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ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 1
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY
Guwahati
Course Structure and Syllabus
MECHANICAL ENGINEERING (ME)
Semester VII/ ME / B.TECH
Sub Subject Hours per week Credits
Sl.No. Code L T P C
Theory
1 ME131701 Refrigeration and Air Conditioning 3 0 0 3
2 ME131702 Dynamics of Machines 3 2 0 4
3 ME131703 System Optimization Techniques 3 0 0 3
4 ME131704 Turbo Machinery 3 0 0 3
5 ME1317E01 Elective-I (Departmental) 3 0 0 3
6 HS1317E02 Elective-II (Humanities) 2 0 0 2
Practical
7 ME131711 Refrigeration and Air Conditioning
Lab 0 0 2
1
8 ME131712 Dynamics of Machines Lab 0 0 2 1
9 ME131717 Project-1 0 0 8 4
10 ME131721 Seminar on Summer Training 0 0 0 1
Total 17 2 12 25
Total Contact Hours : 31
Total Credit : 25
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 2
Elective-I Subjects
Sl. No. Subject Code Subject
1 ME1317E011 Automobile Engineering
2 ME1317E012 Advance Welding Technology
3 ME1317E013 Computational Fluid Dynamics
4 ME1317E014 Integrated Design and Manufacturing
5 ME1317E015 Any other subject offered from time to
time with the approval of the University
Elective-II Subjects
Sl No Subject Code Subject
1 HS1317E021 Value Education, Human Rights and
Legislative Procedure
2 HS1317E022 Values and Ethics in Profession
3 HS1317E023 Organizational Behaviour
4 HS1317E024 International Business and Intellectual
Property Rights
5 HS1317E025 Engineering Ethics And Intellectual
Property Rights
6 HS1317E026 Any other subject offered from time to
time with the approval of the University
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 3
Course Title : REFRIGERATION AND AIR-CONDITIONING
Course Code: ME131701
L-T-P-C: 3-0-0-3
MODULE TOPIC COURSE CONTENT HOURS
1 INTRODUCTION
Concepts of Refrigeration and Air-
conditioning. Unit of refrigeration,
Refrigerants – Desirable Properties,
Nomenclature.
4
2
SIMPLE VAPOUR
COMPRESSION
REFRIGERATION
SYSTEM
(SIMPLE VCRS)
Vapour compression cycle on ph and T-s
diagrams. Cycles with subcooling and
superheating, their effects; Effect of changes
in evaporator pressure and condenser pressure
on the performance of a simple VCRS; dry
compression and wet compression of
refrigerant; actual Vapour Compression Cycle
8
3 AIR
REFRIGERATION
SYSTEM (ARS)
Bell-Coleman cycle, COP determination,
actual air-refrigeration cycle. 5
4
VAPOUR
ABSORPTION
REFRIGERATION
SYSTEM (VARS)
Advantages of VARS over VCRS. Working
principle of simple VARS, practical VARS.
Limitations of VARS, maximum COP of a
VARS, Lithiumbromide-water System;
Aqua-ammonia systems.
5
5 EQUIPMENT AND
CONTROL
Major Refrigeration Equipment -
Compressors: Types; reciprocating, rotary &
centrifugal, volumetric efficiency,
Condensers: types used in refrigeration
systems; Evaporators: expansion devices:
capillary tubes and thermostatic expansion
valves, Basics of duct design.
6
6
BASIC DEFINITIONS
AND PRINCIPLES
RELATED TO
PSYCHROMETRY
Psychrometric Charts & Their Uses; Heating,
Cooling, Heating & Humidification &
Cooling & Dehumidification processes.
Adiabatic Saturation, Cooling Coils, By-pass
Factor.
Sensible Heat Factors. Heat Load estimation:
Simple cases of Cooling and
Dehumidification.
8
TOTAL 36
REFERENCES:
1. Stocker & Jones, Refrigeration and Air Conditioning, McGraw Hill.
2. C.P. Arora, Refrigeration and Air Conditioning, Tata McGraw Hill.
3. P.L. Ballaney, Refrigeration and Air Conditioning, Khanna Publishers.
4. R.C.Arora, Refrigeration and Air Conditioning, Tata McGraw Hill.
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 4
Course Title : DYNAMICS OF MACHINES
Course Code: ME131702
L-T-P-C: 3-2-0-4
MODULE TOPIC COURSE CONTENT HOURS
1 FORCED VIBRATION
SYSTEM
Introduction, Source of excitation,
equation of motion with harmonic force,
Characteristic curves, Variation of
frequency ratio, Response of unbalance
system – rotating & reciprocating, Support
motion, Vibration isolation & force
transmissibility and motion
transmissibility.
10
2 VIBRATION OF TWO
DEGREE OF FREEDOM
SYSTEM
Introduction, Vibration of undamped and
damped free system, Forced vibration
system, Semidefinite system, Coordinate
coupling, Vibration absorber, Torsional
Vibration Absorber,, Dynamic vibration
absorber, Centrifugal pendulum absorber,
undamped vibration absorber,Torsionally
equivalent shaft.
10
3 VIBRATION OF MULTI-
DEGREE FREEDOM
SYSTEM
Introduction, Principal modes, Influence
coefficient method, Generalise
coordinates, Orthogonality Principle,
Approximate method of determining
fundamental frequency – (Matrix method,
Matrix iteration method, Dunkerley
method, Reyleigh Method, Holzer
method), Eigen Values, Eigen vector.
14
4 VIBRATION
MEASURING
INSTRUMENTS
Introduction, Seismic instruments -
Vibrometer, Accelerometer, Frequency
measuring devices – Tachometers,
Vibration pickups.
6
5 CAM DYNAMICS
Cams, Followers, Types of Cams and
Followers, Definition, Undercutting,
Pressure angle, Displacement diagrams,
Types of motion curves, Graphical
construction of Cam profiles for different
types of Followers, Layout of Cam
profiles, Cam with specified contour.
8
TOTAL 48
Class Hours/week 4
Expected weeks 12
Total hrs. of
classes
36+12
= 48
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 5
TEXT BOOKS:
1. V.P. Singh, Mechanical Vibrations, Dhanpat Rai & Co.
2. S.S. Rattan, Theory of Machines, Tata McGraw Hill.
REFERENCE BOOKS:
1. Bevan,T.,Theory of Machines, 3rd Ed., CBS Publishers 2003
2. J.S. Rao, The Theory of Machines Through Solved Problems, New Age Int. Pub
3. W.T. Thomson, Theory of Vibration with Applications, Pearson
4. A.G. Ambekar, Mechanical Vibration & Noise Engineering. PHI
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 6
Course Title : SYSTEM OPTIMIZATION TECHNIQUES
Course Code: ME131703
L-T-P-C: 3-0-0-3
MODULE TOPIC COURSE CONTENT HOURS
1 INTRODUCTION
Introduction to OT, Engineering applications,
statement of an OR problem, Types of
problems handled in OT.
2
2 INTRODUCTION
TO LINEAR
PROGRAMMING
PROBLEMS
Formulation of Optimization problems.
Mathematical foundations and basic
definitions, Meanings of Feasibility and
Optimality, Basic and non-basic solutions,
Graphical method of solving LPP. Simplex
Algorithm and problem solutions, Use of
Slack, Surplus and Artificial variables and
their meanings, Big-M method and 2-phase
method, Dual Simplex algorithm, Meaning
and examples of Unique, Alternate/multiple,
Unbounded and Infeasible solutions,
Degeneracy and Cycling.
16
3 SPECIAL
LINEAR
PROGRAMMING
PROBLEMS
Their Formulations and solutions in such cases
as integer Programming Problem (IPP),
Transportation Problem (TP) and Assignment
problem (AP), Travelling Salesman Problem
(TSP).
10
4
INTRODUCTION
TO NON-
LINEAR
PROGRAMMING
PROBLEMS
(CLASICAL
OPTIMISATION)
Single and multiple variate problems,
Lagrangean method, Karush-Kuhn-Tucker
(KKT) conditions.
4
5 INVENTORY
MODELLING
Classification of inventory, deterministic
versus stochastic problem situations,
formulation and solution of deterministic
inventory problems.
4
TOTAL 36
TEXT AND REFERENCES:
1. Operations Research- HA Taha
2. Engineering Optimization- SS Rao
3. Operations Research- Billy E Gillet
4. Operations Research- Gupta and Hira
5. Operations Research- JK Sharma
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 7
Course Title : TURBO MACHINERY
Course Code: ME131704
L-T-P-C: 3-0-0-3
MODULE TOPICS COURSE CONTENT HOURS
1
STEAM TURBINE
Classification – Flow of steam through impulse
and reaction turbines – Velocity diagrams –
Reheating, Bleeding and Reheat factor –
Compounding of steam turbines – back pressure
turbines – Pass out turbines.
8
2 CONDENSER
Function of steam condenser – Elements of
condensing plant – Sources of air leakage-
Surface condenser – Vacuum efficiency –
determination of cooling water – Cooling
towers & Cooling Ponds.
4
3 HYDRAULIC
MACHINES
Review of Euler equation of Turbo-Machinery-
Impulse turbine-Pelton wheel- wheel diameter, jet
diameter, bucket shape, size and number, governing
mechanism-Efficiency, Specific speed-Reaction
turbines – Francis turbine-runner, casing, guide
vanes-governing mechanism- runner shape- Draft
tube, surge tank, penstock, Cavitation- Propeller and
Kaplan turbine – specific speed, diameter change of
blade-Unit quantities and model relationships-
performance characteristics curves of turbines.
Centrifugal pump- Single and multi stage, radial and
mixed flow pumps, vane pump, volute & vortex
casing, Pump efficiencies—manometric, mechanical
and overall efficiencies, Losses in pumps, Pump
characteristics – specific speed and unit quantities -
Model Relationships, Cavitation and priming of
centrifugal pumps.
12
4 RECIPROCATING
PUMPS
Single acting and Double acting- positive and
negative slip- acceleration head and friction head –
indicator diagram – air vessels. 10
5
MISCELLANEOUS
HYDRAULIC
MACHINES
Fluid coupling, Torque converter, Gear pumps, axial
pumps. 2
TOTAL 36
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 8
REFERENCES:
1. Hydraulic Machines – K. Subramanya, Tata McGraw Hill.
2. A text Book of Hydraulic Machines – R.K. Rajput , S. Chand.
3. Turbomachinery – Venkana B.K., PHI
4. Thermal Engineering - R.K. Rajput, Laxmi Publications.
5. A course in thermodynamics and heat engines – Domkund, Kothendaraman, Khajuria
and Arora, Dhanpat Rai and Sons.
6. Turbines, Compressors and Fans- S.M. YAHYA, Mcgraw Hill Education.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 9
Course Title : ELECTIVE-I (Departmental) Course Code: ME1317E011
L-T-P-C: 3-0-0-3
AUTOMOBILE ENGINEEERING
MODULE TOPIC COURSE CONTENT HOURS
1 INTRODUCTION
History & Development of Automobile.
various sub system of Automobile. 1
2 PRIME MOVER
Engine for Two –Wheeler & Three- Wheeler
vehicles, Engine for passenger cars,
commercial and other vehicle, Fuel system
for carburetted engine, MPFI engine and
Diesel engine, Lubrication and cooling
system.
6
3 AUTO ELECTRICAL
Electric Motor as prime mover, Battery,
generator, Ignition system, Starting system,
lighting & signalling.
6
4 STEERING SYSTEM
Devis steering & Ackerman steering system.
Rack & pinion, cam & lever, worm & sector
system.
4
5 TRANSMISSION
SYSTEM
Flywheel & clutch. Gearbox sliding and
constant mesh type, Automoatic
Transmission, Universal joint, Propeller
shaft.
6
6 DIFFERENTIAL &
AXLE
Construction & function of differential,
Different types of front & rear axles. 3
7 SUSPENSION
SYSTEM
Conventional and independent suspension
system, application. 3
8 BRAKE SYSTEM
Disc & drum brake, Hydraulic brake,
Parking brake. Stopping distance. 3
9 POWER
REQUIREMENT
Various resistances such as air resistance,
gradient resistance, rolling resistance.
Tractive effort. Torque- Speed curve. Horse
power calculation.
4
TOTAL 36
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 10
REFERENCES:
1. Motor Vehicle by Newton, Steed and Garrette 2nd ed, Butter worth.
2. Automobile Mechanics by N.K.Giri, 7th ed, Khanna Publishers.
3. Automobile Engineering by Amitosh De, Revised edition 2010, Galgotia Publication Pvt. Ltd.
4. Automobile Mechanics by Heitner Joseph, East West Press
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 11
Course Title : ELECTIVE-I (Departmental) Course Code: ME1317E012
L-T-P-C: 3-0-0-3
ADVANCE WELDING TECHNOLOGY
MODULE TOPIC COURSE CONTENT HOURS
1 REVIEW Review of welding processes, joint design. 3
2
PROCESS
DESCRIPTIONS OF AND
PARAMETRIC
INFLUENCES ON
FUSION WELDING
Arc welding- SMAW, stud arc welding,
GMAW, GTAW and FCAW, solid state
welding processes- pressure welding,
friction welding, diffusion welding;
resistance welding processes.
6
3 ARC WELDING
Different types of equipment, power
sources, arc characteristics, electrode
selection.
5
4
CRITICAL AND
PRECISION WELDING
PROCESSES
PAW, LBW, EBW, USW, friction stir
welding, under-water welding. Welding of
plastics, ceramics and composites.
6
5 WELDING
METALLURGY
HAZ, effects of different process
parameters on the characteristics of
weldment. Welding fixtures, welding
automation and robotic applications.
6
6
WELDABILITY OF
PLAIN CARBON
STEELS
Stainless steel, cast iron, aluminium and its
alloys. 4
7 WELDING DEFECTS
Types, causes, inspection and remedial
measures; testing of welded joints by
visual inspection, dye-penetration (DP)
test, ultrasonics and radiography. Safe
Practices in Welding.
6
TOTAL 36
REFERENCES:
1. M. Bhattacharyya, Weldment Design, The Association of Engineers, India
Publication, Kolkata.
2. J.C. Lippold and D.J. Kotecki, Welding Metallurgy and Weldability of Stainless
Steels, Wiley-India (P) Ltd., New Delhi.
3. Udin, Funk and Wulf, Welding for Engineers, John Wiley and Sons.
4. J.L. Morris, Welding Process and Procedures.
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 12
5. S.V. Nadkarni, Modern Arc Welding Technology, Oxford & IBH Publishing Co. Pvt.
Ltd./ Advani-Oerlikon Ltd.
6. O.P. Khanna, A Text Book of Welding Technology, Dhanpat Rai & Sons.
7. R.S. Parmar, Welding Engineering and Technology, Khanna Publishers.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 13
Course Title : ELECTIVE-I (Departmental) Course Code: ME1317E013
L-T-P-C: 3-0-0-3
COMPUTATIONAL FLUID DYNAMICS
MODULE TOPIC COURSE CONTENT HOURS
1
THE BASIC
EQUATIONS OF FLUID
DYNAMICS
General form of a Conservation law:
equation of mass conservation,
conservation law of momentum,
conservation equation of energy.
3
2
THE DYNAMIC LEVELS
OF APPROXIMATION
The Navier-Stokes(NS) equation: The
Reynold’s averaged NS equation, The thin
layer NS approximation, The parabolaised
NS approximation, The boundary layer
approximation The distributed loss model,
The inviscid flow model, Euler equations,
steady inviscid rotational flow, The
potential flow model, small disturbance
approximation of the potential equation,
Linearised potential flow, singularity
methods, mathematical nature of flow
equations..
6
3
BASIC
DISCRETIZATION
TECHNIQUES
(a)The finite difference method, (b)The
finite volume method and conservative
discretization.
3
4
ANALYSIS AND
APPLICATION OF
NUMERICAL SCHEMES
Consistency, stability, convergence,
Fourier and Von Neumann stability
analysis, modified equation, application of
finite difference methods, to wave, heat.
Laplace and Burger’s equation.
6
5
INTEGRATION
METHODS FOR
SYSTEMS OF ODE
Linear multi step methods, predictor-
corrector schemes, ADI methods, The
Runge-Kutta schemes.
6
6
NUMERICAL
SOLUTION OF EULER
EQUATIONS
Mathematical formulation of the system of
Euler equations, space-centered schemes,
upwind shemes for the Euler’s equation-
Steger and warming flux vector splitting,
Van Leer’s flux splitting.
6
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 14
7
INTRODUCTION TO
COMPUTATIONAL
FLUID DYNAMICS
Application of Computational Fluid
Dynamics in Conduction, convection and
radiation.
6
TOTAL 36
REFERENCES:
1. Computational Fluid Mechanics and Heat Transfer—Hemisphere-Anderson,
Tannehill, Pletcher.
2. Computational Heat Transfer-Hemisphere and Springer-Verlag-Jaluria and Torrance.
3. Computational techniques for Fluid Dynamics-Verlag-Fletcher and Springer.
4. Numerical Computation of Internal and External flows-John-Wiley-Charlse and
Hirch.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 15
Course Title : ELECTIVE-I (Departmental) Course Code: ME1317E014
L-T-P-C: 3-0-0-3
INTEGRATED DESIGN AND MANUFACTURING
MODULE TOPIC COURSE CONTENT HOURS
1
ROLE OF
MANUFACTURING
PROCESS IN PRODUCT
DESIGN
Classification of processes; Casting
process, pattern and mould, melting and
pouring, solidification and cooling,
removal and finishing, sand casting,
comparisons of casting processes.
10
2 METAL FORMING
Cold and hot working, rolling, forging,
extrusion, drawing, deep drawing,
punching and blanking, comparison of
forming process.; Machining process,
metal cutting, grinding and finishing
operations, comparison.
10
3 UNCONVENTIONAL
MACHINING
Ultrasonic, electrochemical, laser beam,
electro discharge machining, comparison,
numerical examples.; Selection of
manufacturing processes, manufacturing
cost, production volume, manufacturing
characteristics, material properties, shapes,
sizes, dimensional accuracy and surface
finish.
10
4 PRODUCT
DEVELOPMENT
From concept to product designing for
function, production, handling, use and
maintenance; Design for
manufacturability, designing for
economical production, design
considerations in sand casting, forging,
machining, grinding and welding.
Integrated manufacturing.
6
TOTAL 36
REFERENCES:
1. G K Lal & Vijay Gupta, Fundamentals of design & manufacturing, Narosa
Publishers.
2. Ulrich & Epinger, Product design & development, TMH Publishers.
3. Ghosh & Malik, Manufacturing Science, New Age Publishers.
Class Hours/week 3
Expected weeks 12
Total hrs. of
classes
36
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 16
Course Title : ELECTIVE-II (Humanities)
Course Code: HS1317E021
L-T-P-C: 2-0-0-2
VALUE EDUCATION, HUMAN RIGHTS AND
LEGISLATIVE PROCEDURE
MODULE TOPIC COURSE CONTENT HOURS
1 VALUES AND
SELF
DEVELOPMENT
Social values and individual attitudes, Work
ethics, Indian vision of humanism, Moral and non
moral valuation, Standards and principles, Value
judgments. Importance of cultivation of values,
Sense of duty, Confidence, National unity,
Patriotism, Love for nature, Discipline. Devotion,
Self reliance.
5
2 PERSONALITY
AND
BEHAVIOUR
DEVELOPMENT
Soul and scientific attitude, Positive thinking,
Integrity and discipline, Punctuality, Love and
kindness, Avoiding fault finding, Free from anger,
Dignity of labor, Universal brotherhood and
religious tolerance, Happiness vs. suffering love
for truth, Aware of self destructive habits,
Association and cooperation
4
3 CHARACTER
AND
COMPETENCE
Science vs. God, Holy books vs. blind faith, Self
management and good health, Science of
reincarnation, Equality, Nonviolence, Humility,
Role of women, All religions and same message,
Mind your mind, Self control
4
4 HUMAN
RIGHTS Jurisprudence of human rights nature and
definition, Universal protection of human rights,
Regional protection of human rights, National
level protection of human rights, Human rights
and vulnerable groups.
5
5 LEGISLATIVE
PROCEDURES Indian constitution, Philosophy, fundamental
rights and duties, Legislature, Executive and
Judiciary, Constitution and function of parliament,
Composition of council of states and house of
people, Speaker, Passing of bills, Vigilance,
Lokpal and functionaries.
6
TOTAL 24
Class Hours/week 2
Expected weeks 12
Total hrs. of
classes
24
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 17
TEXTBOOKS:
1. Chakraborty, S.K., Values and Ethics for Organizations Theory and Practice, Oxford
University Press, New Delhi
2. Kapoor, S.K., Human rights under International Law and Indian Law, Prentice Hall of
India, New Delhi
3. Basu, D.D., Indian Constitution, Oxford University Press, New Delhi
REFERENCE BOOKS:
1. Frankena, W.K., Ethics, Prentice Hall of India, New Delhi.
2. Meron Theodor, Human Rights and International Law Legal Policy Issues, Vol. 1 and 2,
Oxford University Press, New Delhi.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 18
Course Title : ELECTIVE-II (Humanities) Course Code: HS1317E022
L-T-P-C: 2-0-0-2
VALUES AND ETHICS IN PROFESSION
MODULE TOPIC COURSE CONTENT HOURS
1
EFFECTS OF
TECHNOLOGICAL
GROWTH
Rapid Technological growth and depletion
of resources, Reports of the Club of Rome.
Limits of growth: sustainable development
Energy Crisis: Renewable Energy
Resources
Environmental degradation and pollution.
Eco-friendly Technologies. Environmental
Regulations, Environmental Ethics
Appropriate Technology Movement of
Schumacher; later developments
Technology and developing notions.
Problems of Technology transfer,
Technology assessment impact analysis.
Human Operator in Engineering projects
and industries. Problems of man, machine,
interaction, Impact of assembly line and
automation. Human centered Technology.
12
2
ETHICS OF
PROFESSION
Engineering profession: Ethical issues in
Engineering practice, Conflicts between
business demands and professional ideals.
Social and ethical responsibilities of
Technologists. Codes of professional ethics.
Whistle blowing and beyond, Case studies.
4
3
PROFESSION AND
HUMAN VALUES
Values Crisis in contemporary society,
Nature of values: Value Spectrum of a good
life
Psychological values: Integrated
personality; mental health
Societal values: The modern search for a
good society, justice, democracy,
secularism, rule of law, values in Indian
Constitution.
8
Class Hours/week 2
Expected weeks 12
Total hrs. of
classes
24
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 19
Aesthetic values: Perception and enjoyment
of beauty, simplicity, clarity.
Moral and ethical values: Nature of moral
judgments; canons of ethics; ethics of virtue;
ethics of duty; ethics of responsibility.
TOTAL 24
RECOMMENDED BOOKS:
1. Stephen H Unger, Controlling Technology: Ethics and the Responsible Engineers,
John Wiley & Sons, New York.
2. Deborah Johnson, Ethical Issues in Engineering, Prentice Hall, Englewood Cliffs,
New Jersey.
3. A N Tripathi, Human values in the Engineering Profession, Monograph published by
IIM, Calcutta.
4. Prof. (Col) P S Bajaj and Dr. Raj Agrawal, “Business Ethics – An Indian
perspective”, Biztantra, New Delhi.
5. David Ermann and Michele S Shauf, “Computers, Ethics and Society”, Oxford
University Press.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 20
Course Title : ELECTIVE-II (Humanities) Course Code: HS1317E023
L-T-P-C: 2-0-0-2
ORGANIZATIONAL BEHAVIOUR
MODULE TOPIC COURSE CONTENT HOURS
1 FOCUS AND
PURPOSE
Definition, need and importance of
organizational behaviour; Nature and
scope; Frame work; Organizational
behaviour models.
3
2 INDIVIDUAL
BEHAVIOUR
Personality ; types ; Factors influencing
personality ; Theories ; Learning ; Types
of learners ; The learning process ;
Learning theories – Organizational
behaviour modification. Misbehaviour;
Types; Management Intervention.
Emotions; Emotional Labour;
Emotional Intelligence, Theories.
Attitudes – Characteristics, Components,
Formation, Measurement, Values.
Perceptions, Importance, Factors
influencing perception, Interpersonal
perception- Impression Management.
Motivation, importance, Types, Effects
on work behaviour.
5
3 GROUP
BEHAVIOUR
Organization structure , Formation ,
Groups in organizations , Influence ,
Group dynamics , Emergence of informal
leaders and working norms , Group
decision making techniques , Team
building , Interpersonal relations,
Communication , Control.
5
4 LEADERSHIP AND
POWER
Meaning, Importance, Leadership styles,
Theories, Leaders Vs Managers, Sources
of power, Power centers, Power and
Politics.
5
5
DYNAMICS OF
ORGANIZATIONAL
BEHAVIOUR
Organizational culture and climate,
Factors affecting organizational climate,
Importance. Job satisfaction,
Determinants, Measurements, Influence
6
Class Hours/week 2
Expected weeks 12
Total hrs. of
classes
24
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 21
on behaviour. Organizational change,
Importance, Stability Vs Change,
Proactive Vs Reaction change, the
change process, Resistance to change,
Managing change. Stress, Work
Stressors, Prevention and Management of
stress, Balancing work and Life.
Organizational development –
Characteristics, objectives,
Organizational effectiveness.
TOTAL 24
RECOMMENDED BOOKS:
1. Stephen P. Robins, Organisational Behavior, PHI Learning / Pearson Education,
11th edition.
2. Fred Luthans, Organisational Behavior, McGraw Hill, 11th Edition.
3. Hellrigal, Slocum and Woodman, Organisational Behavior, Cengage Learning, 11th Edition
4. Ivancevich, Konopaske & Maheson, Oranisational Behaviour & Management, 7th edition,
TMcGraw.
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 22
Course Title : ELECTIVE-II (Humanities) Course Code: HS1317E024
L-T-P-C: 2-0-0-2
INTERNATIONAL BUSINESS AND INTELLECTUAL
PROPERTY RIGHTS
MODULE TOPIC COURSE CONTENT HOURS
1 CONCEPT OF
INTERNATIONAL BUSINESS
Reason for expansion of
international business. Difference
from domestic business,
international cultural environment,
self-reference criterion and
ethnocentrism.
4
2 WORLD TRADE
Definition and components of
balance of payment, Types and cause
of disequilibrium in balance of
payment, Foreign exchange rate;
fixed and flexible exchange rate and
policy of devaluation.
10
3 GLOBALISATION
Meaning, case for globalization,
dangers and risks of globalization,
consequences of globalization for
India.
4
4 INTELLECTUAL PROPERTY
Its origin and development; an
overview, Need for protecting
intellectual property, copyrights,
trademarks and patent: meaning and
implication, rights of patentees,
International and Indian patent laws.
6
TOTAL 24
RECOMMENDED BOOKS:
1. Rakesh Mohan Joshi,’ International Business’, Oxford University Press, 6th edition.
2. Avinash Shivade, ‘Intellectual Property Manual’, Lexix, Nexis.
3. B. L.Wadehra, ‘ Law Relating to Patent Trade Marks, copy right design and
Geographical Indicators’,University Law Publishing Co. Ltd.
Class Hours/week 2
Expected weeks 12
Total hrs. of
classes
24
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 23
Course Title : ELECTIVE-II (Humanities) Course Code: HS1317E025
L-T-P-C: 2-0-0-2
ENGINEERING ETHICS AND INTELLECTUAL
PROPERTY RIGHTS
MODULE TOPIC COURSE CONTENT HOURS
1 ENGINEERING AS A
PROFESSION
Ethics in engineering, Codes of
Engineering Ethics – history and
purpose, Consequentialism and
Utilitarianism, Deontological
approaches, duties, rights and respect
for a person, responsibility, virtue
Ethics, honesty, moral autonomy,
obligations of Engineering profession.
5
2 ENGINEER’S MORAL
RESPONSIBILITY
Engineer’s moral responsibility for
safety and human rights, risk
assessment and communication, Case
study: Bhopal Gas Tragedy(Self Study),
product liability, Engineer – Employer
relationship, whistle blowing and its
moral justifications. Computer ethics –
social impact of computers, privacy,
cyber crime, ethical use of software.
5
3 INTELLECTUAL
PROPERTY
Definition, types, rights and functions,
Institutions for administering IP system
– National Patent Offices, WIPO, WTO
– TRIPS agreement and implications.
Patents – definition, types, criteria for
Patent, Indian Patent Act 1970
(amended 2005), drafting Patent
applications, specifications and claims.
7
4 TRADEMARKS
Role, as a marketing tool, rights, types
of protectable marks, acquiring property
in Trademarks, Trademark Act 1999
and registration in India. Trade secrets –
definition, criteria and evaluation for
trade secrets, trade secrets protection in
India.
4
5 INDUSTRIAL DESIGN Definition, protection of Industrial
design and India Design Act 2000. 3
Class Hours/week 2
Expected weeks 12
Total hrs. of
classes
24
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 24
Copyrights – definition, function,
protection in India, Copyright Act 1957
(amended 1999), Information
Technology and Copyrights.
TOTAL 24
RECOMMENDED BOOKS:
1. Govindarajan, Natarajan & Senthil Kumar – Engineering Ethics. PHI
2. Vinod V. Sople – Managing Intellectual Property: The Strategic Imperative. PHI
2006.
3. Stephen H Unger – Controlling Technology: Ethics and the Responsible Engineers.
John Wiley & Sons
4. David Ermann and Michele S Shauf – Computers, Ethics and Society. Oxford
University Press.
5. Avinash Shivade – Intellectual Property Manual. Lexix, Nexis
OTHER REFERENCES:
1. http://en.wikipedia.org/wiki/Engineering_ethics
2. www.trinity.edu/cbrown/intro/ethical_theories.html
3. https://en.wikipedia.org/wiki/computer_ethics
4. www.wipo.int/edocs/pubdocs/end/patents/867/wipo_pub_867.pdf
5. www.ipindia.nic.in
6.www.bios.net/daisy/patentlens/2527/verson/default/part/AttachmentData/data/India%20patent
%20process.pdf
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 25
PRACTICALS Course Title : REFRIGERATION AND AIR CONDITIONING LAB
Course Code: ME131711
L-T-P-C: 0-0-2-1
Expected No. of weeks : 12 (approx)
EXPERIMENT
NO. AIM OF EXPERIMENT HOURS
1
To study the theoretical cycle and determine refrigerating
effect, work input, actual and theoretical C.O.P. and draw the
P-H diagram of the refrigerating system in a Refrigeration
Test Rig.
2
2
To study the theoretical cycle and determine refrigerating
effect, work input, actual and theoretical C.O.P. and draw the
P-H diagram of the Vapour Compression Air-Conditioning
cycle in an Air-Conditioning Test Rig.
2
3 To determine C.O.P. of the system in an Electrolux Test Rig. 2
4 To conduct performance test on refrigeration setup (Ice Plant
Trainer) 2
TOTAL 8
ASSAM SCIENCE AND TECHNOLOGY UNIVERSITY Page 26
Course Title : DYNAMICS OF MACHINE LAB Course Code: ME131712
L-T-P-C: 0-0-2-1
Expected No. of weeks : 12 (approx)
ME131717 PROJECT-1
L = 0
T = 0
P = 8
C = 4
GUIDELINES WILL BE DISTRIBUTED BY THE UNIVERSITY FROM TIME TO TIME
ME131721 SEMINAR ON SUMMER TRAINING
L = 0
T = 0
P = 0
C = 1
GUIDELINES WILL BE DISTRIBUTED BY THE UNIVERSITY FROM TIME TO TIME
**********
EXPERIMENT
NO. AIM OF EXPERIMENT HOURS
1
To study the undamped free vibrations of equivalent spring mass
system. 3
2 To study the forced vibrations of equivalent spring mass system. 3
3 To study the free vibrations of two rotor system and to determine
the frequency of vibration theoretically and experimentally. 3
4 To verify the Dunker ley’s Rule 3
5 To study the whirling phenomenon 3
6 To study cam analysis by graphical method and observe jump
phenomena.
TOTAL 15