – Induction – Resistance -

Piezoelectric Effect -

UNITV SENSOR ELEMENTS 9

Mechanical Elements - Thermal Elements - Electrical Elements - Application Characteristic -

Uncertainty




TEXTBOOKS:

.

1) Jacob Fraden, ―Handbook Of Modern Sensors Physics, Designs, And Applications‖

2) Jon S. Wilson,‖ Sensor Technology Handbook

REFERENCEBOOKS:

1) Ian Sinclair , “ Sensors and Transducers” eBook ISBN: 9780080516998

Hardcover ISBN: 9780750649322


Subject Code:

BEC20OE5/

BEC18OE5

Subject Name :Basics of Microprocessor and

Microcontrollers

Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

To study the architecture, addressing modes, and assembly language program of 8085

microprocessor.

To understand the concepts of different peripherals and their applications

To learn the functions of 8051 microcontroller.


The students will be able to

CO1 Write assembly language program in 8085 and 8086 and understand the design of advanced

processors.

CO2 Show their ability to interface peripherals with microprocessors

CO3 Done the inferenceof advanced peripheral with 8085.

CO4 Demonstrate their skills in writing an ALP in 8051.

CO5 Apply their understanding to do a project to develop an application using8085.



CO1 H M M M M H - M M -

CO2 H H H H H H M M M M

CO3 M M M M H H M H M H M

CO4 H H H H H - M H M - H

CO5 H M - M M M H - H M H H

COs /

PSOs

PSO1 PSO2 PSO3

CO1 H H M

CO2 H H

CO3 M H

CO4 H M

CO5 M


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Subject Code:

BEC20OE5/

BEC18OE5

Subject Name :Basics of Microprocessor and

Microcontrollers

Ty /

Lb/

ETL

L T/SLr P/R C


UNIT-I 8085 CPU 9

Internal Architecture of 8085 microprocessor – Instruction set – Addressing modes – 8085 interrupts

– Timing diagram – Assembly level programming.

UNIT II PHERIPHERALS INTERFACING 9

USART (8251) – Programmable interval timer (8353/8254) programmable peripheral interface

(8255) – CRT controller (8275/6845) – Floppy disk controller (8272).

UNIT III ADVANCED PHERIPHERALS INTERFACING 9

Programmable DMA controller (8257) – Programmable Interrupt controller (8259) – Keyboard

display interface (8279) – ADC/DAC interfacing.

UNIT IV8051 MICROCONTROLLER 9

8051 Microcontroller hardware and Architecture –I/O pins, Ports and circuits–Counters and Timers-

Serial Data I/O – Interrupts - 8051 Instruction set – Addressing Modes –Assembly Language

Programming.

UNIT V 8085 APPLICATIONS 9

Typical application of 8085 – Stepper motor controls – Traffic light controls – waveform generation

– Analog interfacing and industrial control – Microcomputer based system with seven segment

displays and switches.




TEXT BOOKS :

1. Ramesh s. Gaonkar, Microprocessor Architecture Programming and Applications with 8085. Fourth

edition, Penram international publishing 2000.

2. Douglas V. Hall, microprocessor and interfacing, programming and hardware, Tata McGraw Hill,

second edition 1999.

REFERENCES:

1. A.K.Ray and K.M.Burchandi ,"Intel Microprocessors Architecture Programming and Interfacing" McGraw Hill International edition, 2000. 2. Kenneth Jayala, "The 8051 Microcontroller Architecture Programming andAapplication" ,2nd edition ,Penram International publishers (India), New Delhi,1996. , M.RafiQuazzaman, "Microprocessors Theory and Applications", Intel and Motorola prentice

Hall of India Pvt. Ltd., New Delhi, 2003


Subject Code:

BEC20OE6/

BEC18OE6

Subject Name :Industry 4.0 Concepts Ty / Lb/ ETL L T/SLr P/R C




OBJECTIVE :

Students will demonstrate an understanding of the fundamentals of the core areas in Industry 4.0.

Students will gain deep insights into how smartness is being harnessed in industries

COURSE OUTCOMES (COs) : ( 3- 5) The Students will be able to

CO1 Understand the opportunities and challenges in the fourth industrial revolution.

CO2 Describe, discuss and relate IoT techniques adopted for an industry.

CO3 Demonstrate the importance of various technologies involved in enabling industry 4.0.

CO4 Analyze the power of Cloud Computing in a networked economy.

CO5 Interpret technologies available in IoT.



CO1 2 2 2 3 3 3 3 3 3 2 3 3

CO2 3 2 2 3 3 3 3 3 3 3 3 3

CO3 3 3 3 3 3 3 3 3 3 3 3 3

CO4 3 2 3 3 3 3 3 3 3 3 3 3

CO5 2 2 3 3 3 3 3 3 3 3 3 3


CO1 2 2 3 3

CO2 2 2 3 3

CO3 3 3 3 3

CO4 2 2 3 3

CO5 2 2 3 3


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Subject Code:

BEC20OE6/

BEC18OE6

Subject Name :Industry 4.0 Concepts Ty / Lb/ ETL L T/SLr P/R C


UNIT I Introduction to Industry 4.0 9

The various Industrial Revolutions – Digitalization and the Networked Economy – Drivers, Enablers,

Compelling Forces and Challenges for Industry 4.0 – The Journey so far: Developments in USA,

Europe, China and other countries – Comparison of Industry 4.0 Factory and Today‘s Factory – Trends

of Industrial Big Data and Predictive Analytics for Smart Business Transformation.

UNIT II Road to Industry 4.0 9

Internet of Things (IoT) & Industrial Internet of Things (IIoT) & Internet of Services – Smart

Manufacturing – Smart Devices and Products – Smart Logistics – Smart Cities – Predictive Analytics

UNIT IIITechnologies for enabling Industry 4.0 9

Cyber physical systems – Robotic Automation and Collaborative Robots – Support System for Industry

4.0 – Mobile Computing – Related Disciplines – Cyber Security.

UNIT IV Resources 9

Resource- based view of a firm – Data as a new resource for organizations – Harnessing and sharing

knowledge in organizations – Cloud Computing Basics – Cloud Computing and Industry 4.0 – Smart

Factories

UNIT V IIoT Technologies 9

Industry 4.0 laboratories –IIoT Reference Architecture – Designing Industrial Internet Systems –

Examining the Middleware Transport Protocols – IIoT WAN Technologies and Protocols - Securing

the Industrial Internet.




TEXT BOOKS:

1. Alp Ustundag and Emre Cevikcan, ―Industry 4.0: Managing the Digital Transformation‖,

Springer Series in Advanced Manufactruing.

2. Alasdair Gilchrist, ―Industry 4.0: The Industrial Internet of Things‖, Apress Publications.

REFERENCES:

1. Rajesh Agnihotri and Samuel New, “Industry 4.0 Data Analytics” , CreatespaceIndependent Pub (US)


OPEN LAB

Subject Code:

BEC20OL1/

BEC18OL1

Subject Name :Sensors and IoT Lab Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

To design experiments based on sensor with IOT.

To design experiments based on IOT with cloud environment.


CO1 Implement C source code to interface sensors with IOT.

CO2 Design simple projects using different types sensors.

CO3 Interface sensor date with cloud environment.

CO4 Implement using sensors an application.

CO5 Design new applications using different sensors.



CO1 3 3 3 3 3 1 2 1 2 2 3 3

CO2 3 2 2 3 3 1 2 1 2 2 3 3

CO3 3 2 3 3 3 1 2 1 2 2 3 3

CO4 3 2 2 3 3 2 2 1 2 2 3 3

CO5 3 2 3 3 3 1 2 1 2 2 3 2

COs /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 3 2 3

CO2 3 3 2 3

CO3 3 3 2 3

CO4 3 3 1 3

CO5 3 3 1 3


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Subje

ct Code:

BEC20OL1/

BEC18OL1

Subject Name :Sensors and IoT Lab Ty /

Lb/

ETL

L T/SLr P/R C


LIST OF EXPERIMENTS

1. To familiarize with Intel Galileo Gen2 board and understand the procedure of creation and

compilation of C source code. (Pre-Loaded Examples)

2. Write a code to control the Brightness of LED usingIntel Galileo Gen 2 board.

3. To write C source code to Interface Temperature Sensor with Intel Galileo Gen 2 and display the

temperature on serial Monitor.

4. To write C source code to Interface Humidity Sensor with Intel Galileo Gen 2 and display the

temperature on serial Monitor.

5. Interface Motion sensor, with Intel Galileo Gen 2 to give alert when motion is detected.

6. To write C source code to Interface Sound Detector with Intel Galileo Gen.

7. To write C source code to Interface accelerometer with Intel Galileo Gen 2 and display the values

in serial monitor.

8. To write C source code to Perform Gas Sensor Interfacing with Intel Galileo Gen2 Board.

9.To Interface a Flame and Smoke sensor with Intel Galileo Gen 2 in cloud service.

10. Design a smart Lighting system using Light sensor, Motion sensor and indicate the status of the

light in cloud service.


Subject Code:

BEC20OL2/

BEC18OL2

Subject Name :Robotics Control Lab Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

To understand the different robotic configurations and their subsystems.


The Students will be able to

CO1 Built simple robots using motor driver IC and sensor module.

CO2 Apply programming knowledge to interface various devices with arduino.

CO3 Design robots using timer and delay

CO4 Develop and measure the performance of robots.



CO1 3 3 3 2 2 2 2 2 3 2 1 2

CO2 3 3 3 3 3 1 2 2 3 1 2 2

CO3 3 3 3 2 3 2 2 1 3 2 2 2

CO4 3 3 3 3 3 1 2 2 3 1 2 2

COs /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 2 2 3

CO2 3 3 2 3

CO3 3 2 2 3

CO4 3 2 2 2


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Subject

Code:

BEC20OL2/

BEC18OL2

Subject Name :Robotics Control Lab Ty /

Lb/

ETL

L T/SLr P/R C


LIST OF EXPERIMENTS

1. Simple Robot circuit

2. Build a Light-Tracking Robot

3. Simple Insect Robot

4. Line follower Robot

5. Two-Legged Walking Robot

6. Robot Control using 555 Timer

7. Study of AVR Studio and code Debugging

8. Interfacing Switch to turn on Bar graph LEDs. (Implementing a ―Push to ON‖ indicator)

9. LCD Interfacing to display alphanumeric characters.

10. LCD Interfacing to displaying integer values on the LCD.

11. Generation of delay using timer and turning ‗ON‘ the buzzer

12. Indication of the value of counter on LCD

13. DC Motor Interfacing

14. PWM control of the DC motor


Subject Code:

BEC20OL3/

BEC18OL3

Subject Name : Basics of MATLAB Ty /

Lb/

ETL

L T/SLr P/R C




OBJECTIVE :

Be familiar with the MATLAB GUI and basic tool boxes

Be exposed to vector and matrix operations

Be familiar with arithmetic, logical and relational operations on matrix


CO1 Adopt the MATLAB GUI and basic tool boxes

CO2 Identify vector and matrix operations

CO3 Illustrate withprogramming arithmetic, logical and relational operations on matrix



CO1 3 3 2 2 3 1 2 2 3 3 3 2

CO2 3 2 3 2 3 1 2 1 3 3 3 2

CO3 3 2 3 3 3 2 2 2 3 3 3 3

COs /

PSOs

PSO1 PSO2 PSO3 PSO4

CO1 3 3 2 3

CO2 3 3 3 3

CO3 3 3 3 3


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Subject Code:

BEC20OL3/

BEC18OL3

Subject Name : Basics of MATLAB Ty /

Lb/

ETL

L T/SLr P/R C


LIST OF EXPERIMENTS

1. Introduction to SDK of MATLAB

2. Basic Syntax and scalar arithmetic operations and calculations

3. Working with formulas

4. Arithmetic operations in matrix data

5. Matrix operations (Inverse, Transpose)

6. Reading an image file

7. Reading from and writing to a text file

8. Introduction to toolboxes

9. Data visualization and plotting

10. Relational operators in data

11. Logical operation in data

12. Loops in MATLAB

13. Computing Eigen value for a matrix

14. Random number generation - Monte Carlo methods


Dr APJ Abdul Kalam Center for

Research

Dr.A.P.J Abdul Kalam CoE in

Innovation & Entrepreneurship

OPEN ELECTIVES


Subject Code :

BMG20OE1/

BMG18OE1/

BMG13E12

Subject Name : TECHNICAL

ENTREPRENEURSHIP

Ty /

Lb/

ETL

L T/SLr P/

R

C

Prerequisite : Nil Ty 2 0/1 2/0 3



OBJECTIVES : At the end of the course the learner will be able to

Identify their flow & run interview to understand customers views.

Do market analysis & create solutions for the identified problems

Differentiate start up and small business & Understand the basics of lean approach

Study the expectations of customers and investors, and interpret the revenue streams

Articulate an effective pitch and understands how to manage risks.

COURSE OUTCOMES (Cos) : (3 – 5)Students completing the course were able to

CO1 Identify Business Opportunity, Understand Problems & Provide solutions & carry out Design Thinking

Process.

CO2 Differentiate Customer & Consumer and prepare Value proportion canvas, types of Business models

CO3 Interpret Industrial needs, carry out competitive analysis & perform product market fit test

CO4 Analyze primary & secondary revenue streams & opt for different pricing strategies

C05 Compose positioning statement for the product & build digital presence, planning & budgeting



CO1 M M M

CO2 H H H H H H M H M H

CO3 H H H M M M M L

CO4 M M M L H H

CO5 H H H H H M M M


Ca

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Subject Code : BMG Subject Name : TECHNICAL Ty / L T/SLr P/R C

20OE1/BMG18OE1/ ENTREPRENEURSHIP Lb/

BMG13E12 ETL




UNIT –I DISCOVER YOURSELF & IDENTIFY PROBLEMS WORTH SOLVING 9

Effectuation – Find your flow – Entrepreneurial style – How to identify Business opportunity - find

problems worth solving – Methods of finding & understanding problems - How to run problem

interview to understand customer‘s world view – Design thinking – Process & examples – Idea

Generation (DISRUPT) – GOOTB

.

UNIT –II CUSTOMER SEGMENT, VALUE PROPORTION & LEAN CANVAS 9

Difference between consumer and customer – Market types – Segmentation & Targeting –

Defining the personas – understanding early adopters & customer adoption pattern – early

innovators for startups – creative solutions for identified problems – Deep dive into gains, pains &

jobs to be done (value proportion canvas) – identify UVP using VPC – outcome driven innovation (I

min customer pitch) – Basics of Lean approach & Canvas – Types of business models.

UNIT –III SIZING THE OPPURTUNITY & MVP 9

Introduction to risks –Documents & assumptions – Build solution – Does the solution solve

customer problems – Problem – solution test – Difference between a start up venture & small

business – industry analysis – competition analysis – Blue ocean strategy – building MVP

(document & validation of assumptions – lean feedback loop & MVP/Javelin board – MVP

interviews – product market fit test

UNIT –IV REVENUE STREAMS 9

Basics of how companies make money – income, cost, gross and net margin – primary and

secondary revenue streams – value, price & costs – different pricingstrategies – product costs & unit

costs – basics of unit costs – finance for business ideas – various sources of funds & its pros and

cons – investor expectations – pitching to investors & corporates – shared leadership – role of good

team venture‘s success – roles & responsibilities – pitch a candidate to join a start up – collaboration

tools and techniques

UNIT – V MARKETING & SALES 9

Difference between product brand & link between them – positioning statement for the

product – building digital presence and leveraging social media – creating company profile page –

measure effectiveness of selected channels – budgeting and planning – sales planning – targets –

USP – art of sales pitch - follow up and closing sale – importance of project management –

work flow – delegation of tasks – basics of business regulationsof starting and operating business –

compliance and proper documentation.

PRACTICAL COMPONENT : CAPSTONE PROJECT PRESENTATION & EVALUATION

ADDITIONAL SKILL REQUIREMENT :ONE MODULE THROUGH UEDEMYSUCH AS

PYTHON OR .ASP OR ROBOTICS OR ANY OTHER COURSE THAT IS DEEMED

ESSENTIAL.

Total No.of periods : 45


Subject Code :

BMG20OE2/

BMG18OE2

Subject Name :ADVANCED PROGRAM IN

ENTREPRENEURSHIP

Ty /

Lb/

ETL

L T/SLr P/R C

Prerequisite : WF201 TY 2 0/1 2/0 3



OBJECTIVES :

Understand basics of budgeting and planning

Relook the problem statement and refine the solution

Understand the need for sales pitching

Analyze optimizing cost and operational expenses

Identify the financial, technological needs to develop the business

COURSE OUTCOMES (Cos) : (3 – 5)

Students completing the course were able to

CO1 Revisit their business models and improve their business ideas.

CO2 Explore various revenue streams, new channels & partnerships

CO3 Test the price elasticity & analyze financial modeling

CO4 Understand how to build teams beyond founders

C05 Use technology to build and grow business



CO1 H H M M M H H H L

CO2 H M M H

CO3 H M H

CO4 H M M M M M H L

CO5 H H M H M L H M


Ca

teg

ory

Basi

c S

cie

nces

En

gg

Scie

nces

Hu

manit

ies

&

Socia

l S

cie

nces

Pro

gra

m c

ore

Pro

gra

m E

lecti

ves

Open

Ele

cti

ves

Pra

cti

cal /

Pro

ject

Inte

rnsh

ips

/

Technic

al S

kil

ls

So

ft S

kil

ls

✔


Subject Code :

BMG20OE2/

BMG18OE2

Subject Name :ADVANCED PROGRAM IN

ENTREPRENEURSHIP

Ty /

Lb/

ETL

L T/SLr P/

R

C

Prerequisite : WF201 TY 2 0/1 2/0 3

UNIT –I GROWTH, EXPANSION & SCALING 9

Growth stage and start up phase – revisiting business model and develop few variants –

additional customer segments – evaluation of business models for new customer segments – relook

of problem statement and repositioning for scalability – additional ways to monetize.

.

UNIT –II SCALING & STRATEGY 9

Gain traction beyond early customer – defining and measuring traction – cost of new

customer acquisition – customer life time value – identify wastes and what‘s important for traction

– bullseye framework – identifying channels – measurement of effectiveness of selected channels

UNIT –III SALES PLANNING 9

Budgeting & Planning – stabilizing key revenue streams – additional revenue streams –

exploring new channels and partnerships – sales planning and setting targets – unique sales

proportion – art of sales pitch – building a professional team – sales compensation and incentives

UNIT – IV FINANCIAL MODELLING 9

testing price elasticity – optimizing cost and operational expenses – advanced concepts in

unit costing – financial modeling of venture growth – analyzing competitor and peer‘s financial

models – various sources of funding – investors and lenders expectations - pitch practice – Building

teams beyond founders – basics of compensation, incentives and stock options

UNIT – V TECHNOLOGY PLANNING 9

Identify technology needs – cost of using technology to build and grow the business –

Technology as a differentiator and competitive weapon – overview of legal issues – importance of

getting professional help – importance of being compliant and keeping proper documentation –

patents and intellectual property - trademarks

PRACTICAL COMPONENT: CAPSTONE PROJECT – PITCH YOUR VENTURE


curriculum and syllabus - Dr.MGR Educational and Research ...

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Transcript of curriculum and syllabus - Dr.MGR Educational and Research ...