BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Bansilal Ramnath Agarwal Charitable Trust’s

Vishwakarma Institute of Technology
(An Autonomous Institute affiliated to University of Pune)

Structure and Syllabus of

B.E. (Mechanical Engineering)
Pattern ‘E11’
Effective from Academic Year 2012-13
Prepared by: - Board of Studies in Mechanical Engineering
Approved by: - Academic Board, Vishwakarma Institute of Technology,
Pune

Signed by,

Chairman – BOS

Chairman – Academic Board
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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Content
Sr.
No.

Subject
Code

1

Title

2

Program Educational Objectives of B.E. ( Mechanical
Engineering)
Course Structure - Module III

3

Course Syllabi for courses - Module III

3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
3.12
3.13

ME21109
ME20103
ME20111
ME21107
HS20108
ME21209
ME20203
ME20305
ME20307
ME27401
ME24301
HS25301

Differential Equations
Kinematics and Mechanisms
Thermal Engineering
Metallurgy and Material Science
Technical Writing (irrespective of module – in Semester I)
Differential Equations
Kinematics and Mechanisms
Thermal Engineering
Metallurgy and Material Science
Mini Project
Workshop Practice
General Proficiency

3.14
3.15
4

ME26101 Institute Elective (Irrespective of Module – in Semester I)
HS20307 General Seminar II (Irrespective of Module – in Semester II)
ACADEMIC INFORMATION
o $
Please Refer Academic Information
o !
Please Refer F.E. Structure & Syllabi Booklet
o @
Please Refer GP-PD-OE Structure & Syllabi Booklet

ME20401 Comprehensive Viva Voce

Page
No.
3
5
6
8
10
12
14
16
17
19
21
23
24
25
26
27
29

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Program Educational Objectives (PEO)
B.E. (Mechanical Engineering)
PEO No.

Description of the Objective

1

Graduates will demonstrate basic knowledge in mathematics, science and
engineering.

2

Graduates will demonstrate the ability to design and conduct experiments,
interpret and analyze data, and report results.

3

Graduates will demonstrate the ability to design a mechanical system or a thermal
system or a process that meets desired specifications and requirements.

4

Graduates will demonstrate the ability to function on engineering and science
laboratory teams, as well as on multidisciplinary design teams.

5

Graduates will demonstrate the ability to identify, formulate and solve mechanical
engineering problems.

6

Graduates will demonstrate an understanding of their professional and ethical
responsibilities.

7

Graduates will be able to communicate effectively in both verbal and written
forms.

8

Graduates will have the confidence to apply engineering solutions in global and
societal contexts.

9

Graduates should be capable of self-education and clearly understand the value of
lifelong learning.

10

Graduates will be broadly educated and will have an understanding of the impact
of Engineering on society and demonstrate awareness of contemporary issues.

11

Graduates will be familiar with modern engineering software tools and equipment
to analyze mechanical engineering problems.

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

MODULE III

Department of Mechanical Engineering

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

STRUCTURE MODULE III

Subject Subject
No.
Code
S1
S2
S3

Subject Name

Teaching Scheme
(Hrs/week)
Credits
Tutori
Lect.
Practical
al
3
0
0
3
3
0
0
3
3
0
0
3

ME21109 Differential Equations
ME20103 Kinematics and Mechanisms
ME 20111 Thermal Engineering
Metallurgy and Material
S4 ME21107
3
Science
Technical Writing (Irrespective
S9 HS20108
2
of Module – in Semester I)
T1 ME21209 Differential Equations
0
T2 ME20203 Kinematics and Mechanisms
0
P1 ME20311 Thermal Engineering
0
Metallurgy and Material
P2 ME21307
0
Science
MP3 ME27401 Mini project
0
SD3 ME24301 Workshop Practice
0
HS25301
GP3
General Proficiency
0
HS25303
CVV1 ME20401 Comprehensive Viva Voce
Institute Elective (Irrespective
OE3
of Module – in Semester I)
2
ME26101
Electronics Engineering
General Seminar II
SM2 HS20307 (Irrespective of Module – in
0
Semester II)
Total
16/12

0

0

3

0

0

1

1
1
0

0
0
2

1
1
1

0

2

1

0
0

2
2

2
1

0

2

1

-

-

1

0

0

2

0

2

1

2

10/12

24/22

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME21109 :: Differential Equations
Credits: 03

Teaching Scheme: - Theory 3 Hrs/Week, Tutorial 1 Hr/Week

Prerequisites: Nil
OBJECTIVE:
1. Modeling or translating the physical problem into mathematical form.
2. Solving the models using appropriate mathematical methods and interpretation of
results
OUT COME: By the end of this module students are expected to demonstrate the
Knowledge of
• Linear differential equations for modeling of linear systems and its solutions by
classical methods, Matrix method and Transform techniques.
• Fourier series, Complex Fourier series, and frequency spectrum. Fourier
Transform and its properties. Solution of Partial differential equation by Fourier
Transform.
• Laplace transform. Inverse Laplace transform. Application to solve engineering
problem.
• Method of separation of variables for Solving Partial differential equations.
• Differentiation and integration of vector functions, Gradient, divergence and curl
and its physical and geometrical interpretations. Gauss Divergence theorem and
Stokes Theorem.
Unit I
Linear Differential equations of higher order

(8 Hrs)

Part A: Homogeneous & Non Homogeneous Linear Differential Equations with Constant
Coefficients, Particular integral by general method, undetermined coefficients and method
of Variation of Parameter, Euler – Cauchy Equation, Solution of system of ordinary
differential equations by Matrix method . Conversion of an nth-order ordinary differential
equation to a system.
Part B: Coupled Mass spring system by Matrix method.
Unit II
Laplace Transform

(8 Hrs)

Part A: Laplace Transform and its properties. Laplace Transform of Unit step function,
Delta function, Periodic functions and special functions, Laplace transform of
convolution. Inverse Laplace Transform and its properties. Application of Laplace
Transform to Engineering Problems.
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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
Part B: Coupled Mass spring system by Laplace Transform
Unit III
Fourier Analysis

(8 Hrs)

Part A: Fourier series of a periodic function, Properties of Fourier series, Parsevals
theorem for Fourier series, half range Fourier series, complex exponential form of
Fourier series, Fourier integrals, Fourier transforms, Fourier cosine and sine transforms,
Fourier transform of unit step, Dirac delta and Signum function. Properties of Fourier
transform. Parsevals theorem for Fourier transforms.
Part B: Application of Fourier series to physical systems that are governed by linear
Differential equations and subjected to periodic forcing functions.
Unit IV
(8 Hrs)
Partial Differential equations
Part A: Basic concepts, Modeling: Vibrating string, wave equation. Solution by
separating variables. Use of Fouier series. D’Alembert’s solution of wave equation. Heat
equation solution by Fourier series and solution by Fourier integral and transform.
Modeling: Membrane, Two-dimensional wave equation solution by Fourier series.
Part B: Solution of Partial differential equations by Laplace transform.
Unit V
Vector Calculus

(8 Hrs)

Part A: Vector and scalar functions & fields, Derivative, Gradient of a scalar field,
Directional derivative, Divergence and curl of a vector field, vector identities, Irrotational
and solenoidal vectors and potential functions, line and surface integrals, Green’s,
Stoke’s and Gauss theorems.
Part B: Applications of vector calculus to fluid dynamics.
Text Books
1. “Advanced Engineering Mathematics” 9th Edition, 2012, by Erwin Kreyszig,
Wiley-India.
2. “Higher Engineering Mathematics”, B.V. Ramana, Tata Mcgraw-Hill Publishing
Company Limited, New Delhi .
Reference Books
1. “Advanced Engineering Mathematics” by Michael D. Greenberg, Pearson Education
Asia.
2. “Advanced Calculus” by Murray R. Spiegel [Schaum’s out line series].
3. “ Signals and systems”, Alan V. Oppenheim and Alan S. Wollsky with S.
Hamid Nawab, Second Edition, 1997, Prentice Hall of India private limited,
New Delhi.
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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME20103 :: KINEMATICS AND MECHANISMS
Credits: 03

Teaching Scheme: - Theory 3 Hrs/Week

Prerequisites: Nil
Objectives:
• Study of fundamentals of kinematics and dynamics of machinery and mechanisms.
• To make students understand analytical and graphical methods of analysis of
mechanisms.
• To introduce the students to static and dynamic analysis of I. C. Engines.
• To introduce the students to friction in mechanisms.
Course outcomes
• Students will know the basic terminology used in kinematics
• They will be able to find velocity and acceleration of mechanisms using analytical
and graphical methods
• They will be able to find the forces on different points on a element, which will be
prerequisite in Design Engineering.

Unit I
Terminology, Definitions and Assumptions

(8 Hrs)

A. Links, kinematic pairs, kinematic constraints, kinematic chains, mechanisms, machine,
degree of freedom of pairs and mechanisms, four link chains and their inversions, fourbar, single-slider and double-slider chains. Numericals and Applications.
Mechanisms with lower pairs: Universal (Hooke’s) Joint, Steering mechanisms –
Principle of correct steering, Ackerman steering mechanism, Davis steering mechanism.
B. Grubler and Kutzbach criteria, Grashof’s Law. Ratchets and Escapement mechanisms,
Swinging / Rocking mechanisms, Indexing mechanisms, Approximate and Exact Straight
line mechanisms.
Unit II
Graphical Velocity Analysis of Mechanisms

(10 Hrs)

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
A. Instantaneous centre of velocity, Aronhold-Kennedy theorem of three centers, velocity
analysis using method of instantaneous centers, angular velocity ratio theorem.
Definition of velocity, angular velocity of a rigid body, relative velocity, velocity analysis
of mechanisms by graphical (Velocity Polygon) method. Friction in turning pairs,
Friction circle, Friction axis, Friction in mechanisms.
B. Indices of merit (mechanical advantage), centrodes. Rubbing velocity at turning pairs.
Unit III
Graphical Acceleration Analysis of Mechanisms

(8 Hrs)

A. Definition of acceleration, angular acceleration of a link, relative acceleration,
acceleration polygon, Coriolis component of acceleration, acceleration analysis of
mechanisms by graphical ( Acceleration Polygon) method.
B. Instantaneous center of acceleration, Klein’s construction.
Unit IV
Analytical Velocity and Acceleration Analysis of Mechanisms

(7Hrs)

A. Vector loop closure equations, Velocity and acceleration analysis by vector method,
Chace solutions, method of kinematic coefficients.
Velocity and acceleration analysis of mechanisms by complex algebra method. Velocity
and acceleration analysis of slider-crank mechanism by analytical method.
B. Graphical Differentiation and Integration
Unit V
Inertia Force Analysis

(7Hrs)

A. Radius of gyration of rigid bodies, Theory of Compound Pendulum, Two point mass
statically equivalent system, two point mass dynamically equivalent system, and
correction couple.
Static and Dynamic (Inertia) force analysis of I. C. Engine mechanism, Determination of
torque at the crank shaft to overcome the connecting rod inertia (Graphical and
Analytical approach).
B. Bi-filler and Tri-filler suspension. Inertia of geared systems.
Text Books
1. “Theory of Machines and Mechanisms (Third edition)”, John Uicker Jr., Gordon R.
Pennock and J. E. Shigley, Oxford University Press.
2. “Theory of Machines”, S. S. Rattan, Tata McGraw-Hill Publication
3. “Theory of Machines and Mechanisms”, Amitabh Ghosh and A. K. Mallik, Affiliated
East-West Press Pvt Ltd.

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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
Reference Books
1. “Theory of Machines”, Thomas Bevan, CBS Publications.
2. “Machines and Mechanisms Applied Kinematic Analysis”, David H. Myszka,
Pearson Education, Asia.
3. “Design of Machinery”, R. L. Norton, McGraw-Hill.
Additional Reading
1. “Theory of Machines”, R.S. Khurmi, Khanna Publications.

ME20111 : THERMAL ENGINEERING
Credits: 03

Teaching Scheme: - Theory 3 Hrs/Week

Prerequisites: Nil
Objectives:
• To expose the students to fundamentals of Thermodynamics based on which
Thermodynamic systems work/operate.
•

Application of the said fundamentals in some of the Thermodynamic systems from the
perspective of theoretical development supported by hands on experience.

Outcomes:
• Students will understand first and second law of thermodynamics and their application to
real life problems.
• Students will be able to find performance of the boiler, draw the heat balance.
• Students will understand working of various types of compressors and will be in a
position to find related performance parameters like FAD various efficiencies of the
compressor.

Unit I
First Law of Thermodynamics

(8 Hrs)

A:Thermodynamic system, surroundings and boundary, thermodynamic properties,
thermodynamic processes, Temperature and temperature scale, Macro and microscopic
approach, Reversible and Irreversible Processes, Principle of conservation of Mass and
Energy, Continuity equation, First law of thermodynamics, Joules experiment,
Application of first law to flow and non-flow processes and cycles. Concept of internal
energy, Flow energy and enthalpy, Application of steady flow energy equation to
nozzles, turbines, pumps, compressors
B: Temperature scale problems, Application of steady flow energy equation to heat
exchangers
Unit II

(8 Hrs)
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Structure and Syllabus of B.E. (Mech), Pattern ‘E11’, Issue 1, Rev 1, dated 11/05/2013

BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
Second Law of Thermodynamics
A: Limitations of First Law of Thermodynamics, Clausius statement and Kelvin-Plank
statement of Second Law of Thermodynamics, Equivalence of Kelvin-Plank statement
and Clausius statement, Perpetual Motion Machine II, Carnot theorem, Carnot Cycle for
Heat engine, Refrigerator and Heat Pump, Concept of Entropy, Introduction to
availability
B: Problems based on entropy and availability

Unit III
Ideal Gas Properties and Processes

(8 Hrs)

A: Specific Gas constant and Universal Gas constant, Specific heat, Constant Pressure,
Constant Volume, Isothermal, Adiabatic, Polytropic and Throttling Processes on P-V and
T-S diagrams, heat transfer, work transfer, change in internal energy, enthalpy and
entropy during these processes.
B: Ideal Gas definition, Gas Laws

Unit IV
Properties of Steam and Vapor Processes

(8 Hrs)

A: Formation of steam, Phase changes, Properties of steam, Use of Steam Tables, Nonflow and Steady flow vapour processes, change of properties, work and heat transfer,
study of P-V, T-S
and H-S diagrams for steam, Use of Mollier diagram, Dryness fraction and its
determination, introduction to Vapour Power Cycles, Performance of Boiler (equivalent
evaporation, boiler efficiencies, energy balance, boiler draught)
B: Classification, constructional details of low pressure boilers, mountings and
accessories Study of steam calorimeters.
Unit V
Reciprocating Air Compressor

(8 Hrs)

A: Single stage compressor: Computation of work done, isothermal efficiency,
volumetric efficiency, free air delivery, theoretical and actual indicator diagram.
Multistage compressors: Need of multi- staging, computation of work consumption,
volumetric efficiency, condition for maximum efficiency, inters cooling and after
cooling, theoretical and actual indicator diagram.
B: Use of compressed air, Classification of compressors, Constructional details of single
and multistage compressors

Text Books
1.

“Engineering Thermodynamics”, P. K. Nag, Tata McGraw Hill Publications

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
1. “Engineering Thermodynamics”, Rayner Joel, ELBS Longman
2. “Thermal Engineering” Ballaney P. L., Khanna Publishers
Reference Books
1. “Thermodynamics- An Engineering Approach”, Y Cengel and Boles, Tata McGraw
Hill Publications
2. “Thermal Engineering”, R. K. Rajput, Laxmi Publications.
3. “Thermodynamics and Heat Engines”, Kothandaraman and Domkundwar

ME21107 : METALLURGY AND MATERIAL SCIENCE
Credits: 03

Teaching Scheme: - Theory 3 Hrs/Week

Prerequisites: Nil
Objectives:
• To study Engineering materials, their properties, applications and Testing.
• Mapping with objectives and outcomes as I(a,c,h,i,), II(b,),III (d),IV (b), V(i,j)
Unit I
Introduction to Material Science

( 08 Hrs)

A. Classification of Engineering Materials, Structures property relationship, Crystal
Geometry, Miller Indices, Crystal Defects, Edge dislocations, Deformation of single
crystal , Plastic deformation of Polycrystalline materials, Strain hardening.
B. Stability and metastability, Average Number of atoms per unit cell, Atomic packing
factor, Density calculations, Point defects.

Unit II
Mechanical Properties and Testing

(06 Hrs)

A. Engineering and True stress strain curve, Stress strain curve for different types
of materials, Tensile Test, Torsion Test, Hardness and Hardness measurement,
Toughness, Impact Test, Fatigue and Fatigue Testing, Creep and Creep testing
B. Mechanical properties, Types of fracture, Compression Test, Bend Test,
Durometer
Unit III
Phase Diagrams

( 08 Hrs)

A. Introduction, Phase Rule, Hume Rothery Rule, Plotting of Equilibrium diagrams,
Isomorphous systems, Lever rule, Invariant Reactions, Microstructural changes
during cooling,
B. Silver Platinum, Copper-Zinc Phase Diagrams
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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Unit IV
Steels and Heat Treatments

( 10 Hrs)

A. Iron –Iron carbide Equilibrium Diagram, Critical Temperatures, Equilibrium cooling,
Non equilibrium cooling, Transformation products of austenite, Time-temperaturetransformation diagrams, Critical cooling rate, Continuous cooling transformation
diagrams. Heat treatment of steels, Annealing, Normalizing, Hardening, Retention
of austenite, Tempering, Hardenability testing.
B. Classifications and Specifications of Steel, Quenching media, Effects of retained
austenite’ Elimination of retained austenite, Defects due to heat treatment and
remedial measure, Secondary hardening, Temper embrittlement, Quench cracks

Unit V
Alloy Steels, Cast Iron, and Non-Ferrous Alloys

( 06 Hrs)

A. Alloy Steels - Effects of alloying elements, Stainless Steels, Sensitization of stainless
steel, weld decay of stainless steel. Tool steels and tool materials, Special purpose
steels with applications, Cast irons- Classification, Gray cast iron, White cast iron,
Malleable cast iron Copper alloys - Brasses, Bronzes-: Tin, Aluminium, Copper
nickel alloys, Aluminium and aluminium alloys. Solders.
B. Applications of cast irons for different components of machine tool, automobiles,
pumps etc, Bearing materials and their applications, High Temperature materials such
as Nimonics, Super alloys, Ti-alloys etc.

Text Books
1. “Material science and metallurgy for Engineers”, Kodgire V. D., Everest Publishing
House, Pune.
2. “Engineering Materials”, K. G. Bundinski and M. K. Bundinski, Prentice Hall of
India Pvt. Ltd, New- Delhi.
3. “An introduction to physical metallurgy”, Avner, TMH publication

Reference Books
1. “Metallurgy for Engineers”, Rollason E. C., ELBS Publishing.
2. “Physical Metallurgy for Engineers”, Clark and Varney W. R., East-West Press Pvt.
Ltd., New Delhi.
3. “The science of engineering materials”, Donald R. Askeland and Pradeep Phule,Thomson
series.

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

HS20108 :: TECHNICAL WRITING
Credits: 01

Teaching Scheme: - Theory 2 Hrs/Week

Prerequisites: Nil
Objectives:
• To enhance reading and writing skills.
• To guide the students with apt expressions in English language (both words and
sentence construction) and to develop the students confidence level
• Mapping with PEOs: I, II, III, V : (j, k, n, o, p)
Unit I
[A] Definition, Structure and types of reports.
[B] Home Assignments related to the above topics.

(4 + 2 = 6 Hrs)

Unit II
(5 + 2 = 7 Hrs)
[A] Importance of references, glossary and bibliography. How to write and insert them in
reports.
[B] Home Assignments related to the above topics.
Unit III
(5 + 2 = 7 Hrs)
[A] Use and types of charts and illustrations in report writing
[B] Home Assignments related to the above topics (minimum 25 sentences on each
topic).
Unit IV
[A] Various report writing techniques
[B] Home Assignments related to the above topics.

(5 + 2 = 7 Hrs)

Unit V
[A] A detail study of any report (non technical and technical)

(5 + 2 = 7 Hrs)

[B] Home Assignments related to the above topics.

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
Text Books
1. “Techniques of writing memos , reports and business letters “ Courtland L Bovee
2005 Jaico Publiishing house Mumbai
2. “ Project Report writing “ MK Rampal , SL Gupta 2010 Galgotia Publishing
company Delhi
Reference Books
1. “ The effective presentation “ Asha Kaul 2005 Sage Publications Delhi
2. “ Business communication and report writing “ R.C Sharma and KrishnaMohan
2nd edition , 2000 , Tata McGrawhill publishing company

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME21209: Differential Equations
Teaching Scheme: -Tutorial 1 Hr/Week

Credits: 01

OUT COME: Upon completion of this module students will be able to
• Model the given Mechanical system.
•

Analyze the problem using methods from all the units.

List of Contents
Tutorial No. 1: Solution of Homogeneous Differential equation.
Tutorial No. 2:

Solutions of Non-Homogeneous Differential equation by Variation of
Parameter method and by undetermined coefficients Method.

Tutorial No. 3:

Solution of system of ordinary differential equations by Matrix
method

Tutorial No. 4:

Summary of properties of Laplace Transform and problem solving.

Tutorial No. 5:

Summary of properties of Inverse Laplace Transform and problem
Solving.

Tutorial No. 6:

Problem solving on Application of Laplace transform to linear
Differential Equations.

Tutorial No. 7:

Summary of Fourier series of a periodic function and problem solving.

Tutorial No. 8:

Summary of Fourier Transform and problem solving.

Tutorial No. 9:

Summary of Method of separating variable to solve Wave equation by
Using Fourier series.

Tutorial No.10:

Summary of Method of separating variable to solve Heat equation by
using Fourier series.

Summary of vector differentiation, problems on tangential and normal
component of velocity and acceleration, directional derivative,
vector identities.
Tutorial No.12: Summary of vector integration, problems on work done, Stoke’s and
divergence theorem.
Tutorial No.11:

Text Books
1. “Advanced Engineering Mathematics” 9th Edition, 2012, by Erwin Kreyszig,
Wiley-India.
2. “Higher Engineering Mathematics”, B.V. Ramana, Tata Mcgraw-Hill Publishing
Company Limited, New Delhi .
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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
ME20203 : KINEMATICS AND MECHANISMS
Credits: 01

Teaching Scheme: Tutorial 1 Hr/Week

Prerequisites: Nil
Objectives:
• To make the student understand the fundamentals of kinematics and dynamics of
machines and mechanisms and various methods of mechanism analysis.
• To introduce the student to various mechanisms commonly used in mechanical
systems and their working and analysis.
Course outcomes
• Students will be able to find the CG and radius of gyration of any compound
pendulum
• Students will be able to find displacement, velocity and acceleration of slider
crank mechanism using analytical, graphical and using computer program.
• Students will be able to find forces on mechanism and hence the Inertia forces.
A journal containing the record of the following:
1. An Problem on finding radius of gyration of a connecting rod using theory of
compound pendulum.
2. An Problem on finding radius of gyration of a body by using either the method of Bifiller or Tri-filler suspension.
3. Assignments on :
i. Computer programme for velocity and acceleration analysis of slider-crank mechanism.
ii. Computer programme for displacement, velocity analysis of a single Hooke’s joint.
iii. Problems on Inertia Force Analysis of I. C. Engine mechanism by analytical method.
iv. Problems on Friction

B. Five (Half Imperial Size) drawing sheets containing graphical solutions as
follows :
1. Problems on drawing at least Four (04) typical mechanisms, of which Two (02) must
be Straight-Line mechanisms, in different positions (One Sheet).
2. Problems on velocity analysis by the instantaneous center method (One Sheet).
3. Problems on acceleration analysis (involving Coriolis component of acceleration) by
acceleration polygon method (Two Sheets).
4. Problems on inertia force analysis of an I.C. Engine mechanism by graphical method
(One Sheet)

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Text Books
1. “Theory of Machines and Mechanisms (Third edition)”, John Uicker Jr., Gordon R.
Pennock and J. E. Shigley, Oxford University Press.
2. “Theory of Machines”, S. S. Rattan, Tata McGraw-Hill Publicatio
Reference Books .
1.“Theory of Machines”, Thomas Bevan, CBS Publications.
2. “Machines and Mechanisms Applied Kinematic Analysis”, David H. Myszka,
Pearson Education, Asia.
3. “Design of Machinery”, R. L. Norton, McGraw-Hill.
4. “Theory of Machines and Mechanisms”, Amitabh Ghosh and A. K. Mallik

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BRACT’S

Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

Credits: 01

ME20311: Thermal Engineering (LAB)
Teaching Scheme: - Laboratory 2 Hrs/Week

Prerequisites: Nil
Objectives:
• To expose the students to fundamentals of Thermodynamics based on which
Thermodynamic systems work/operate.
• Application of the said fundamentals in some of the Thermodynamic systems from
the perspective of theoretical development supported by hands on experience.
Outcomes:
• Students will be in a position to perform simple experiments based on fundamental laws in
thermodynamics.
• Students can apply thermodynamic principles to real life problem, perform the experiment
and draw useful conclusions.

List of Practical
1. Determination of calorific value using gas calorimeter
2. Determination of calorific value using Bomb calorimeter
3. Trial on Flue gas analysis using gas analyzer
4. Trial on reciprocating air compressor
5. Determination of dryness fraction of steam using throttling calorimeter or throttling
and separating calorimeter
6. Demonstration and study of boiler mountings and accessories
7. Trial on boiler to determine boiler efficiency, equivalent evaporation
8. Energy balance of any one thermal system
9. Visit to any process/manufacturing industry which uses boiler and report thereof
10. Study of Package boiler
11. Measurement of alternative fuel properties
12. Trial for performance determination of Refrigerator and Heat pump

Text Books
1. “Engineering Thermodynamics”, P. K. Nag, Tata McGraw Hill Publications
2. “Engineering Thermodynamics”, Rayner Joel, ELBS Longman

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
3. “Thermal Engineering” Ballaney P. L., Khanna Publishers
Reference Books
1. “Thermodynamics- An Engineering Approach”, Y Cengel and Boles, Tata McGraw Hill
Publications
2. “Thermal Engineering”, R. K. Rajput, Laxmi Publications.
3. “Thermodynamics and Heat Engines”, Kothandaraman and Domkundwar

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME21307: METALLURGY AND MATERIAL SCIENCE (LAB)
Credits: 01

Teaching Scheme: - Laboratory 2 Hrs/Week

Prerequisites: Nil
Objectives:
•
•

To study Engineering materials, their properties, applications and Testing.
Mapping with objectives and outcomes as I(a,c,h,i,), II(b,),III (d),IV (b), V(i,j)

List of Practical
1. Rockwell Hardness Test
2. Brinell hardness Test
3. Poldi Hrdness measurement
4. Tension test
5. Impact Test
6. NDT (Dye penetrant and Magnetic flux test)
7. Specimen preparation for micro examination.
8. . Study and drawing of microstructures of mild steel, medium carbon steel, eutectoid
steel and hypereutectoid steel.
9.

Study and drawing of microstructures of white, malleable, grey and nodular cast
iron.

10. Study and drawing of microstructures of alpha brass, alpha-beta brass, aluminum
bronze, tin bronze and bearing metal.
11. Study and drawing of microstructures of hardened steel, tempered steel.
12. Hardening of steel- study of effect of carbon on hardness of hardened steel.
13. Study of change in microstructure on annealing and normalizing of tempered steel.
14. Jominy Hardenability test on steel sample.

Text Books
1. “Material science and metallurgy for Engineers”, Kodgire V. D., Everest Publishing
House, Pune.
2. “Engineering Materials”, K. G. Bundinski and M. K. Bundinski, Prentice Hall of

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
India Pvt. Ltd, New- Delhi.
1. “An introduction to physical metallurgy”, Avner, TMH publication

Reference Books
1. “Metallurgy for Engineers”, Rollason E. C., ELBS Publishing.
2. “Physical Metallurgy for Engineers”, Clark and Varney W. R., East-West Press Pvt.
Ltd., New Delhi.
3. “The science of engineering materials”, Donald R. Askeland and Pradeep Phule,
Thomson series.

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME27401 :: Mini Project
Credits: 01

Teaching Scheme: - Practical 2 Hrs/Week

Prerequisite : Nil
Objectives:
• To train the students to apply their engineering knowledge to real life problem
solving.

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME24301 :: WORKSHOP PRACTICE
Credits: 01

Teaching Scheme: - Laboratory 2 Hrs/Week

Prerequisites: : Nil
Objectives:
• To give ‘hands on experience’ of crafts-man ship, machining, and assembly.
• To make students familiar with different Work Trades.
• To develop quality and safety consciousness amongst the students.
• To develop respect towards labour work amongst the student.
List of Practical
Turning
Introduction and demonstrations of different lathe operations such as knurling, grooving,
drilling, boring, reaming, threading, etc., safety precautions.
Practical: One composite job involving the above mentioned operations.
Foundry
Introduction, uses of different foundry tools, sand preparation, mould preparation, metal
pouring, safety precautions, etc.
Practical: One job of casting.
Demonstrations
CNC machining: Demonstration on a CNC lathe machine
Machine Part Assembly: Demonstration and exercise on assembly of machine parts in a
group of students.
Note: - Students should wear safety apron and safety shoes during the practical.
Text Books
1. “Workshop Technology Vol. I, II”, H. S. Bawa, Tata McGraw-Hill, New Delhi
2. “Principles of Foundry Technology”, P. L. Jain, Tata McGraw-Hill New Delhi, 5th
Edition 1995
Reference Books
1. “Production Technology”, HMT, Tata McGraw Hill, New Delhi, 1st Edition 1987
2. “Maintenance Engineering Handbook”, Lindley R. Higgins, McGraw-Hill Inc.1995

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
HS25301 / HS25303 :: General Proficiency
Credits: 01

Teaching Scheme: - Practical 2 Hrs/Week

This course will be conducted by BOS, DESH

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME20401 :: Comprehensive Viva Voce
Credits: 01

Teaching Scheme: - --

The CVV will be conducted on the basis of Lab Courses.

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

ME26103 :: ELECTRONICS ENGINEERING
Credits: 02

Teaching Scheme: - Theory 2 Hrs/Week

Objectives:
• To Study the basic components like diode, BJT, Op-Amps and their applications
• To Study the basic working of active components and their implementation in
electronic circuits.
Course outcomes:
Students will understand following concepts :• Concepts of semiconductor theory.
• Semiconductor devices and their working.
• Semiconductor circuits

Unit I DIODES
(5+1 Hrs)
A. Overview of semiconductor theory: Intrinsic, Extrinsic, doping. Formation of P-N
Junction, working Principle, characteristics, Zener Diode working Principle,
characteristics, Application as a voltage regulator. Rectifier: - Half wave rectifier,
analyze these rectifiers w. r. t. ripple factor, efficiency, clipper and clamper
B. Full wave rectifier, Bridge rectifier and analyze these rectifiers w. r. t ripple
factor, efficiency.
Unit II Bipolar Junction Transistor
(5+1 Hrs)
A. Introduction to BJT, BJT configuration, Characteristics of CE, Overview of
Biasing, Fixed Bias, Collector to Base Bias, Self Bias, Stability factor for self
bias, Applications of transistors:-Transistor as a switch and amplifier.
B. Thermal Runaway, Bias Compensation.
Unit III Operational Amplifiers
(5+1 Hrs)
A. Block Diagram of an OP-Amp, Direct Coupled Differential Amplifier Circuit,
Level Shifter and the Output Stage. Op-Amp Parameters: - offset voltage; input
bias current CMRR, slew rate, PSRR, gain bandwidth product, Definitions,
Significance.
B. Typical parameter values of Op-Amp (IC-μA741).

Unit IV OpAmp Applications
(5+1 Hrs)
A. Adder, Precision Rectifier, Zero Crossing Detector, Schmitt Trigger, Waveform
Generator (triangular), Integrator, Instrumentation Amplifier, Current to Voltage
Circuits.
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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
B. Subtractor, Differentiator, and Voltage to Current Circuits.

Unit V Power Devices and Power Supplies
(5+1 Hrs)
A. Power Devices: - Characteristics and Principle of Operation of SCR, Applications:
Half-wave and Full-wave Controlled rectifiers, Fan Regulator, UJT as relaxation
oscillator. Power supplies: - Introduction to SMPS, types of SMPS: Buck, Boost,
Buck-Boost SMPS, online UPS, off line UPS, Line interactive UPS..
B. SCR Applications: Half-wave wave Controlled rectifiers, Introduction to DIAC
and TRIAC.

Text Books
1. “Integrated Electronics Analog and Digital Circuits and Systems”, J. Millman, C.
Halkias, McGraw Hill, 1988, ISBN 0 – 07 – Y85493 –9, 2nd Edition.
2. “Op-Amp and Linear Integrated Circuits”, R. Gaikwad, Prentice Hall of India, 2002,
ISBN 81 – 203 – 2058 – 1, 4th Edition.
Reference Books
1. Electronic Devices”, Floyd, Pearson Education, 2001, ISBN 81– 7808–355-8, 5th
Edition.
2. “Electronic Devices and Circuit Theory”, R. Boylstad, L. Nashelsky, Pearson
Education, ISBN 81 – 7808 – 590 – 9, 2002, 8th Edition.
Additional Reading
2. “Microwave Devices and Circuits”, Liao, Prentice Hall of India, ISBN 81 – 203 –
0699 – 6, 3rd Edition.
3. “Integrated Circuits and Semiconductor Devices”, G. Deboo, C. Burrous, Theory and
Applications”, McGraw Hill, 1987, ISBN 0 – 07 – 016246 – 8, 2nd Edition.

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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering

HS20307 :: GENERAL SEMINAR II
Credits: 01

Teaching Scheme: - Theory 2 Hrs/Week

Prerequisites: Nil
Objectives:
• To improve pronunciation.
• To improve oral communication.
• To guide the students with apt expressions in English language (both words and
sentence construction).
• To improve reading, writing and listening skills.
• To make the students confident and impressive in front of a group.
• Mapping with PEOs: I, II, III, V : (j, k, n, o, p)
List of Demonstration and Practical Sessions
Sr.
No.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.

Name of the Experiment

Mode of Conduct

Introductory Session

Student activities in groups: Each
st

Presentations by 4 – 5 students (1 Topic)
Presentations by 4 – 5 students (1st Topic)
Presentations by 4 – 5 students (1st Topic)
Presentations by 4 – 5 students (1st Topic)
Presentations by 4 – 5 students (1st Topic)
Presentations by 4 – 5 students (1st Topic)
Presentations by 4 – 5 students (2nd Topic)
Presentations by 4 – 5 students (2nd Topic)
Presentations by 4 – 5 students (2nd Topic)
Presentations by 4 – 5 students (2nd Topic)
Presentations by 4 – 5 students (2nd Topic)

student must present any technical
topic for 15 min followed by an
evaluation by the teacher for 10 min
using evaluation criterion. All other
non participating must attend and can
give suggestions. Each student will
give minimum of two presentations
per semester.

Text Books
1. “Developing communication skills “ – Krishna Mohan and Meera Banerji , 2008
Mcmilan Publishers Delhi
2. “Speaking and writing for effective business communication “Francis Sounderaraj
2009 , Mcmilan Publishers India ltd, delhi
3. “Technical writing and professional communication for non native speakers of
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Vishwakarma Institute of Technology, Pune – 411 037

Department of Mechanical Engineering
English “ – International edition 1991 – Thomas N Huckin & Leslie A Olsen –
2nd edition Tata McGrawhill publishing company.
4. Technical communications - A practical approach 2007 “ – William Sanborn
Pfeiffer & TVS Padmaja – 6th edition Dorling Kindersley ( India ) Pvt ltd , Delhi.
Reference Books
1. “ Cambridge English for engineering “ Mark Ibbotson , Cambridge university
press Delhi
2. “ Professional presentations “ Malcolm Goodale , Cambridge university press
2009
3. “ Technical Report Writing Today “ – 8th edition ( Indian Adaptation 2004
Daniel G Roirdon , Steven E Penley Biztantra publications New Delhi
4. “ English for success “ E Sureshkumar , P Srihari , J Savitri – Cambridge
University Press India Pvt ltd , 2010 , Delhi

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