DETAILED SYLLABUS

FOR DISTANCE EDUCATION



Under Graduate Degree Program


			B.Tech. 
	(Mechanical Engineering)

(SEMESTER SYSTEM)









      
COURSE TITLE		:  B.Tech. 
(Mechanical   Engineering)

DURATION				:  04 Years (Semester System)

TOTAL DEGREE MARKS		:  3200



FIRST SEMESTER
 
COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
APPLIED MATHEMATICS -I
BTME-110
100
00
100
APPLIED CHEMISTRY
BTME-120/
BTME-120P
50
50
100
APPLIED PHYSICS
BTME-130/
BTME-130P
50
50
100
INTRODUCTION TO IT
BTME-140
100
00
100



SECOND SEMESTER
 
COURSE TITLE
Paper
Code 
MARKS


THEORY
PRACTICAL
TOTAL
COMMUNICATION SKILLS
BTME-210
100
00
100
ENGINEERING GRAPHICS
BTME-220P
00
100
100
APPLIED MATHEMATICS-II
BTME-230
100
00
100
OPERATING SYSTEM
BTME-240

100
00
100




THIRD SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
ENGINEERING METALLURGY
BTME-310
BTME-310 P
50
50
100
APPLIED ELECTRIC & ELECTRONIC 
TECHNOLOGY
BTME-320/
BTME-320P
50
50
100
FLUID MECHANICS
BTME-330/
BTME-330P
50
50
100
ENGINEERING THERMODYNAMICS
BTME-340
50
50
100

FOURTH SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
THEORY OF MACHINES
BTME-410
100
00
100
STRENGTH OF MATERIALS
BTME-420/
BTME-420P
50
50
100
PRODUCTION TECHNOLOGY I
BTME-430/
BTME-430P
50
50
100
MACHINE DRAWING
BTME-440

100
00
100




FIFTH SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
DATABASE MANAGEMENT
BTME-510/
BTME-510P
50
50
100
MECHATRONICS
BTME-520/
BTME-520P
50
50
100


DESIGN OF MACHINE ELEMENTS
BTME-530
100
00
100
COMPRESSIBLE FLOW & JET 
PROPULSION
BTME-540

100
00
100





SIXTH SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
INDUSTRIAL ENGINEERING
BTME-610
100
00
100
COMPUTER AIDED DESIGN & 
DRAFTING
BTME-620/
BTME-620P
50
50
100
METROLOGY & QUALITY 
CONTROL
BTME-630/
BTME-630P
50
50
100
REFREGERATION & 
AIRCONDITIONING
BTME-640
BTME 640 P
50
50
100





SEVENTH SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
PRODUCTION TECHNOLOGY-II
BTME-710

100
00
100
DESIGN OF TRANSMISSION 
ELEMENTS
BTME-720
100
00
100
AUTOMOBILE ENGINEERING
BTME-730/
BTME-730P
50
50
100
POWER PLANT ENGINEERING
BTME-740/
BTME-740P
50
50
100


EIGHTH SEMESTER

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
NOISE & AIR POLLUTION 
CONTROL & ANALYSIS
BTME-810
--
--
100
OIL HYDRAULICS & 
PNEUMATICS
BTME-820
100
00
100
ELECTIVES
BTME-830
100
00
100
PROJECT
BTME-840
100
00
100



ELECTIVE 
(SELECT ANY ONE)

COURSE TITLE
Paper
Code
MARKS


THEORY
PRACTICAL
TOTAL
HEAT & MASS 
TRANSFER
E I (1)BTME-830/
E I (1)BTME-830P
50
50
100
TURBOMACHINES
E I (2)BTME-830
100
00
100


Note:

Theory Paper  :  40% Continuous Internal Assessment and 60 % University examination.
Practical Paper: 40 % Continuous Internal Assessment and 60 % University examination.

Continuous Internal Assessment:
1) Two or three tests out of which minimum two      60% of Continuous Internal Assessment
     will be considered for Assessment
2) Seminars/Assignments/Quizzes		     30% of Continuous Internal Assessment
3) Attendance, class participation and behavior	     10% of Continuous Internal Assessment

FIRST SEMESTER 

BTME-110			APPLIED MATHEMATICS -I
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   :  100	Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the 
question paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
Calculus of Functions of One Variable: Successive Differentiation, Leibnitz's theorem (without 
proof).  Mean value theorem, Taylor's  theorem, Remainder theorem, Asymptotes, Curvature. 
Infinite Series: Convergence, divergence, Comparison test, Ratio test, Cauchy Leibnitz's theorem 
(without proof), Absolute and Conditional Convergence. Taylor and Maclaurin series, Power Series, 
Radius of Convergence.
Integral Calculus: Fundamental theorems, Reduction Formulae, Properties of definite Integral, 
Applications of length, area, volume, surface of revolution, moments, center of gravity.  Improper 
integrals, Beta-Gamma functions, Numerical Integration using Trapezoidal and Simpson's rules.
Calculus of Functions of Several Variables Partial derivatives, Chain rule, Differentiation of Implicit 
functions, Exact differentials.  Tangents and Normals.  Maxima, Minima and Saddle points.  Method 
of Lagrange multipliers.   Errors and Approximations.  Differentiation under integral sign Jacobians 
and transformations of coordinates.  Multiple Integrals-Double and Triple integrals.  Applications to 
areas, volumes etc. 

SECTION B
Ordinary Differential Equations: Formation of ODE's, definition of order, degree and solutions.  
ODE's of first order: Method of separation of variables, homogeneous and nonhomogeneous 
equations, exactness and integrating  factor  General linear ODE's of the nth Order: solution of 
homogeneous and non homogeneous equations,  operator Method, Method of undetermined 
coefficients and variation of parameters.  Solutions of simple simultaneous ODE's .

SECTION C
Inner product spaces, Matrices and determinates, Linear transformations.  Systems of linear equations-
consistency and inconsistency, Hermitian, Skew-Hermitian Forms, Eigenvalues and Eigenvectors of 
matrix, diagonalization of a matrix, Cayley-Hamilton Theorem (without poof) 
Complex Variables: Curves and Regions in the Complex Plane, Complex Functions, Limits, 
Derivative, Analytic Function, Cauchy-Riemann Equations, Laplace's Equation, Rational, 
Exponential, Trigonometric, Hyperbolic Function's Linear Fractional Transformations, Conformal 
Mapping, Complex Line Integral, Cauchy's Integral Theorem, Cauchy's Integral Formula, Derivatives 
of Analytic Function, Power Series, Taylor Series, Laurent Series.  methods for obtaining Power 
Series, Analyticity at Infinity, Zeroes, Singularities, Residues, Residue Theorem, Evaluation of Real 
Integrals.

SECTION D
Vector Calculus: Scalar and vector fields, Curves, Arc length, Tangent, Directional Derivative, 
gradient of Scalar field, divergence and curl of a vector field.  Line integrals (independent of path,) 
Green's theorem, Divergence theorem and Stoke's theorem (without proofs), Surface Integrals.
Probability and Statistics :  Random Variables, Discrete and Continuous Distribution, mean and 
Variance of a Distribution, Moment Generating Functions, Skewness, Kurtosis, Binomial, Poisson, 
Normal Distributions, Testing of Statistical Hypothesis, F Test, T-Test, X2 test.
































 
BTME-120	      			APPLIED CHEMISTRY
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the 
question paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Water : Specifications for water, Analysis of water-Alkalinity, hardness and its determination (EDTA 
Method only), water for domestic use, Water-softening-Lime-Soda  process, Ion exchangers polished 
water, Boiler-feed water, boiler problems-scale, sludge, priming and foaming, caustic embrittlement 
and corrosion, their causes and prevention, removal of silice, removal of dissolved gases, carbonates 
phosphate conditioning, colloidal conditioning, Calgon treatment, conditioning, Numerical problems 
of Alkalinity, hardness Lime-Soda process and EDTA Method. 

Fuels : Definition and classification, combustion and chemical principles involved in it.  Calorific 
value : Gross and net Calorific values and their determination by Buoy's Gas Calorimeter and Bomb 
Calorimeter. 

Solid Fuels : Proximate and ultimate analysis of coal and their importance.
Carbonization: High and Low temperature carbonization, coke, its manufacture by Otto Hoffman 
Oven and uses.

Liquid Fuels: Conversion of coal into liquid fuels (Bargius process and Fischer Tropsch Process and 
Mechanism, Petroleum: its Chemical composition and Fractional distillation, Cracking of heavy oil 
residues : thermal cracking and catalytic cracking, knocking-chemical structure and knocking : Octane 
and Cetane number and their significance,  Power alcohol.
Gaseous Fuels: Natural gas, producer gas, water gas, carbureted water gas, coal gas and oil gas, fuel 
and fuel gases and their analysis by Orsat's apparatus.
Numerical on calorific value, combustion, Proximate and ultimate analysis of coal and fuel gas 
analysis.

Nuclear Fuels: Nuclear reaction, nuclear fission and nuclear fusion, Nuclear reactor

SECTION B
Transition Elements: General Properties with special reference to electronic configuration colour and 
magnetic properties of transition Metal compounds. 
Inorganic Polymers: Types of Polymers, Phosphazenes, polysiloxanes and sulphur containing 
Polymers-their structures and properties 

Solutions : Ideal and non ideal solutions Raoult's Law.  Distillation of binary solutions.  Henry's Law, 
Nernst distribution law, Arrenius theory and special behavior of strong electrolytes.  

SECTION C
Chemical Bonding: Ionic bond energy changes, lattice energy Born Haber Cycle, Covalent bond-
energy changes, Potential energy curve for H2 molecule, characteristics of covalent compound, co-
ordinate bond-Werner's Theory, effective atomic numbers, isomerism in coordinate compounds.  
Hydrogen bonding, Vander Waal's forces, hybridization and resonance, Valence Shell Electron 
Repulsion theory (VSEPR).  Discussion of structures of H2O, NH3, BF3 SiF4, Molecular orbital 
theory, Linear combination of atomic orbitals (LCAO) Method.  Structure of simple homo nuclear 
diatomic molecule like H2, N2, O2, F2       

Gaseous State:  Gas Laws and kinetic theory of gases, Distribution of Molecular velocities, Mean free 
path.  Real gases-non ideal behaviours, Causes of deviation from ideal behaviour Vander Waal's 
equation.  Liquefaction of gases. 
Thermochemistry: Hess's Law, heat of a reaction, effect of temperature on heat of reaction at constant 
pressure (Kirch off's Equation), heat of dilution, heat of hydration, heat of neutralization and heat of 
combustion, Flame temperature.  

SECTION D
Catalysis: Criteria for Catalysis- Homogeneous Catalysis, acid-base, Enzymatic catalysis, Catalysis 
by Metal salts, Heterogeneous Catalysis-concepts of promoters, inhibitors and poisoning, 
physiosorption, Chemisorption, Surface area, Industrially important process, Theories of Catalysis.  

Plastic: Thermosetting and Thermoplastic, properties and applications.  Conducting Polymer-
properties and application.
Composites:  Classification, micro-Mechanics of fibre and particle reinforced composites, strength, 
stiffness and factors affecting failure modes.                                                                                                           

 
                                                                        

 






 



 



BTME-120P		      		APPLIED CHEMISTRY
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


To determine the percentage composition of a mixture of Sodium hydroxide and Sodium chloride.
To determine the amount of Sodium Carbonate in the given mixture of Sodium Carbonate and Sodium 
bicarbonate.
Determine the amount of oxalic acid and Sulphuric acid/Hydrochloric acid in one litre of solution 
given standard sodium hydroxide and Potassium per magnate.
To determine the carbonate, bicarbonate and chloride contents in irrigation water.
To determine the number of water molecules of crystallization in Mohr salt provided standard 
dichromate solution using internal indicator.
Determine the amount of Cu in the copper ore solution provided hypo solution
Iodiomatic titration of K2Cr2O7 V/S Na2S2O3  to determine the percentage purity of K2Cr2O7  
sample.
Argentometric titration one each of Vohlard's Method and of Mohr's Method.
Determination of dissolved oxygen in the given sample of water
Determine the surface tension of a liquid using drop weight Method.
Determine the heat of hydration of CuSO4..5H2O/FeSO4, 7H2O 
Determine the heat of neutralization of Strong Acid (say H2SO4/HCI) with strong base NaOH 
Determine the heat of Weak Acid with strong base 
Determine the molecular weight of a substance by Rast Method 
Determination of reaction rate constant for a Ist Order reaction 
Complexometric titrations 
To determine the viscosity of the given liquid (density also to be determined) 
Preparation of Polymer 
To determine the cell constant of a conductivity cell 
Titration of strong acid/strong base conductometrically.  



 

 













BTME-130				APPLIED PHYSICS
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Kinematics: Need of frames of reference in describing motion, One Dimensional motion, Two 
Dimensional motion 

Dynamics: Central forces, Inverse square force, Satellite including applications in remote sensing and 
communication. Oscillations, General potential with stable equilibrium point, Solution of differential 
equation with emphasis on initial conditions, Damped and forced oscillations.

Waves: Waves on a stretched string, Differential equation of wave, Description of general solution 
f(x+vt) Longitudinal and transverse waves, Superposition of waves, Plane monochromatic waves, 
m =nD , plane, spherical and cylindrical wavefronts.
Pressure equation, decibel, reverberation, ultrasonic

SECTION B
Optics: Optical Instruments – Telescope, Microscope, Radio Telescope, Electron Microscope.
Interference of light – Newton's rings, testing of flatness, curved surfaces, alignment.  
Diffraction, Resolution, Polarisation with application
Principle of laser, design of laser, stimulated radiation, population inversion, laser action, properties 
and application of laser light.

Modern physics: Theory of Relativity
Elements of Quantum mechanics including atomic spectra, X-rays, Ultrasound, Infrared radiations, 
Nuclear radiations and detectors.

SECTION C
Heat: Temperature Measurement and controls, Resistance  thermoMeter,   thermo 
emf, high and Low temperature Measurements, thermistor, thermostatic and other temperature control 
devices.  Black body radiation, Kirchoff's Law, Stefan-Boltzman's Law, Wien's Law, Rayleigh 
jeans's Law, Planck's Law.
Ultrasonic: Piezo-electric effect, production-(using Quartz, Ceramics and Magnetostriction), 
Detection, velocity Measurement and application of ultrasonic waves (cavitations, thickness, Echo, 
chemical reactions).
Motion of charged particle in Electric and magnetic fields.  Magnetic and electrostatic focusing, 
Determination of e/m by cathode ray tube, Functions and block diagram of CRO Positive rays, 
Thomson parabolic method, Isotopes, Mass spectrograph (Aston and Bainbridge). Cyclotron.  
Semiconductors and Electronics: Characteristics of p-n junction, static and dynamic resistance, Zener 
diode and LED, diode as a rectifier, Transistor (pnp and npn) characteristics, Current and voltage gain.

SECTION D
Solid State Physics:  Crystal structures, X-Ray diffraction, Superconductivity, meissner effect, 
London Equation, BCS theory, Properties and applications of super conductors.  

Fibre Optics:  Type of fibres, step index and graded index, Numerical aperture, 
Uses of Optical fibres in communication.  
Heisenberg uncertainty principle, de Broglie's hypothesis (matter waves), Davisson and Germer expt., 
Development of Schrodinger wave equation, solution of the Sch. Wave eqn for free and bound state, 
Sch. Wave eqn applied to Metals & Semiconductors, Vector atomic model, Pauli's spin quantum 
numbers, Stem Garlach expt, Electro-optical Effect (Stark effect), Magneto-optical effect (Zeeman 
effect)
Basic introductory concepts of creation of Universe: Big Bang, Steady state, Pulsating state, Quasars, 
Pulsars, Black hole  































BTME-130P				APPLIED PHYSICS
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

 
Measurement of short Time intervals using electronic Timer sensors.
Study of rotational motion of cycle wheel
Study of oscillatory systems
Study of stationary waves 
Use of prism spectrometer
Measurement of wavelength of light by bi-prism/Newton rings/Diffraction grating
Diffraction of light using Sodium source and Helium Neon source.
Study of polarization of light
Study of laser parameters/diffraction at a circular aperture
Experiment on Ultrasonic.
Heat: Platinum resistance thermometer, Calibration of thermocouple, Lee's 
Method, Stefan's Constant, Emissive Power.
Optics: Dispersive power of prism, Polarization, He-Ne Laser, fibre optics,   Diffraction grating, 
Newton's rings 
Sound: Ultrasonic, to find ultrasonic velocity in different materials, ultrasonic diffraction grating 
Measurement of resistances of various orders, AC and DC voltages using digital millimeters.  
Measurement of voltage, and frequencies of AC waveform from a function generator using CRO, 
formation of Lisajous figure.  
Determination of e/m by J.J. Thomson's Method 
Charging and discharging 
Measurement of thermo emf between different types of thermocouples as a function of temperature 
difference between the junction, Measurement of an unknown temperature 
Design and use of potentiometer 
Use of Carey Foster bridge. 



















BTME-140		      		INTRODUCTION TO IT
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A 
An Overview of the Computer System-The Processor (CU, ALU) Factors affecting processor speed, 
The Bus-Data Bus and Address Bus.  memory (RAM, ROM, Registers, Cache).  

SECTION B
I/O Devices (Mouse, Keyboard, Monitors, Printers, Pens, Touch Screens, Microphones and Voice 
Recognition), Storage Devices (Diskettes, Hard Disc, CD-ROM).  Computer Categorization.

SECTION C
Networks-Uses, Categories & Topologies. System software and Application Software, Operating 
System-User Interface, Resource Management, Utility Software.  Word Processing and Desktop 
Publishing, Spreadsheets & Basics of Database Management.

SECTION D
Programming Language: High level language, Low Level Language & Assembly Language.  Major 
Features of the Internet, Working with Graphics, Types of Information Systems & System 
Development Life Cycle.













SECOND SEMESTER 

BTME-210			COMMUNICATION SKILLS
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   :  100	Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Basic Skills: - Listening, Speaking, Reading and Writing.
Comprehension: - Reading Comprehension, Passages, Poems.
Listening Comprehension: - Talks, Reports, Poems
Writing Skills: - Paragraph Writing, Composition Writing, Report Writing, Application & Letter 
Writing

SECTION B
Grammar: - Simple, Compound and complex sentences, Co-ordinate clause (with, but or either-or, 
Neither-Nor otherwise or else), Subordinate clauses-noun clauses-as subjects object and complement: 
Relative Clauses (restrictive and non-restrictive clauses). Adverb clauses (open and hypothetical, 
Comparative Clauses 

SECTION C
Simple present, progressive and present perfect, simple past, progressive and past perfect, indication 
of futurity, the passive (Sample present and past, present and past perfect and 'to' infinitive structure)

SECTION D
Reported Speech: - (I) Declarative sentences, (ii) Imperatives (iii) Interrogatives –question, Yes/No 
Questions, Exclamation sentences, Models (will, shall, should, would, ought to, have to/have got to, 
can, could, me-might and need), Verb structures (infinitives and gerundial)







BTME-220P 	     		ENGINEERING GRAPHICS
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   :  100	Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1. 	Candidates are required to attempt one question each from sections A, B, C and D of the 
question paper and the entire section E.
2.	      Use of non-programmable scientific calculator is allowed.


General: Importance, Significance and scope of engineering drawing, Lettering, Dimensioning, 
Scales, Sense of proportioning, Different types of projections, Orthographic Projection, B.I.S. 
Specifications.  

Projections of Point and Lines: Introduction of planes of projection, Reference and auxiliary planes, 
projections of points and Lines in different quadrants, traces, inclinations, and true lengths of the lines, 
projections on Auxiliary planes, shortest distance, intersecting and non-intersecting lines. 
Planes other than the Reference Planes: Introduction of other planes (perpendicular and oblique), their 
traces, inclinations etc., Projections of points and lines lying in the planes, conversion of oblique plane 
into auxiliary Plane and solution of related problems. 
Projections of Plane Figures: Different cases of plane figures (of different shapes) making different 
angles with one or both reference planes and lines lying in the plane figures making different given 
angles (with one of both reference planes).  Obtaining true shape of the plane figure by projection. 
Projection of Solids: Simple cases when solid is placed in different positions, Axis faces and lines 
lying in the faces of the solid making given angles.
Development of Surface: Development of simple objects with and without sectioning. 
Isometric Projection
Nomography : Basic Concepts and use. 











BTME-230				APPLIED MATHEMATICS II
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   :  100	Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	 Use of non-programmable scientific calculator is allowed.

SECTION A 
Laplace Transformation:  Laplace Transformation, Inverse Laplace transformation Convolution 
Theorem, application to linear differential equations with constant coefficients, Unit step function, 
impulse functions/periodic functions 

SECTION B
Fourier Series:  Fourier Series, Euler's formulae, even and odd functions, having arbitrary periods, 
half range expansion, Harmonic analysis
Fourier Transforms: Fourier transform, Sine and Cosine transforms, Application to differential 
equations

SECTION C
Special Functions: Beta and Gamma functions, Bessels functions of first kind, Recurrence relations, 
modified Bessel functions of first kind, Ber and Bei functions, Legendre Polynomial, Rodrigue's 
formula, orthogonal expansion of function

SECTION D
Partial Differential Equation: formation of first and second order linear equations, Laplace, Wave 
and heat conduction equation, initial and boundary value problems.  












BTME-240			OPERATING SYSTEM
		 
Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Overview: Importance of Operating Systems (highlighting the salient features of UNIX)  Basic 
Concepts and Terminology used in OS Functions performed by OS (using case study of UNIX)

SECTION B
Memory Management: Single Contiguous Allocation:  H/W Support, S/W Support, Advantages, 
Disadvantage: Introduction to Multiprogramming : Concept of Multiprogramming, measure of System 
i/o Wait Percentage, Relevance of Multiprogramming to memory Management;  Partitioned 
Allocation, Relocatable Partitioned memory management, Paged Memory management, Demand-
Paged Memory management, Segmented Memory Management, Segmented and Demand-Paged 
Memory Management, Other Memory management Schemes (Swapping, Overlays).
Processor Management: State Model:  Job Scheduler, Process Scheduling, Job and Process 
Synchronization, Structure of Processor Management;  Job Scheduling: Functions, Policies, Job 
Scheduling in Nonmultiprogrammed Environment,  Job Scheduling in multiprogrammed environment 
; Process Scheduling, Multiprocessor Systems:  Separate Systems, Coordinated Job Scheduling, 
Master/Slave Scheduling, Homogeneous Processor scheduling ; 

SECTION C
Process Synchronization :  Race Condition, Synchronization Mechanism, Deadly Embrace, 
Synchronization Performance Considerations.
Device Management:  Techniques for Device Management: Dedicated Devices, Shared Devices, 
Virtual Devices; Device Characteristics-Hardware Considerations:     Input    or 

SECTION D
Output Devices, Storage Devices; Channels and Control Units:  Independent Device Operation, 
Buffering, Multiple Paths, Block Multiplexing; Device Allocation Considerations; Virtual Devices.
Information Management:  Introduction; A Simple File System; General Model of a File System; 
Symbolic File System; Basic File System, Access Control Verification; Logical File System; Physical 
File System.


					THIRD SEMESTER


BTME 310 			ENGINEERING METALLURGY

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	    Candidates are required to attempt one question each from sections A, B, C and D of the                    
question paper and the entire section E.
2.	     Use of non-programmable scientific calculator is allowed.

Section A 

Mechanical  properties of engineering materials - Elasticity , plasticity-slip process - dislocation-
Twinning - Grain boundaries-hardness-other mechanical properties. precipitation hardening and 
recrystallisation- Precipitation hardening- mechanism of precipitation hardening-Precipitation 
hardening of low carbon steels and other alloys. Recrystallisation-Grain growth after recrystallisation.

Section B 

Phase diagrams: Phase rule , Important binary diagrams-isomorphous system, eutectic system 
diagram, showing partial solid solubility, peritactic system, equilibrium solid state reactions. Methods 
of constructing phase diagrams.
Ferrous alloys:Fe-Fe3 diagram, Equilibrium structure, Invariant reactions, critical temperatures for 
steel on heating and cooling. Plain carbon steel, Alloy steel, tool steel and stainless steel-Classification 
of cast iron, properties and uses ,problems. Effect of alloying elements-Chromium, Nickel, 
Molybdenum, Cobalt etc.

Section C

 Heat treatment of steel: Annealing-full annealing, cyclic annealing, process annealing, spheroidizing; 
normalising, hardening and tempering TTT and CCT diagrams,austempering, martempering 
ausforming. Surface hardening processes.
Non-ferrous alloys : Composition and uses of important aluminium alloys and copper alloys. Bearing 
materials, soldering and brazing alloys. problems.




Section D

Tensile Testing : Properties evaluated by tensile testing procedure, Engineering stress strain curve Vs 
true stress strain curve, stress strain curve for typical materials.
Hardness testing : Types of hardness testing - Scratch, indentation ,rebound, micro hardness, 
Indentation hardness methods-Rockwell , Brinnel, and Vickers, problems.
Impact testing : Izod and charpy tests for toughness evaluation, concept of transition temperature and 
factor affecting the same ,concept of Fracture toughness.
Fatigue testing : Characteristics of fatigue failure, types of stress cycles , S-N curve. Factors affecting 
fatigue life ,protection against fatigue life.
Creep testing : High temperature material problems, creep curve, creep test, and stress rupture test, 
Factors affecting creep, creep resistant materials.


Textbooks :
1. Avner,S.H.,"Introduction to Physical Metallurgy", McGraw Hill, 1984.
2. Dieter,G.E.,"Mechanical Metallurgy", McGraw Hill, 1988.




























BTME 320 		APPLIED ELECTRICAL & ELECTRONIC ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A 
 Asynchronous Machines  
Three phase Induction Motors-Principle of Operation-Cage and Slip ring rotors-Torque-Slip 
characteristics-Equivalent circuit-Starting and speed control-Single phase Induction Motors-Types-
Applications-Universal Motor.

SECTION B 
 Selection of Drives  
Electric drives-Individual & group drives-Factors governing selection of drives-Motors for domestic 
uses, Cranes, lifts, General factory, Textile mill, Paper mill, Paper mill, Mining work, Cement mill, 
Machine tools, Belt Conveyors, Ships, Refrigeration and Air conditioning.

SECTION C 
 Stepper Motors  
Construction-Characteristics-Applications

SECTION D
Amplifier Circuits ,Applications of Operational Amplifiers , Digital Circuits .


1.	Millman.J and Grabel.A, " Micro Electronics " , McGraw Hill , 1987 .
Textbook: 
1. Theraja.B.L., "Electrical Technology", Vol-2 , S.Chand & Company ,1997.
2. Gupta.J.B., " A Course in electrical Power " , S.K.Kataria & Sons , 1997.
3. Millman.J. and Halkias.C., " Integrated Electronics" , McGraw Hill , 1983 .





BTME 320P 		APPLIED ELECTRICAL & ELECTRONIC ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTCE-320.








































BTME330				FLUID MECHANICS

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

Section A
Fluids and their properties: Fluids , shear stress in a moving fluid , viscosity, 
Newtonian and non-Newtonian fluids , viscosity in liquids and gases. 
Fluid statics: Pressure, variation of pressure in a static fluid , absolute and gauge pressure, 
measurement of gauge pressure , hydrostatic forces on plane and curved surfaces , center 
of pressure, buoyancy and stability of submerged and floating bodies, metacentric height. 
  
Section B 
Kinematics of fluid flow : Eulerian and Lagrangian approaches, classification of fluid 
flow as steady and unsteady flow,  uniform and non uniform flow, laminar and turbulent 
flow , path line, stream line, streak line and stream tube ,one, two, and three dimensional 
flow , velocity and accelerations in steady and unsteady flow. 
Basic Hydrodynamics:  Ideal fluids , Equations of continuity in the differential form , 
rotational and irrotational flow , circulation and vorticity,  Stream function,  Velocity 
potential, one dimensional flow along a stream line , Bernoulli's equation and its 
limitations , measurement of velocity , Pitot tube and Pitot - static tube, venturi meter, 
orifice meter, flow nozzles, notches and weirs. 
  
Section C 
Steady flow of incompressible fluids in pipes:  laminar and turbulent flows , critical 
Reynolds number, hydraulic radius , general equation for friction , laminar flow in 
circular pipes , Darcy-Weisbach equation, friction factor, equivalent pipes, minor losses 
in pipes, development of boundary layer . 
Dimensional Analysis & Similitude : Rayleigh's method , Buckingham's Pi theorem, 
nondimensional parameters in fluid mechanics and machinery - principles of similitude - 
geometric, kinematic and dynamic similarities - model studies. 
Physical meaning of important dimensional groups of  fluid mechanics and their practical 
use. 
  


Section D   
Dynamic action of fluid : Momentum equation applied to a control volume , impact of 
jets , flow of an incompressible fluid over fixed and moving vanes , work done and 
efficiency.  
Hydraulic turbines :  velocity triangles , impulse and reaction turbines , Pelton wheel , 
Francis turbine and Kaplan turbine , their constructional features  and performance 
characteristics - non dimensional parameters  for comparative study  of turbine 
performance ,theory of draft tubes , speed regulation of turbines , selection of type and 
speed of turbines. 
  
Pumping machinery: general features of positive displacement and rotodynamic pumps 
centrifugal pumps , classification , principle of working, velocity diagrams , losses in 
pumps , circulatory flow , efficiencies , non dimensional parameters, specific speed ,  
pump characteristics - selection of pumps , multistage pumps, propeller pumps ,priming 
,cavitation and its significance. 
Reciprocating pumps: Acceleration head, effect of friction , use of air vessels , 
efficiencies , pump characteristics. 
  
TEXT BOOKS  
1.     Massey : Fluid mechanics     - ELBS 
2.     Daugherty & Franzini :Fluid mechanics with engg. applications McGraw Hill 
3.     Dr. Jagdish Lal : Hydraulic machines, Metropolitan book Co. Delhi-6 
4.     N.S.Govinda Rao : Fluid flow machines, Tata McGraw Hill. 
5.     F.M. White:   Fluid Mechanics 
6.     Vallentine: Applied hydrodynamics - Butter worths - London. 
7.     K.L.Kumar: Engg fluid mechanics - Eurasia publishing house, N. Delhi. 
8.     Douglas, Gasiorek, and Swaffield : Fluid mechanics - Pitman 
9.     Herbert Addison : A treatise on applied hydraulics. 
10. A.J. Stepanof: Centrifugal and axial flow pumps , Wiley, New York. 





















BTME 330P			FLUID MECHANICS

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTCE-330







































BTME 340			ENGINEERING THERMODYNAMICS

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
 Basic Concepts and First Law of Thermodynamics
Basic concepts of thermodynamics - systems - property, state, equilibrium, process and cycle. zeroth 
law of thermodynamics, temperature - Properties of pure of substances - work and heat and other 
forms of energy.
First law of thermodynamics - Internal energy, enthalpy , specific heats , liquid and vaporization tables 
and charts for thermodynamic properties - first law as a rate equation - flow work- steady state flow 
energy equation - applications of SFEE - uniform state , uniform flow .

SECTION B
 Second Law of Thermodynamics 
Limitations of first law - heat engines and refrigerators - second law statements - reversible processes - 
Carnot cycle and Carnot theorem - thermodynamic temperature scale .
Clausius inequality - entropy - TS and HS diagram for pure substances - available energy - availability 
and irreversibility - entropy generation .

SECTION C
 Vapour and Gas Power Cycles 
Vapour power cycles - Rankine cycle - Effect of pressure and temperature on rankine cycle - Reheat 
cycle - Regenerative cycle - Air standard power cycles - Assumptions regarding air standard cycles - 
Otto , Diesel , dual , Stirling and Brayton cycles.

SECTION D
 Ideal and Real Gases Behavior Relationships
Thermodynamic relations : Partial derivatives - Maxwell relations - Clapeyron equation , entropy of a 
pure substance - entropy change - of an ideal gas - principle of increase in entropy - entropy generation 
- Developing - tables of thermodynamic properties - ideal gas - Behavior of real gas - Equations of 
state - Van der Waals equation - Viral equation - Compressibility - volume expansivity and isothermal 
and adiabatic compressibility.

 Mixture of Gases and Combustion 
Mixture of non reacting gases - Dalton's and Amalgam's model - calculation of Cp , Cv , R and U , h 
and s changes for gas mixtures - partial and molal properties - change in properties upon mixing - fuels 
and combustion - combustion chemistry - calculation of air fuel ratio - exhaust gas analysis. 
Textbook :
1. Van Wylen , G.A. et al , " Fundamentals of Classical Thermodynamics" , 4th edition , John Wiley & 
Sons , 1994 .

Reference :
1. Nag, P.K., " Engineering Thermodynamics " , 2nd edition , Tata McGraw Hill , 1994 . 








































BTME340P			ENGINEERING THERMODYNAMICS

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTCE-340.









































BTME410 				THEORY OF MACHINES

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   :  100	Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

1.	B) Instructions for candidates
2.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
3.	Use of non-programmable scientific calculator is allowed.

SECTION A

 Mechanisms 
Terminology , definitions no assumptions : planar , spherical and spatial Mechanisms - classification 
of Mechanisms ; Kinematic inversions - Grashoff's law - Inversions of slider crank Mechanism ; 
Coupler curves ; Spatial Mechanisms - Straight line generators.

SECTION B
 Position and Displacement 
Absolute and relative positions of a point in planar Mechanisms - Loop closure equation : Graphical 
and algebraic position analysis ; Complex algebra position analysis , - Slider crank Mechanisms and 
four bar Mechanism ; Chace solutions to planar vector equations ; Rotation and Translation - Apparent 
displacement

SECTION C
 Velocity and Acceleration 
Velocities of points on a rigid body - relative velocity - velocity polygon - velocity of a point in a 
moving coordinate system ; Direct contact and rolling contact. Instantaneous center - centros - 
Kennedy's theorem ; complex algebra and vector Methods for analysis of planar Mechanisms.
Acceleration of points on a rigid body - relative acceleration - acceleration polygon - acceleration of 
points in moving coordinate systems - coriolis acceleration analytical Method . Chace solution.

SECTION D

 CAM Design 
Classification of cam and follower - displacement diagrams - Graphical layouts of cam profiles. 
Derivatives of follower motion . High speed cams standard motions. Plate cams with flat face and 
roller followers.

 Gears
Terminology and definitions - law of gearing - profile for gears - Involute gearing - Interchangeability 
- - basic rack . Interference and undercutting . Contact ratio . Standard and sub gear teeth. Helical gear 
- Geometry , contact ratio . Gear trains - types - Parallel axis gear trains. Epicyclic gear trains - 
Examples of gear trains.

Textbook:
1. Rao,J.S., and Dukkipati. R.V., " Mechanism and Machine Theory " , Wiley Eastern Limited , 1995.

Reference :
1. Shigley,J.E., and Uicker,J.J., " Theory of Machine and Mechanisms " , McGraw Hill , 1995.










































BTME420 			STRENGTH OF MATERIALS


Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.   Candidates are required to attempt one question each from sections A, B, C and D of the question
     paper and the entire section E.
2.  Use of non-programmable scientific calculator is allowed.


SECTION A
 Simple Stress and Strain and Thin Walled Structures 
Axial and shear stresses and strains - elasticity , Hook's law - Factor of safety , Stepped bars , Bars of 
uniformly varying cross-sections - Lateral Strain - Poisson's ratio - Volumetric strain - elastic 
constants and their relationships - stresses in composite bars to axial loading and temperature . Strain 
energy due to axial load - stresses due to impact and suddenly applied loads. Hoop and longitudinal 
stresses in cylindrical and spherical shells subjected to internal pressure - Changes in dimension and 
volume.

SECTION B
 Principal Stresses 
State of stress at a point - Normal and Tangential stresses on a given plane - Principal stresses and 
their planes , plane of maximum shear - Mohr's circle of stresses . Thick Cylinders - lame's equations , 
shrink fit , compound cylinders.

SECTION C
Shear Force and Bending Moment 
Relationship between loading - shear force and bending moment diagrams for cantilever ,simply 
supported and overhanging beams subjected to concentrated load and UDL - maximum bending 
moment and point of contraflexure.
Theory of simple bending and assumptions - Derivation of formula M / T = f / y = E / R and its 
applications to engineering problems - leaf spring . Shear stress in beam cross sections.

SECTION D
 Deflection of Beams and Statistically Indeterminate Beams 
Differential equation of elastic line - The Moment-Area Method , Macaulay's Method - Deflection by 
superposition.
Method of Superposition . Theorem of three moments (SFD and BMD only).

 Torsion and Columns 
Theory of torsion and assumptions - Torsion of solid and hollow circular shafts - Power transmission , 
strength and stiffness of shafts. Shear stress and deflection in a open coiled helical spring - columns - 
Buckling and stiffness due to axial loads - Euler , Rankine and empirical formula for column with 
different end conditions.

Textbook : 
1. Timoshenko , S.P., and Gere ., M.J., " Mechanics of Materials" , C.B.S., Publishers , 1986

Reference :
1. Popov,E.P., " Mechanics of Materials" , Prentice Hall , 1982.
2. Ramamurtham,S., "Strength of Materials" , Dhanpat Rai & Sons , 1974 .






































BTME420P			STRENGTH OF MATERIALS


Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME-420.








































BTME 430 		PRODUCTION TECHNOLOGY I

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
 
Casting :Classification of Casting processes : according to mold material , moulding materials and 
special techniques . Fettling and Finishing of castings - Defects in casting.
Welding: Classification of welding processes - principles of Gas welding, arc welding, resistance 
welding, solid state welding, thermo chemical welding and radiant energy welding - Brazing and 
Soldering - Welding of Gray CI, carbon steels, stainless steel, aluminum, copper and their alloys - 
thermal cutting of metals/alloys.
SECTION B
Metal Forming I :Forging : Classification of forging processes - forging equipment - powder 
metallurgy .Rolling  :  Classification of rolling processes - rolling mill - rolling of bars and shapes 
.Extrusion : Classification of  extrusion processes - extrusion principle - example.
SECTION C
 Metal Forming II :Drawing : Drawing of rods , wires and tubes .Sheet metal forming methods 
,Shearing , Blanking , Bending , Stretch Forming , deep forming .Spinning : Spinning processes. 
SECTION D  
High Velocity Forming and Plastics Working :High Velocity Forming : Explosive forming , Electro 
hydraulic forming - magnetic pulse forming - pneumatic - mechanical high velocity forming.Plastics 
Working : Principles of  : Compression molding , Transfer Molding , Injection Molding ,Rotational 
molding , Blow molding , Fabrication of plastics , Reinforced plastics , Laminated plastics , Joining of 
plastics . Compounding and preforming , Extrusion , Spreading , Casting , Thermoforming , 
Calendering.

References :
1.	Khanna, O.P. , and Lal, M., " A Text Book of Production Technology" , Vol 1 , Dhanpat Rai & 
Sons , 1992
2.	1.  George E. Dieter  " Mechanical Metallurgy " , McGraw Hill , 1987.
3.	 HMT , "Production Technology " , Tata McGraw Hill , 1985 .












































BTME430 P 		PRODUCTION TECHNOLOGY I

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the 
same course i.e. BTME-430.








































BTME440 				 MACHINE DRAWING 

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B)	Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
 Limits Fits and Machining Tools :Standardization - Interchangeability - Selective Assembly – 

SECTION B
Tolerance . Tolerance of form and position - grades of tolerance - fits -Standard tolerances - 
Machining symbols - surface finish indication - Functional and manufacturing datum.

SECTION C
Assembly Drawings :Shaft Couplings: rigid , flexible ; cotter joints , knuckle joints ,Hook's joints. 
Bearings - Journal - Footstep, thrust or Collar bearing ; Plummer block ; Pulleys for flat belts, Vee belt 
and rope. 

SECTION D
Engine parts - Stuffing box , Connecting rod , Atomizer , spark plug , fuel injection pump . Valves - 
stop - safety valve, relief valve , non-return valve . Machine tool components - Drill jig , Tail stock , 
Tool post , Tool head for shaping machine , machine vice , screw jack.

Reference :
1.	Dhawan,R.K., "A Textbook of Machine Drawing" , S.Chand & Company Limited , 1996.
2.	Ostrowsky, O., " Engineering Drawing with CAD applications " , ELBS , 1995.









FIFTH SEMESTER

BTME-510 			DATABASE MANAGEMENT SYSTEM


Maximum Time 	   : 3 Hrs.	University Examination               : 30 Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B)	Instructions for candidates
1.   Candidates are required to attempt one question each from sections A, B, C and D of the question
     paper and the entire section E.
2.  Use of non-programmable scientific calculator is allowed.


SECTION-A
Overview of DBMS : Basic DBMS terminology, DBA and his responsibilities, Physical and Logical 
data independence. Architecture of  DBMS: Distributed Databases, (Structure  design), Client/Server 
architecture.

SECTION-B
Entity Relationship Model: Entity, Entity Set, Attributes, Tuples, Domains, Keys: Super and 
Candidate Key. Overview of Hierarchical, Network and Relational Models. Comparison of Network, 
Hierarchical and Relational Models.
 
SECTION-C
Relational Model: Storage organisation for relations, Relational Algebra: Set operators, Relational 
operators, Decomposition of relation schemes, Functional dependencies, Multivalued dependencies, 
Normalisation.

SECTION-D
Relational Query Language: DDL, DML, DCL. Database Integrity: Domain integrity, Entity 
integrity, Referential integrity. Security: Authorisation, Access Matrix,  Concurrency, Locks, 
Serializability, Recovery.

References:
1.	C.J. Date, "An  Introduction to Data Base Systems", 3rd Ed., Narosa Publishers, 1997 
(Reprint). 
2.	Jeffrey D. Ullman,  "Principles of Database Systems", 2nd Ed., Galgotia Publications, 1984.
3.	D. Kroenke., "Database Processing", Galgotia Publications, 1987.  
4.	Henry F. Korth,  "Database System Concepts", McGraw Hill. Inc., 1997.
Naveen Prakash, "Introduction to Database Management", TMH, 1993.


BTME-510P 	 	DATABASE MANAGEMENT


Maximum Time 	   : 3 Hrs.	University Examination               : 30 Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME-510.





























		









BTME520					MECHATRONICS

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	
a.	Instructions for paper-setter
The question paper will consist five sections namely A, B, C, D and E.
Each of the sections A, B, C and D will contain two questions and candidates have to attempt at   
least one question compulsorily from each section. Each section carry 15% of the total marks
Section E will comprise of 10-15 short answers type questions, which will cover the entire     syllabus 
and will carry 40% of the total marks. 

Instructions for candidates
Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
Use of non-programmable scientific calculator is allowed.

SECTION A
 Introduction
Concept of Mechatronics - an overview of mechatronic products and their functions - survey of 
electronics enhancing Mechanics and electronics replacing Mechanics - examples.

SECTION B
 Electromechanical Actuators and Drives
Classification of macro systems - working - selection of system for typical cases such as computer 
peripherals .

SECTION C
 Electronic Controllers and Drives 
Classification - systems for mechanical products.

SECTION D
 Micro Mechatronic System 
Sensors and Actuators - system application such as lithographic etching , micro joining .

 Interfacing of Mechanical and Electronic Systems.
mechatronic product design , modeling , analysis and simulation - human factor - examples of 
machine tools manufacture.

Reference :
1. HMT , "Mechantronics" , Tata McGraw Hill , 1998.
2.W.Tryhinsky , "Fine Mechanics and Precision Instruments ", Pergaman Press , 1971.
3.Masood Tabib - Azar , "Microactuators electrical , magnetite thermal, optical, Mechanical, chemical 
and smart structures" , Kluore Academic Publishers , 1997.

				




BTME520P					MECHATRONICS


Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   :  50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME-520.







































BTME 530				DESIGN OF MACHINE ELEMENTS

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B)	Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A

Mechanical Engineering Design 
Phases of design: design considerations; material selection ; Type of stress fields encountered by 
machine elements ; Modes of Failure - Yield , fracture, deflection , wear , buckling , corrosion etc.; 
Theories of failure ; factor of safety ; endurance limit - variable loading - Soderberg and Good-man's 
lines - Miner's equation = Fatigue Strength ; Stress Concentration - Notch sensitivity ; Preferred 
Numbers ; Design and selection of machine elements .

SECTION B
 Shafts and Joints 
Shafts - Materials for shafts - standard diameters of shafts - Design for strength , rigidity and wear - 
effect of fillets , keyways and grooves - Design Procedure ; Bolt Loading ; Design procedure for 
flange coupling; Flexible Coupling - Bush type and disc type .

SECTION C
 Springs and Fasteners 
Cotter Joint - Various modes of failure -design procedure ; Knuckle and Universal Joints -modes of 
failure - Design Procedure ; Keys - Various types of keys - Design of keys . Springs - Types of 
Springs - Uses of Springs - Design of Helical springs - Design of leaf springs

SECTION D
 Welded and Riveted Joints 
Welded joints - types of welded joints - Strength of fillet and butt welds ; design of welded Joints - 
Weld treated as a line - welds subjected to direct loading . Riveted joints - Classification - failures - 
Design Procedure.

UNIT V : Bearings 
Journal Bearings - friction in Sliding contact bearings - Petroff's law - McKee's equation - heat balance 
- Design Procedure . Rolling contact bearings - Types of Rolling Contact bearings - Applications - 
Radial Bearing ; Axial Bearing Selection Of Bearing - Deep Groove ball bearing , roller bearings , 
angular contact bearings.
Textbook :
1. Prabhu, T.J., " Fundamentals of Machine Design " , Madras Book House , Chennai-17 .
Reference :
1. Shigley ,J.E., and Mischke , " Mechanics Engineering Design " , McGraw Hill , 1994 .














































BTME540			COMPRESSIBLE FLOW & JET PROPULSION

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
 Fundamental Aspects of compressible flow 
Isentropic flow introduction - scope of compressible flow - review of continuity , momentum , and 
steady flow energy equations, equation of state, and entropy considerations - Speed of Sound - Mach 
Number - Mach cone and Mach Angle - Isentropic Flow in a stream tube - governing equations - 
Stagnation conditions - Critical Conditions - Characteristic Mach Number - maximum discharge 
velocity - mach number limit for incompressible flow - Various regions of flow - T-s Diagram for 
nozzle and diffuser processes - Effect of area variation on flow parameters - Convergent-Divergent 
nozzles and diffuser - Area ratio - Impulse function - Mass flow parameter - Use of Gas Tables

SECTION B
 Fanno Flow , Rayleigh Flow and Isothermal Flow
Fanno flow - governing equations - Variation of flow parameters in Fanno flow - The Fanno line - 
Variation of mach number with duct length - Limiting length of ducts - Frictional flow in a duct 
preceded by an isentropic nozzle
Rayleigh flow - governing equations - Variation of flow parameters in rayleigh flow - Entropy - 
Temperature relations - The Rayleigh line - Maximum heat transfer. Isothermal flow - Governing 
Equations - Variation of flow paraMeters in isothermal flow.

SECTION C
 Flow Through CD Nozzles : Shock and Expansion Waves 
Operating characteristics of nozzles - flow through convergent nozzle - Choked flow - flow through 
convergent -divergent nozzle - Normal Shock waves - governing equations - Rankine Hugonoit 
equations - Normal shock wave relations in terms on mach number - Prantl-meyer equations - 
Limiting cases of normal shock wave - Strength of shock wave - Pitot tube in supersonic flow - 
moving normal shock wave - Oblique shock wave - Fundamental relationship between Mach number , 
shock wave angle and other flow parameters - Expansion waves - Prantl -meyer Flow .




SECTION D
Jet Propulsion 
Propulsion - Type of Air-Breathing engines - Turbojet - Turboprop - Ramjet - Aircraft engine 
performance parameters - Specific Thrust Vs Fuel Consumption - Aircraft performance - Thrust 
equation and propulsive efficiency - gas Turbine engine components - Inlet-compressor - Combustor - 
Turbine - Exhaust nozzle - Thrust Augmentation - Brayton Cycle .


 Cycle Analysis of Ideal engines 
Rocket propulsion steps of engine cycle analysis - Assumptions - Ideal Ramjet - Optimum mach 
number - Ideal Turbojet - Optimum compressor ratio - Turbojet with afterburner - Ideal turbofan - 
Optimum bypass ratio - ideal turboprop engine - Component performance - Inlet and Diffuser Pressure 
recovery - Compressor and Turbine Efficiency - Combustion efficiency and Pressure Loss - Exhaust - 
nozzle loss - Rocket engines - engine thrust and specific impulse - Rocket vehicle acceleration .

Textbooks :
1.Oosthuizen, P.H., and Carcallen,W.E. "Compressible Fluid Flow " , McGraw Hill,1997
2.Mattingly,J.D., "Elements of Gas Turbine Propulsion ", McGraw Hill , 1996 .

Reference :
1.Yahya, S.M., " Fundamentals of Compressible Flow with Aircraft and Rocket Propulsion " , Wiley 
Eastern , 1993





























SIXTH SEMESTER

BTME610				INDUSTRIAL ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

Instructions for paper-setter
1. The question paper will consist five sections namely A, B, C, D and E.
2. Each of the sections A, B, C and D will contain two questions and candidates have to attempt at   
    least one question compulsorily from each section. Each section carry 15% of the total marks
3. Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
   and will carry 40% of the total marks. 

Instructions for candidates
1. Candidates are required to attempt one question each from sections A, B, C and D of the question
    paper and the entire section E.
2. Use of non-programmable scientific calculator is allowed.


SECTION A
 Work Study 
System and review of the growth and Development of industrial engineering and scientific 
management. Work Study- use and application - techniques - human factors in the application of work 
study . Method study - objectives - basic procedure - various charting techniques - use of photographic 
techniques - simo charts - principles of motion economy

SECTION B
 Work Measurement 
Work Measurement - purpose - basic procedure - various techniques of work Measurement - Time 
study - work sampling - pre determined motion Time standards - analytical estimation.

SECTION C
 Production Planning and Control 
Production Planning and Control - functions - forecasting techniques - machine loading and 
scheduling - product sequencing . Inventory control - different costs associated - determining 
economic order quantity - quantity discounts - reorder level - two line and reorder cycle cycle systems 
- ABC analysis.

SECTION D
 Plant Layout and Material handling 
Plant layout - principles - product and process layout - plant locations - factors to be considered . 
Material handling system - factors - Methods of material handling.

Programming Techniques
Application of linear programming techniques - simplex Method , distribution model - assignment 
model.

Textbooks :
1. Khanna, O.P., " Industrial Engineering and Management " , Khanna Publishers , 1996 .
2. Daleela and Mansuor Ali , " Industrial Engineering and Management systems " , 4th edition , 
Standard Publishers , 1980 .
3. Ralph,M.,BarBTMEs , " Motions and Time Standards " , 7th edition , John Wiley, 1980 .


Reference :
1. ILO , "Introduction to Work Study " , International Labor Office , Geneva ,1974. 
2. Sheele , etal , " Principles and Design of Production Planning and Control Systems " , Prentice Hall 
, New Jersey ,1960 .
3. Gupta and Hue , " Operations Research " , S.Chand and Publishers , 1997.






































BTME620			COMPUTER AIDED DESIGN & DRAFTING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B)	Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
 CAD Hardware 
Product Cycle ; CAD Tools ; CAD Systems - System Evaluation . CAD specific I/O devices .

SECTION B
 CAD Software
 Graphic Standards , Data structure for CAD applications , Date exchange formats .

SECTION C
Geometric Modeling 
Representation of curves and their manipulation , representation of surfaces and their manipulations .

SECTION D
Solid Modeling 
Fundamentals , B-rep , constructive solid geometry , feature based modeling , manipulations of solid 
models, applications.

Transformation and Visual Realism 
Modeling transformations , viewing transformations , visual realism - hidden line and surface removal, 
shading and coloring , Animation .

Reference :
1. Ibrahim Zeid , "CAD/CAM Theory and Practice " , Tata McGraw Hill , 1998.
2. D.F.Rogers and J.A.Adams , " Mathematical Elements for Computer Graphics " , 2nd edition 
McGraw Hill Publications , 1990





BTME620P			COMPUTER AIDED DESIGN & DRAFTING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME-620.









































BTME 630			METROLOGY & QUALITY CONTROL

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt 
at least one question compulsorily from each section. Each section carry 15% of the total 
marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire 
syllabus and will carry 40% of the total marks. 

B)	Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
 Linear and Angular Measurement 
Application of sine bar , dial indicator and slip gauges , interferometers , autocollimators , angle 
dekkors and CMM . Comparators : Mechanics , optical , electronic , pneumatic comparators .

SECTION B
 Limit Gauges and Machine Tool Metrology 
Gage design on limits and fits , Taylor's principle - GO and NO gages : plain type and ring type - 
example problems . Testing of machine tools : CNC Machining Center .

SECTION C
 Surface Finish and Miscellaneous Measurements 
Surface Finish : Surface topography - definitions - Measurement of surface texture : Methods - 
comparison , profilometers, double microscope and cast replica . Miscellaneous Measurement : To 
check/measure angle of a tapered recess/hole , internal/external dovetail angle and width of a V-
Groove , radius of an arc , diameter a recess hole , large diameter .

 Metrology of Screw Thread and Gear
Internal/external screw thread : Measurement of various elements of thread - Best size wire , two and 
three wire Method.
Gear : Measurement of various elements : constant chord Method , base tangent Method , plug Method 
, profile , gear pitch , run-out , gear tester .

SECTION D
 Statistical Quality Control
Concepts -control charts for variable fraction rejected , and non conformities - applications. 
Acceptance sampling -lot by lot system , AOQL system , OC Curves for single and double sampling 
plans.


Textbooks:
1. Jain , R.K., " Engineering Metrology " , Khanna Publishers ,1983 .
2. Gupta, R.C., "Statistical Quality Control " , Khanna Publishers , 1994 .
References :
1. Doebelin , E.O., " Measurement System - Application and Design " , 1st edition , McGraw Hill 1990.
2. Grant, E.L., " Statistical Quality Control " , McGraw Hill , 1984.












































BTME630P		METROLOGY & QUALITY CONTROL 

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME- 630.









































BTME640			REFREGERATION & AIRCONDITIONING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B)	Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.



SECTION A
 Basics of Refrigeration
Refrigeration and Air-Conditioning - definition , necessity . C.O.P. , Ton of Refrigeration , 
Different types of refrigeration systems.Gas cycle refrigeration , its application to aircraft refrigeration 
- simple problems - working principles of vapour absorption system , electrolux system , steam jet and 
thermoelectric system refrigeration systems.
SECTION B
  VC-Cycle Analysis 
 Analysis of vapour compression Refrigeration system - use of P-H chart . Effect of subcooling and 
superheating the refrigerant . Multipressure systems , cascade systems . Performance of system under 
varying operating conditions. Refrigerants - properties , selection.
SECTION C
 VC - System 
 Different components of VC systems - compressors , condensers and cooling towers . expansion 
devices, evaporators and control devices. Charging refrigerant  units. Liquefaction of gases - 
Introduction to cyrogenics .
SECTION D
 Basics of Air Conditioning
 Fundamental properties of psychrometry , use of psychrometric chart , psychrometric processess , AC 
system design , Grand and sensible heat factors , bypass factors , requirement of comfort air 
conditionming , comfort chart , factors governing effective temperature . Cooling load calculations . 
Simple problems.
 Applications
  Different types of AC systems - window , package and central Ac , chilled water system , air washers     
AHU , Ducts. Modern techniques in food preservation , IQF techniques , Cold storage s, Thermal 
Insulation of AC system.
        Refrigeration in the food trades - meat , fish , dairy , brewing , soft drinks industries , fruit , 
vegetables and other foods. Food freezing , Freeze drying .
Textbook :
        1. Manohar Prasad , " Refrigeration and Air Conditioning  " , New Age International , 1996. 
        2.  Arora , C.P., " Refrigeration and Air Conditioning " , Tata McGraw Hill ,1995 
Reference : 
        1. Trott, A.R., "Refrigeration and Air Conditioning " , 2nd edition , Butterworths Publishers , 
1989. 
        2. Dossat, R.J., " Principles of Air Conditioning " , McGraw Hill ,1982 . 
        3. Stoecker and Jones  , " Refrigeration   and Air Conditioning " , McGraw Hill , 1982 . 





























BTME640 P			REFREGERATION & AIRCONDITIONING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME- 640.






































SEVENTH SEMESTER

BTME 710			PRODUCTION TECHNOLOGY II

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks.      

				   B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Single Point Cutting Tool Machine Tools
Lathe , Capstan and Turret Lathe : Operations and examples of work done . Drilling , Boring 
Machines :Operations and examples of work done. Shaping , Planning Machine : Operations and 
examples of work done . 
SECTION B
 Multi Point Cutting Tool Machine Tools
Milling Machine : Operations and examples of work done . Gear Cutting Machine :Operations and 
examples of work done. Broaching Machine : Operations and examples of work done .Grinding 
Machine : Operations and examples of work done . 
SECTION C
 NC Machine Tools 
Basic concepts of NC systems and features of NC machine tools.Fundamentals of Numerical Control ; 
Advantages of NC systems; classification of NC systems; punched tape and other media . CNC 
machine tools - machining center- turning center-CNC center.
SECTION D
 Manual Part Programming
 NC part programming : manual part programming - Tape format - preparatory functions - dimensions 
words , interpolation , feed word , speed word , tool word , miscellaneous functions. Datum in NC 
machine tools. Offset - radius compensation. Examples of manual part programming - Sinumeric and 
Fanuc controls.
Computer Part Programming 
      NC part programming: computer aided part programming ; Post processors. APT programming - 
general description , geometric statements, motion statements, additional APT statements , Examples 
of APT programming. Introduction to other programming systems.
Textbook :
      1. Khanna,O.P., and Lal,M., " A Text Book of Production Technology" , Vol II , Dhanpat Rai & 
Sons , 1992.
      2. Yoram Koren, " Computer Control of Manufactuting Systems " , McGraw Hill , 1986.
Reference :
      1. HMT , "Production Technology" , Tata McGraw Hill , 1985.



































BTME720			DESIGN OF TRANSMISSION ELEMENTS 

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Spur and Helical Gears  
 Introduction to transmission elements - Positive drives and friction drives ; Gear drives - Standard 
modules and various proportions - design of spur and helical gears based on contact stress and beam 
sterngth - based on Lewis and Buckingham equations .
SECTION B
Bevel and Worm Gears  
Bevel gears - Nomenclature - design based on contact stress and beam strength  - based on Lewis and 
Buckingham equations. Worm and worm wheel - Nomenclature - design procedure - heat balance .
SECTION C
 Belt Rope and Chain Drives    
 Importance of friction drives - Power and Motion transmission over long distance. Belt drives - 
design of belt drives - calculation of the length of the belt - Number of plies and width of the belt ; vee 
belts - Cross Section - section procedure of vee belts - Pulley details for both flat and vee belts .
Rope drives - design and application of rope drives - chain drives - selection of chain and sprockets for 
various application - selection procedure .
SECTION D
  Brake Clutches 
  Clutches - applications - types of clutches - design of single plate , multiplate and cone clutches.
        Brakes  - application - classification of brakes . Design of drum brakes , internal shot brakes and 
band brakes .
 Multispeed Gear Box and Speed Reducers 
        Gear force analysis for bearing reactions . Multispeed gear box - range of speed - step ratio - ray 
diagram - gear box layout - Number of teeth on each gear.
        Speed reducers - design of speed reducers using spur and helical gears - various clearances and 
dimensions of speed reducer gear box.
Textbooks :
        1. Prabhu , T.J., " Design of Transmission Elements " , Madras Book House , Chennai-17.
Reference :
        1. Shigley, J.E., and Mischke , "Mechanical Engineering Design " , McGraw Hill,1994 .




































BTME730				AUTOMOBILE ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Power Unit 
General classification of vehicles - Chassic layout - Construction - types - engines - Cylinder Block - 
Cylinder head - Piston slap - types of pistons - Crank case - Valves - materials and construction - Inlet 
and exhaust manifolds - Silencers - Multi cylinder engines - Cooling and lubrications system - Filters - 
Water pumps - Radiators - thermostats - antifreezing compounds.

SECTION B
Steering , Wheels and Suspension Systems 
Steering system - principle of steering - center point steering - Steering linkages - Steering gear box . 
Types - Steering geoBTMEtry and wheel alignBTMEnt - Power steering - Wheel and tyres - Types 
and places of use - Tyre construction , specification - Tyre wear and causes - Wheel Balancing . 
Suspension system - need , types - independent suspension - Coil and leaf springs - torsion bars - 
Shock absorbers.

SECTION C
 Transmission system 
Clutches - need , types - single and multiple clutches - diaphragm clutch - centrifugal clutch - Over 
running clutch - fluid coupling . Necessity of gear box - types - sliding BTMEsh - constant BTMEsh 
and syncroBTMEsh gear boxes - epicyclic and hydromatic transmission - torque converters.

SECTION D
 Axles, Differentials and Brakes 
Universal Joints - Constant velocity joints - Propeller shafts - hotch kiss drive - torque tube drive - 
Front and rear axles - types - Differential - Four wheel drive . Brakes - need types - Mechanics , 
hydraulic , pneumatic - brakes - discs and drum brakes - brake adjustBTMEnts and defects -power 
brakes.

 Electrical Systems and Maintenance 
Electrical system - construction , operation and maintenance of lead acid batteries - Battery charging 
system - Principle and operation of cutouts and regulators - Starter motors - Bendix drive - Solenoid 
drive - Lighting and electrical accessories - automobile air conditioning - Panel board instruBTMEnts.
Automobile maintenance - trouble shooting and service procedure - overhauling and engine tune up - 
Tools and equipBTMEnt - organization and management of service station - Testing EquipBTMEnts.

Textbook :
1. Joseph Heitner , " Automotive Mechanics ", 2nd edition ,East-West Press Limited.

Reference :
1. Newton , K., and Steeds. W., " Motor Vehicle " , Butterworths , IE , 1989.
2. Kirpalsing , " Automobile Engineering " , Vol 1&2 , Standard Publishers , Delhi.









































BTME730P				AUTOMOBILE ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME- 730.









































BTME740			POWER PLANT ENGINEERING

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.


SECTION A
 Basics of Steam Power Plant 
Various components of steam power plant - layout - types of firing : stokers, pulverized coal burners 
and fluidized bed combustion.
Coal handling system - Trippers , Plough feeders , crushers , gravimetric feeders pulverizers. Ash 
handling - hydraulic & Pneumatic . Forced draft and Induced Draft fans Primary Air Fans.

SECTION B
 Components of a Steam Power Plant 
High pressure and superficial Boilers. feed pump - Economizer. drum , waterwall , superheater, 
desuperheater, Regenerator, Condensers , deaerators, cooling towers.

SECTION C
 Nuclear and Gas Turbine Power Plant 
Basic nuclear physics and nuclear reaction related to nuclear reactors , nuclear materials , radiation 
shielding , waste disposal. Gas turbine power plant - application , components and layouts - open and 
closed cycles plants - combined gas turbine and steam power plants.

SECTION D
 Hydro and Diesel Power Plant 
Hydro electric power plants - layout , selection of water turbine, various hydro electric power plants 
and their applications. Diesel engine power plant - component and layout .

Power Plant Economics and Environmental Hazards 
Load curve - Definition - Fixed and operating costs - economics of different types of power plants- 
Environmental hazards of various power plants . CO , SOX , NOX , particulate ,trace Metals.

Textbooks : 
1. Vopat, and Stortzki , " Power Station Engineering and Economy " , 2nd edition , Tata McGraw Hill 
, 1960 .
2. Archie W.Culp Jr. " Principles of Energy Conversion" , McGraw Hill , 1985.
Reference : 
1. Domkundwar , " Power Plant Engineering " , Dhanpat Rai & Sons , 1988.
2. Wakil, M.M.E.I. "Power Plant Technology " , McGraw Hill , 1985 .















































BTME740P			POWER PLANT ENGINEERING LAB

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME- 740.






































EIGHTH SEMESTER

BTME 810		NOISE & AIR POLLUTION CONTROL & ANALYSIS

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
Basic acoustics. Legal aspects. Physiology of the ear. Signal analysis. Instruments and techniques. 

SECTION B
Noise reduction techniques, absorption, damping and barrier. Wave transmission and impedance. 
Handling industrial plant noise problems. Designing for minimum noise in engineering systems.

SECTION C
Nature and sources of air pollution, chemical and biological aspects, effects on health and 
environment. 

SECTION D
Physical aspects of the atmosphere, thermodynamics, vertical variation of wind and temperature, 
stability, convection, atmospheric turbulence, diffusion equations, plumes, thermals, jets in stratified 
flow, radioactive plumes, micrometeorological instrumentation, air pollution control techniques and 
equipment monitoring instrumentation.













BTME820			OIL HYDRAULICS AND PNEUMATICS

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
 Fluid Power Systems and Components 
Introduction to fluid power  - Advantages - review of related mathematics and principles of Physics - 
Relationship between force and pressure - important concepts and principles affecting flow in 
Hydraulic systems - Fluids and seals for hydraulic power - distribution of Hydraulic power - operating 
pressure and factor of safety - pressure drop - pipes - schedule - Tubes - connectors for tubes and 
pipes.
SECTION B
 Conditioning Power Fluids 
Recommended procedure for design - Strainers and filters - source of hydraulic power. Input power -
pump classification - pumping theory - pump design types - hydraulic design pumps - Gear , vane , 
axial piston type pumps . controls for variable displacement pumps. Fixed delivery pump selection 
factors . Hydraulic Actuators : Cylinders - cushioning - rotary actuators - Fluid motors.
SECTION C
 Control of Hydraulic Power 
 Valves for pressure controls - Directional control and flow control . Hydraulic circuits. Linear circuits 
- Regenerative circuits - Intensifier circuits - Metering in-out circuits .
SECTION D
 Hydraulic Circuits 
Components selection and design , use of accumulators . Circuits with Electrical control. Use of 
Pressure switches and limit switches . Hydrostatic transmission circuits - Introduction to cartridge 
valves and logic circuits. Fluid power maintenance  and safety . Analysis and trouble shooting of 
hydraulic circuits.
Pneumatic Power and Control 
      Basic principles of Pneumatics - types of compressors - piping the compressed air systems - 
pressure drop calculations - air driers - controlling pneumatic process - Filter , Lubricator - directional 
control valves - use of pneumatic power - introduction to pneumatic logic control.
Textbook :
      1. Anthony Esposito , "Fluid Power with Applications" , 4th editions , Prentice- Hall , 1997.
Reference :
      1. Sullivan, J., " Fluid Power : Theory and Applications " , 4th edition , Prentice Hall , 1998.
      2. Dudley A.Pease , and John J.Pippenger , " Basic Fluid Power " , 2nd edition , Prentice Hall , 
1998.
      3. Sperry Vickers , ' Industrial Hydraulics - Handbook " , Sperry Rand Corporation , 1994.


































 E1(1) BTME830			HEAT & MASS TRANSFER

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	

A) Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

B) Instructions for candidates
1.	Candidates are required to attempt one question each from sections A, B, C and D of the question 
paper and the entire section E.
2.	Use of non-programmable scientific calculator is allowed.

SECTION A
 Conduction 
Thermodynamics and Heat Transfer - Comparison . Modes of Heat Transfer - Fourier's law of heat 
conduction , Newton's law of cooling , Stefan-Boltzmann law of thermal radiation . general 3-D 
conduction equation. One dimensional steady state conduction through plane wall , composite wall , 
cylinder&sphere. Thermal resistance and electrical analogy. Critical thickness of insulation . Overall 
heat transfer coefficient . Heat generation in a plane wall cylinder and sphere. Extended surfaces - 
types, efficiencies . Conduction Shape Factor , graphic method . Unsteady state heat conduction - Biot 
number, Fourier Number, Lumped heat capacity system.

SECTION B
 Radiation 
Radiation Physics . Black body radiation . Gray bodies and real surfaces. Radiation shape factor - 
concept ,relation between shape factors . Radiation exchange between gray surfaces - thermal 
resistance and electrical analogy. Radiation shields . Radiation Properties of gases and vapors. 
Radiation exchange between gas volumes and enclosure . Solar radiation and greenhouse effect. 
Radiation properties of the environment.

SECTION C
 Forced Convection
Flow over flat plate . Boundary layer theory . Momentum integral equation . Laminar and Turbulent 
hydrodynamic boundary layer thickness .Thermal boundary layer . Energy equation . Energy integral 
equation . Flow over cylinders spheres and bank of tubes . Flow through ducts - Laminar and 
Turbulent.

SECTION D
Free Convection and Heat Exchangers :Free convection correlation for vertical , horizontal and 
inclined surfaces . Heat exchangers - types, fouling factor , log mean temperature difference and 
number of transfer units method .

Heat Transfer with Phase Change and Mass Transfer : Condensation heat transfer - film wise , 
drop wise condensation , film condensation outside vertical and horizontal tubes . boiling heat transfer 
- regimes of boiling , Rosenhow's correlation for nucleate boiling , Bromley's correlation for film 
boiling . Peat heat flux.
Mass transfer - Fick's law , mass transfer by diffusion . Similarities between heat , mass and 
momentum transfer.
Textbook :
1. Holman, J.P., " Heat Transfer" , McGraw Hill , New York 1997.

Reference :
1.Balachandra V.,Karlekar , and Desmond , M., " Heat Transfer " , Prentice Hall of India Private 
Limited, New Delhi , 1989.
2.Incropera, F.P., and Dewitt,D.P., "Introduction to Heat Transfer" , Wisley , New York 1990.
3.Frank Kreith, and Bhon, M.S., " Principles of Heat Transfer " , Harper and Row Publishers , 1986






































BTME830P				HEAT & MASS TRANSFER LAB

Maximum Time 	   : 3 Hrs.	University Examination               : 30Marks
Total Marks	     	   : 50		Continuous Internal Assessment : 20 Marks
Minimum Pass Marks : 40%	


The laboratory course will comprise of exercises on what is learnt in the theory classes of the same 
course i.e. BTME- 830.




































E1(2) BTME830			TURBOMACHINES	

Maximum Time 	   : 3 Hrs.	University Examination               : 60Marks
Total Marks	     	   : 100		Continuous Internal Assessment : 40 Marks
Minimum Pass Marks : 40%	

A)	Instructions for paper-setter
1.	The question paper will consist five sections namely A, B, C, D and E.
2.	Each of the sections A, B, C and D will contain two questions and candidates have to attempt at 
least one question compulsorily from each section. Each section carry 15% of the total marks
3.	Section E will comprise of 10-15 short answers type questions, which will cover the entire syllabus 
and will carry 40% of the total marks. 

SECTION A
Classification of turbomachines, performance parameters and laws of modelling.

SECTION B
 Basic equation of flow in turbomachines, compressible flow.

SECTION C
 Energy transfer in radial and axial turbomachines, performance characteristics, losses and 
efficiencies.

SECTION D
 Blade and cascade design, 3 dimensional effects.

























BTME-840 			   		PROJECT

Maximum Time	:3Hrs		University Examination	     :60 Marks			
Total Marks		:100		Continuous Internal Assesment:40 Marks
Minimum Marks	:40%		 


1.	Students are supposed to spend 45-55 hours on the project. The internal teacher must monitor 
progress of the project. Students can arrange the project at their own level, however, Institute can 
also assist in getting the project and can issue necessary letters etc.
2.	The external examiner will distribute marks allocated for University examination for viva/project 
report and for other activity, which the external examiner thinks to be proper.

      Maximum Marks for the project	            60%
      Max marks for viva			40%

3.   Joint projects will be allowed and joint project reports will also be accepted. The students                
      should highlight their contributions in a joint project report.
4.   The students have to submit two copies of project. The examiners will evaluate these reports   
      on the spot at the time of examination and will conduct the viva.