Mandsaur University, Mandsaur€¦ · · 2017-02-11Mandsaur University, Mandsaur Mhow-Neemuch...
Transcript of Mandsaur University, Mandsaur€¦ · · 2017-02-11Mandsaur University, Mandsaur Mhow-Neemuch...
Mandsaur University, Mandsaur Mhow-Neemuch By-Pass Road, Sh. 31, Mandsaur 458001 (M.P.)
Choice Based Credit System(CBCS) (04YDC) Scheme of Examination w.e.f. (Session 2016-17) Bachelor of Technology( Mechanical Engineering ) SEMESTER: I
L: Lecture T: Tutorial P: Practical
S. No.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total
Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test
(MST) F1
End Sem. Test
(EST) F2
1 Introduction to
Engineering Maths and
Applications- I
(MAT010)
30
60
-------
10
4
0
0
4
100
2 Environmental Sciences
(CVE010)
30
60 ------
10
4
0
0
4
100
3 Transition from Physics
to Electronics (ECE010)
20
40 30
10
2
1
2
4
100
4 Engineering. Mechanics
(CVE040)
20
40 30
10
2
1
2
4
100
5 Foundation of Computer
Science & Programming
(CSE070)
20
40
30
10
2 1 2 4
100
6 Workshop Practice
(MEC010)
-------
-----
50
50 0 2 4 4
100
Total 24 600
Mandsaur University, Mandsaur(M.P.)
Department of Mechanical Engineering
Syllabus of
Introduction to Engineering Maths with Applications- I
B. Tech. (I-Semester) (CBCS Scheme)(04YDC)
w.e.f. (session2016-17)
Course objectives: Revise basic knowledge of Functions and Differentiation with application., Conceptual
knowledge of Indefinite and definite Integrals, Learn about Sequences and Series, To know about the uses of
differential equations in practical problems., Basic knowledge of Algebra of Logic, Boolean algebra, Graph Theory
and Fuzzy Logic.
Unit 1: Differential Calculus Functions: Introduction of Functions, Concept of real function, types of functions, Applications of functions,
Composite functions, its domain and range.
Limit: Introduction, fundamental theorems on limits, Operation on Limits, Functions in the Real World Limits,
Continuity, Infinity.
Differentiation: Introduction, the Beginning of Derivatives, Techniques of Differentiation, Chain Rule,
Derivatives of Transcendental (Trigonometric) Functions, Derivatives in the Real World, Anti differentiation.
Expansion of functions, Maxima and Minima of functions of one variable.
Unit 2 : Integral Calculus Integration: Introduction, fundamental theorem of calculus, Techniques of Integration, Substitution Rule.
Indefinite Integral: Basics of Indefinite Integral and its properties, Substitution, Integration using Trigonometric
Identity & Integration by Parts.
Definite Integrals: Basics of definite Integral and its properties, Definite Integrals as a Limit of a Sum,
Application in Summation of series.
Unit 3 : Sequences and Series
Sequences: Introduction, Some Examples of Sequences, Limit of a Sequence.
Series: Arithmetic progression (AP), Examples of AP and insertion of Arithmetic means, Geometric Progression
(GP), Sum to infinity of a GP, Arithmetic and geometric sequence, sum to n terms of special sequences,
Exponential Series, Logarithmic Series.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total
Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test
(MST) F1
End Sem. Test (EST) F2
Introduction to
Engineering Maths
with Applications-
I(MAT010)
30
60
-------
10
4
0
0
4
100
Unit 4 : Ordinary Differential Equations First- order differential equations (Separable, Exact, Homogeneous, Linear), linear differential equations of higher
order with constant coefficients. Homogeneous differential equations, Simultaneous linear differential equations.
Unit 5 : Algebra of Logic, Boolean Algebra, Graph Theory and Fuzzy Logic
Algebra of Logic: Introduction, Logical connectives, Elementary operations of logic.
Boolean algebra: Introduction, Principle of Duality, Basic Theorems, Boolean Expressions and Functions,
Switching circuit algebra.
Graph Theory: Introduction, Graphs, Sub graphs, Degree and Distance, Basic Theorems, Types of Graphs,
Tree, cycles and Network.
Fuzzy Logic: Introduction, Elementary concept of Fuzzy Logic, Applications of Fuzzy logic.
References
(i) Advance Engg. Mathematics , By Ramana, Tata McGraw hill.
(ii) Advance Engineering Mathematics by D. G. Guffy.
(iii) Engineering Mathematics by S S Sastri. P.H.I.
Course outcomes: (a) Student learns about the use of Functions and Differentiation in daily life.
(b) Optimum solutions and Modelling of the functions.
(c) Student learns about the use of Indefinite and definite Integrals in daily life.
(d) Basic fundamentals of used in various fields of Engineering.
(e) Differential and Integral Calculus is useful in solving the problems of Vibration.
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Mandsaur University, Mandsaur (M.P.) Department of Mechanical Engineering
Syllabus of
Environmental Science
B. Tech . (I-Semester) (CBCS Scheme) (04YDC)
W.e.f. (session2016-17)
Course Objective:-This course introduces students to environment concerns. Students are expected to learn about
environment, factors affecting it, environmental ethics and its protection through lectures, presentations,
documentaries and field visits.
Course Content:-
Unit I
Introduction: Domestic and Global Environmental concerns, principles of sustainable development,
sustainable agriculture, organic farming, bio-fuels, threats for sustainability.
Unit II
Environmental Ethics & Legislations: Enforcement of Environment laws in India – The water act,
The Air (Prevention and Control of Pollution) Act, 1981 , The Environment (Protection) Act, 1986,
Environmental Auditing, value education – HIV/AIDS- Women and child welfare.
Unit III
Environmental Pollution: Air Pollution: sources, types of air pollutants. National Ambient Air Quality
Standards, Controlling Air Pollution. Water Pollution: sources, types of water pollutants, water quality
indicators, water quality standards. Soil Pollution : types of soil pollutants, industrial wastes, pesticides,
fertilizers and manures, salination of soil, Controlling Soil Pollution. Noise: Sources of noise pollution,
measurements of noise and indices, effect of metrological parameters on noise propagation, noise exposure levels
and standards, noise control and betterment measures, impact of noise on human health.
Unit IV
Environmental Challenges: Local Challenges: Solid waste, impact of solid waste on natural resources,
deforestation, Global Challenges, climate change and global warming, Kyoto Protocol Greenhouse Gases,
Ways to reduce Greenhouse gases emissions, Carbon Footprint, ways to reduce carbon footprint, Carbon Trading.
Unit V
Sustainable Habitat, Industrialization and Urbanization: Concept of Green Building, Volatile Organic
Compounds (VOC), GRIHA Rating, LEED Rating, HVAC, Hybrid Car Technology, Industrial ecology, India’s renewable energy capacity . Green Technology & Green Business: Green Business, Green Computing and
E-waste management.
REFERENCES
R. Rajagopalan, Environmental Studies, Oxford IBH Pub, 2011.
Kogent Learning Solutions Inc., Energy, Environment, Ecology and Society, Dreamtech, 2012.
Rag, R. L, Ramesh , Lekshmi Dinachandran, Introduction to Sustainable Engineering
Course Outcome: Students have learned environmental concerns, factors affecting it, environmental ethics
and its protection.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total
Marks Theory Paper
Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST)
F1
End Sem. Test (EST)
F2
Environmental Sciences
(CVE010)
30
60
------
10
4
0
0
4
100
Mandsaur University, Mandsaur (M.P.) Department of Electronics and Communication Engineering
Syllabus of
Transition from Physics to Electronics
B.Tech. (I-Semester) (CBCS Scheme)(04YDC)
W.e.f. (session2016-17)
Course objective: To explore the concepts of electronics engineering and its applications.
S.No. Course Outline Course Contents
1 The Circuit
Abstraction &
Resistive Networks
Lumped Circuit Abstraction, Limitations of the Lumped Circuit Abstraction,
Practical Two-Terminal Elements, Ideal Two-Terminal Elements, Another
Ideal Two-Terminal Element and Kirchhoff’s Laws. Circuit Analysis: Basic Method, Intuitive Method of Circuit Analysis ( Series
and Parallel Simplification)
2 Network Theorems Nodal Analysis and Mesh Analysis, Superposition Theorem, The venin’s Theorem and Norton’s Theorem
3 The Digital
Abstraction Voltage Levels and the Static Discipline, Boolean Logic, Combinational
Gates, Standard Sum-of-Products Representation, Simplifying Logic
Expressions, Number Representation
4 MOSFET Switch &
Amplifier The Switch, Logic Functions Using Switches, MOSFET Switch
Implementation of Logic Gates, Signal Amplification, Review of Dependent
Sources, Actual MOSFET Characteristics, The Switch-Current Source (SCS)
MOSFET Model, The MOSFET Amplifier
5 Energy Storage
Elements
Constitutive Laws, Series and Parallel Connections, Special Examples,
Transformers, Energy, Charge, and Flux Conservation.
LIST OF EXPERIMENTS: 1. To study and test the various electronic component.
2. To study the digital multimeter in detail.
3. To study and plot the V-I characteristics of P-N junction diode.
4. To study and plot the V-I characteristics of Zener diode.
5. To study and plot the forward characteristics of Light Emitting Diode.
6. To study and plot the forward characteristics of Photodiode.
7. To study and verify the working of OR gate.
8. To study and verify the working of AND gate.
9. To study and verify the working of NOT gate.
10. To study and verify the working of NOR & NAND as universal gate.
Text/Reference Books:
1. Boylestad and Nashelsky: Electronic Devices and Circuit Theory, Pearson Education
2. Anant Agrawal and Jeffrey H. Lang: Foundations of AD Circuits
3. Donald A Neamen: Electronic Circuits Analysis and Design, TMH
4. M. Mano : Digital Logic and Computer Design, Pearson Education
5. Salivahanan and Ari Vahagan : Digital Circuits and Design, Vikas Publishing House
Course outcomes: The Understanding of electronics engineering and applications will be enhanced.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test
(MST) F1
End Sem. Test (EST)
F2
Transition from Physics to
Electronics (ECE010)
20
40
30
10
2
1
2
4
100
Mandsaur University, Mandsaur(M.P.) Department of Mechanical Engineering
Syllabus of
Engineering Mechanics
B.Tech.(I-Semester) (CBCS Scheme) (04YDC)
W.e.f. (session2016-17)
Course Objective :- To Analyse the static structures, identify an appropriate structural system, To prepare the
model of the problem using free-body diagrams using equilibrium equations, To understand the meaning
of centres of gravity (mass)/ centroids and moments of Inertia using integration methods and its applications
in solving practical problems, Analyse the Different types of Beams their loading conditions and practical
applications in the engineering .
Unit:I Introduction, Definition of a Force, Force Representation in 2D and Resultants , Classification of Forces,
Law of Triangle, Law of Parallelogram, Law of Polygon. Particle, Rigid Body, Moment, Moment about
a Line/Axis, Moment due to Couple, Varignon's Theorem, Particle Equilibrium, Types of Supports and Reactions,
Free Body Diagram & Equilibrium analysis techniques, Lami’s Theorem , Practice Problems.
Unit: II 2-Force Members and Multi-force Members; Introduction to Structure ,Frames, and Machines, Truss,
Analysis of plane Trusses :Method of joints, Method of Sections , Graphical Method. Zero Force Members,
Practice Problems.
Unit: III Centroid , Centre of Gravity , Moment of Inertia of area and mass, Radius of Gyration
,Polar Moment of Inertia, Section Modulus ,Introduction to product of Inertia and Principle Axes
,Parallel axis Theorem, Perpendicular axis Theorem, MOI of common cross sections
,MOI of composite sections, Practice Problems.
Unit: IV Beam, Types of Beam, Types of Loading and support, Point Load UDL ,UVL,
Introduction to Shear Force and Bending Moment Diagrams for Cantilever & simply supported
beam with concentrated, distributed load and Couple ,Practice Problems.
Unit :V Types of Friction, Law of Friction, The Laws of Dry Friction. Coefficients of Friction, Angles of Friction
, Problems Involving Dry Friction, Wedge friction, Ladder Friction, Belt Friction, Practice Problems.
Name of Subject
With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total
Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST)
F1
End Sem. Test (EST)
F2
Engineering.
Mechanics
(CVE040)
20
40
30
10 2 1 2 4
100
Reference Books:-
1. Prasad I.B., Applied Mechanics, Khanna Publication.
2. Tayal AK , Engineering Mechanics., Umesh Publications
3 .Beer &Johnston, Vectot Mechanics for Engineers; The McGraw Hill Company.
4. Hibbler R.C. – Engineering Mechanics: Statics & Dynamics.
5. Rajput R.K., Engineering Mechanics S. Chand & Co.
6.Dhawan R.K. Applied Mechanics (Engineering Mechanics),S . Chand Publishing
List of Experiments:
1. To verify the law of Triangle of forces and Lami’s theorem.
2. To verify the law of parallelogram of forces.
3. To verify law of polygon of forces
4. To find the support reactions of a given truss and verify analytically.
5. To determine support reaction and shear force at a given section of a simply Supported beam
and verify in analytically using parallel beam apparatus.
6. To determine the moment of inertia of fly wheel by falling weight method.
7. To verify bending moment at a given section of a simply supported beam.
8. To verify forces in different members of a jib crane.
Course & Outcomes: The ability to understand the effect of external forces on the rigid bodies
and various types of structural members will be enhanced . The understanding of technical problems
in designing of different Mechanical engineering systems in Industrial applications will be enhanced.
----------------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur (M.P.) Department of Mechanical Engineering
Syllabus of
Foundation of Computer Science & Programming
B.Tech.(I-Semester) (CBCS Scheme) (04YDC)
W.e.f.(session 2016-17)
Course objective: To provide the basic concepts of computer programming and fundamental knowledge of computers.
Unit 1: Introduction
Computational procedures, Computer architecture, Binary system, Representing integers, Floating point numbers,
Characters, String, Introduction to algorithms, Complexities and Flowchart, High level and low level languages,
Basic idea about C language, Structure of C program.
Unit 2: Data Types, Operators and Function
Identifiers, Data types, Constants, Declarations, Print statements, Operators like assignment and arithmetic,
Type conversions and cast, Branching and loops, Two way selection (if, if-else, nested if-else, cascaded if-else),
switch statement, ternary operators, Go to statement, Loops in C (For, while, do-while), break and
continue statement, Programming examples.
Functions and program structure, Function prototype, Function Definition and Declaration, Benefits of function,
Function calling, Argument passing – call by value, call by reference, recursion. Scope rules,
Local and Global variable, files and I/O operations.
Unit 3: Array, Pointer, Structure and I/O
Array: Introduction to arrays, Initialization of array, Multi dimensional arrays, Passing arrays to functions.
Pointer: Declarations, Passing pointers to a function, Operations on pointers, Pointer arithmetic,
Pointers and arrays, Pointers function.
Structure: Defining and processing, Passing to a function, Unions, typed Array of structure and pointer to structure.
Unit 4: Introduction to OOP, Classes and Objects
Procedure oriented programming Vs Object oriented programming. Introduction to C++, Character set,
Tokens, Program structure, Sequential and conditional execution in C++, Different loops ( for, do-while, while).
OOPs Paradigm: Basic concepts and characteristics of OOPs, Benefits of OOPs, Introduction of Classes,
Inline member functions, Objects, Static data member and Static member functions, Constructors,
Parameterized constructors, Default argument constructors, Copy constructor, Destructor, Friend function.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total
Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST) F1
End Sem. Test (EST)
F2
Foundation of
Computer Science &
Programming
(CSE070)
20
40
30
10 2 1 2 4
100
Unit 5: Inheritance and Polymorphism
Introduction to inheritance, Access control in derived classes, Advance operation with inheritance,
Introduction to polymorphism, Examples of polymorphism, Object oriented static and dynamic polymorphism,
Operator and Method overloading, Inherited methods, Redefined methods, Protected interface, Abstract methods
and classes, Public and protected properties, Private operations, Multiple inheritance.
References:
1. Fundamental s of Computers : E Balagurusamy, TMH
2. Basic Computer Engineering : Silakari & Rajesh K Shukla, Wiley India
3. The C Programming Language: Brian W. Kernighan and Dennis M. Ritchie, 2nd Edition, PHI, 2012.
4. Object Oriented Programming with C++: David Parsons, BPB publication
5. Object Oriented Programming in C++ : Robert Lafore, Galgotia
6. Object Oriented Programming with C++ : Balagurusamy, TMH
Suggested List of Experiment
1. Introduction to C++ and print a string through C program.
2. Write a program in C++ using variable and operators.
3. Write a program in C++ to illustrate all data types.
4. Write a program in C++ to illustrate arithmetic operators.
5. Write a program in C/C++ to implement decision statements.
6. Write a program to print a pyramid using For loop.
7. Read two numbers and swap those two numbers using temporary variable and
without using temporary variable.
8. Write a program that uses a class where the member functions are defined inside a class.
9. Write a program to demonstrate the use of zero argument and parameterized constructor.
10. Write a program in C++ to demonstrate function overloading.
11. Write a program to demonstrate use of pointers.
12. Write a program to use structures in C.
13. Write a program for various types of inheritance.
14. Write a program for runtime polymorphism.
15. Write a program to demonstrate file handling in C.
Note: Number of experiments may be extended to make the better understanding of subject.
Course outcome: The understanding about computer systems and programming will be enhanced.
---------------------------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur (M.P.) Department of Mechanical Engineering
Syllabus of
WORKSHOP PRACTICE B.Tech. (I-Semester) (CBCS Scheme) (04YDC)
W.e.f.(session 2016-17)
Course Objective:-
1. To familiarize with manufacturing process and their applications.
2. Familiarization of various tools, measuring devices, practices and machines used in various workshop sections.
Module 1: Fitting Shop:
Introduction of fitting and tool used in fitting shop, Study and use of Measuring instruments,
Engineer steel rule, Surface gauges calliper, Height gauges, feeler gauges, micro meter. Different types of files,
File cuts, File grades, Use of surface plate, Surface gauges drilling tapping Fitting operations; Chipping filling,
Drilling and tapping, Die and Stocks.
Module 2: Welding:
Introduction to different welding methods, Weldability , Welding equipment, electrodes & its specification,
Welding joints, Welding defects, Welding positions, Techniques of welding, Gas & Arc welding,
Study of TIG & MIG welding processes.
Module 3: Black Smithy:
Introduction of smithy , Heating Equipment, use of various smithy tools, Forging operations,
Upsetting, Drawing down, Fullering , Swaging, Cutting down, Forge welding, Punching and drafting.
Module 4: Carpentry Shop:
Various types of timbers, Qualities of timber disease, Defects in timbers, Timber grains,
Structure of timber, Timber preservation and seasoning of wood. Wood Working tools,
Wood working machinery, joints & joinery. Processes of carpentry, various operations of planning using
various carpentry planes, sawing & marking o f various carpentry joints.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total
Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST)
F1
End Sem. Test (EST)
F2
Workshop Practice
(MEC010)
-------
-----
50
50 0 2 4 4
100
Module 5: Foundry:
Pattern Making: Study of Pattern materials, pattern allowances and types of patterns.
Core box and core print, use and care of tools used for making wooden patterns.
Moulding: Properties of good mould, Moulding material & Core sand, Composition of Green,
Dry and Loam sand. Methods used to prepare simple, green, bench and pit mould,
dry sand bench mould using single piece and split patterns.
List of Practicals:
1. To study fitting tools, work materials and equipments.
2. To prepare job piece by making use of filing, sawing, chipping, drilling and tapping operations.
3. To study different types of welding processes and their tools, equipments and safety measures.
4. To prepare V-butt joint using AC arc welding.
5. To study Black smithy tools, equipments and safety measures.
6. To prepare a Chisel by forging with the help of hot working process.
7. To study carpentry tools, work material and equipments.
8. To prepare a Carpentry joint like mortise and tenon and halving joint.
9. To study Foundry tools, work material and equipments.
10. To prepare a Green sand mould in a foundry shop.
Reference Books:
1. Bawa HS; Workshop Practice, TMH
2. Rao PN; Manufacturing Technology- Vol.1& 2, TMH
3. John KC; Mechanical workshop practice; PHI
4. Hazara Choudhary; Workshop Practices Vol. I & II
5. Jain. R.K. Production Technology
Course Outcome:
1. Understand applications of tools.
2. Select the appropriate tools required for specific operation.
3. Comprehend the safety measures required to be taken while using the tools.
4. Ability to design and conduct experiments.
------------------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur Mhow-Neemuch By-Pass Road, Sh. 31, Mandsaur 458001 (M.P.)
Choice Based Credit System(CBCS) (04YDC)
Scheme of Examination w.e.f. (Session 2016-17)
Bachelor of Technology( Mechanical Engineering )
SEMESTER: II
L: Lecture T: Tutorial P: Practical
S. No.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test
(MST) F1
End Sem. Test
(EST) F2
1 Introduction to
Engineering Maths
and Applications- II
(MAT020)
30
60
-------
10
4
0
0
4
100
2 Material Science
(MEC020)
30
60
------ 10
4
0
0
4
100
3 Business
Communication &
Presentation Skills II
(CSS020)
20
40
30
10
2
1
2
4
100
4 How and Why
Machines Work
(MEC030)
20
40
30
10
2
1
2
4
100
5 Basic Electrical
Engineering
(EEE160)
20
40
30
10 2 1 2 4
100
6
Designing with
computers
(using AutoCAD)
(MEC040)
-------
-----
50
50 0 2 4 4
100
Total 24 600
Mandsaur University, Mandsaur(M.P.)
Department of Mechanical Engineering
Syllabus of
Introduction to Engineering Maths with Applications- II
B.Tech.(II-Semester) (CBCS Scheme) (04YDC)
w.e.f. (session2016-17)
Course objectives: Basic knowledge of various types of Matrices, properties and its basic theorems,
To know about the uses of Second-Order linear differential equations in practical problems, To know about the
differentiation of multivariate functions and uses, To learn about the various types of Partial differential
equations with different methods.
Unit 1 : Matrices
Rank of a Matrix (By reducing it to Elementary Transformation, Echelon & Normal Forms),
Solution of Simultaneous equations by Elementary Transformation Methods,
Consistency & Inconsistency of Equations, Eigen Values & Eigen Vectors, Caylay- Hamilton Theorem.
Unit 2:Second-Order Linear Differential Equations with Variable Coefficients Solution by Method of
Undetermined Coefficients, Removal of First Derivative, Change of Independent Variable and Variation of
Parameters, Solution by series method.
Unit 3 :Partial Derivatives
Definition, Euler’s Theorem for Homogeneous Functions, Differentiation of Implicit Functions,
Total Differential Coefficient, Transformations of Independent Variables, Jacobians, Approximation of Errors,
Maxima and Minima of functions of two variables.
Unit 4:Partial Differential Equations
Definition, Formulation, Solution of PDE ( By Direct Integration Method & Lagranges Method),
Non-Linear Partial Differential Equation of First order {Standard I, II, III & IV), Charpit’s General Method of Solution for Partial Differential equations.
Unit 5 :Partial Differential Equations with Constant Coefficients
Second and Higher Orders Homogeneous and Non- Homogeneous equations,
Partial differential Equations Reducible to equations with constant coefficients, The Method of Separation of
Variables, One Dimensional Heat and Wave equation and its solution
References
1. Dean G. Duffy, Advanced Engineering Mathematics with MATLAB, CRC Press.
2. Potter, Goldberg & Edward, Advanced Engineering Mathematics, Oxford University Press.
3. Probability and Statistics by Ravichandran, Wiley.
4. Fundamental of Mathematical Statistics, S. Chand & Co.
Course Outcomes: Useful for field of Matlab and Image processing, The applications of differential equations
will be helpful in Heat and Mass Transfer Problems .
-------------------------------------------------------------------------------------------------------------------------------------------------
Name of Subject With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total Marks Theory Paper
Practical Examination
Continuous Evaluation
L
T
P Mid Sem.
Test (MST) F1
End Sem. Test (EST)
F2
Introduction to
Engineering Maths and
Applications- II
(MAT020)
30
60
-------
10
4
0
0
4
100
Mandsaur University, Mandsaur(M.P.) Department of Mechanical Engineering
Syllabus of
Material Science
B.Tech.(II-Semester) (CBCS Scheme)(04YDC)
W.e.f. (session2016-17)
Course Objective:-
1. To understand the design, selection and processing of materials for a wide range of applications in
engineering and elsewhere.
2. To understand how and why the properties of materials are controlled by structure and bonding at the atomic-
scale, and by features at the micro structural and macroscopic levels.
UNIT-I
Introduction- Why to study material science and engineering?, Classification of Engineering materials- Ferrous
and Non Ferrous, Advanced Materials, Modern material needs, Properties of Engineering Materials like
Strength, Elasticity, Plasticity, Ductility, Brittleness, Toughness, Resilience, Stiffness, Hardness, Fatigue, Creep.
Stress - Strain diagram.
UNIT-II
Atomic and Crystal Structure- Fundamental concepts of Atomic structure, Electron in Atom, Crystal,
Crystal system, Unit Cell, space Lattice, Metallic crystal structure- BCC, FCC and HCP, coordination number,
Atomic packing factor (APF) and Density Computations.
UNIT-III
Inter-atomic Bonding- Bonding Forces and Energies, Types of Bond- Primary Inter atomic Bonds
( Ionic bond, Covalent bond, metallic bond) and Secondary Bonding (Vander Waals bond and hydrogen bonding).
UNIT-IV
Imperfections in Solids- Introduction to defects or imperfections, point defect, line defects, surface defects,
Bulk or Volume Defects and Specification of Composition.
UNIT-V
Characterization of Materials -Crystallography, X-Ray Diffraction Methods, Optical Microscopy,
Electron Microscopy –Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM).
Textbooks/Reference Books
1. W. D. Callister, Materials Science and Engineering, Wiley
2. James F. Shackelford, Introduction to Materials Science for Engineers
3. G.K. Narula, K.S. Narula, V.K. Gupta, Material Science, TMH
4. V. Rajendran, Material Science, TMH
Course Outcomes:-
1. Good knowledge about any material at microscopic level.
3. The application of the knowledge of Material science in Practical field /Industrial applications..
Name of Subject With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST) F1
End Sem. Test
(EST) F2
Material Science
(MEC020)
30
60
------ 10
4
0
0
4
100
Mandsaur University, Mandsaur(M.P.) Department of Communication Skill Syllabus of
Business Communication & Presentation Skills B.Tech.(II-Semester) (CBCS Scheme) W.e.f. (session2016-17)
Course Objective: To impart the conceptual knowledge about the Language and to enhance the capability of
communication skills.
Unit - I
1. Essential of Grammar
Grammar – Applied Grammar and usage, Parts of Speech, Articles, Tenses, Subject-Verb Agreement, Prepositions,
Active and Passive Voice, Reported Speech: Direct and Indirect, Sentence Structure, English Phonetic symbol/signs,
Punctuations,
Unit – II
Fundamentals of Communication Skills
Scope and Significance of Communication Skills, Listening, Speaking, Reading and Writing,. Process of
Communication in an organization,, Verbal and Non Verbal Communication, Barriers to communication, Formal
and Informal channels of Communication, Need for effective communication, Media of Communication,
Unit – III
Application of Linguistic ability
Developing Reading & Writing: Reading Comprehension, Process, Strategy, Benefits, Active & Passive Reading,
and SQ3R reading technique. Writing: Planning, Noting & Drafting, Precise Writing, art of summarizing,
Right word selections, definition of Engineering terms.
Unit – IV
Business Correspondence & Advanced Techniques in Technical Writing
Business Correspondence – Business Letters, Parts & Layouts of Business Letters, Application, Calling/ Sending
Quotations / Tenders /Orders / Complaints.
CV Writing, Memos, Minutes, Technical Reports, Project Report and Report Writing Strategies, Technical Proposals,
E-mail Etiquette, Technical Presentations.
Unit – V
Employability and Corporate Skills
Interview skills , Group Discussion, Time management and effective planning, Decision making and Negotiation skills,
People skills, Team work, development of leadership qualities, Integrated Speaking and Presentation Skills.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test
(MST) F1
End Sem. Test
(EST) F2
Business Communication
& Presentation Skills II
(CSS020)
20
40
30
10
2
1
2
4
100
References:
A practical English Grammar by A.J. Thomson and A.V. Martinet
Business Correspondence and Report Writing by Sharma; TMH
Living English Structure by W.S. Allen; Longmans
English Grammar by Ehrlich, Schaum Series; TMH
Spoken English for India by R.K. Bansal and IB Harrison Orient Longman
New International Business English by Joans and Alexander; OUP
Communication Skills by Dr. Neeta Sharma
Effective Technical Communication by Rizvi; TMH
Communication for Science & Engineering, by Dr. Binod Mishra
Business Communication by Dr. R.C. Sharma
List of Experiments:
Lab Sessions with the help of Language Lab Software:
Tense Buster
Study Skills
Business Communication
Exercises to be performed by the students:
To write a book review
Students are advised to read at least 3 books (novel, short stories, poems) written in English by authors of
Indian origin.
Students are expected to read actively and critically.
One book is expected to read in a period of not more than 20 days after which students have to submit
a hand – written review briefing the following aspects :
1. Relevance of the book title to the content
2. About the main character and other character
3. Setting of the book
4. Main idea/Theme of the book
5. Write précis and make presentation in consultation with the teacher
6. Write three quotations from the book
7. Message of the book and the student take away
There will be no examination in communication skills subject. The grades earmarked will be awarded on the basis
on internal assessment and the overall performance of the student in the Language Laboratory.
Topics to be covered in the Language Laboratory Sessions;
Self Introduction
JAM Session
Role Play Activity
Social & Professional Etiquettes
Phonetics symbol and pronunciation
Listening Skills (Including Listening Comprehension)
Reading Skills (including Reading Comprehension)
Writing Skills (Including Structuring resume and cover letter)
Speaking Skills
Body Language
Oral Presentation: Preparation and delivery using audio – visual aids with stress and body language and voice
modulation (Topic to be selected by the teacher)
Individual presentations with stress on delivery and content
Overcoming Stage Fright - Debates, Extempores
How to discuss in a group - Group Discussion
Discussion on recent developments and current debates in the media
How to prepare for an interview and face it with confidence
Conducting meetings and conferences
Exercises on Composition & Comprehension, Reading Improvement
Telephonic etiquettes
Movies & Videos (Based on Learning English, With Hindi & English Subtitle)
Course outcomes: The student will learn the Language and his presentation skills will be developed.
------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur(M.P.)
Department of Mechanical Engineering Syllabus of
Subject : How and Why Machines Work.
B.Tech.(II-Semester) (CBCS Scheme) (04YDC) W.e.f.(session 2016-17)
Course objective: (i) To Provide an Introduction to Mechanical Engineering Types of work/research mechanical engineers perform
Importance of topics in the Mechanical Engineering curriculum
Research at the MIT (MU) Department of Mechanical Engineering
How Mechanical Engineering influences the world
(ii) To develop Mechanical Engineering Skills/Tools Communications (Visual and Verbal)
Basic Analysis /Modeling
Design of Engineering systems
Unit 1:
Introduction to Mechanical Engineering: what is Mechanical Engineering , Engineering Way of Thinking,
identification of main parts of a technical problem, Modeling & estimation, Mechanical Engineering
(ME):Developing the mechanical solutions of a problem using basic, applied, & experimental means.
Explore what is a Machine and Mechanism, understanding elements, links , pairs and mechanisms and formation
of various systems in a Machine, why the machines are used, Machines and their contribution in the development of
society, Mechanical Advantage. Flow Balances in a Machine such as (Mass, Energy , Momentum, Power ), Control
volume approach, Mass balance in a Machine Example : filling and emptying of a vessel with a fluid, Hydraulic
Cylinders, Ballons etc.. A brief Classification of Machines .
Unit II :
Basics of operations of an Engine : How and why an engine ( its function & working) its utility and contribution
in the development of society, a brief description of component parts of an engine, The performance parameters
of an engine, Thermodynamic analysis of an engine, Market specifications of an engine, Fault finding
(diagnosis & Maintenance), Spare parts of an engine, Single cylinder and Multi Cylinder engines, Working of a
locomotive engine system its specifications, difference between an earthmover and locomotive.
Unit III:
Basic hydraulic machines & components: Pumps : Hydraulic pump and motor equations, Reciprocating and
centrifugal pumps: utility of a pump , Component parts of a pump , Market specifications , working of a pump,
installation of a pump on a sumpwell technical requirements and procedure, NPSH, Manometric efficiency, Head
and discharge of a pump and practical significance of these terms, Pump ,Motor and cylinder (Mass, energy and
Power flow balance), Control volume approach, SFEE & Bernoulli’s Equation, Submersible Pump its assembly ,
working and installation, Maintenance techniques of a pump , Hydraulic Turbines An overview.
Name of Subject
With Code No.
Maximum Marks Allocation Lectures per
week
Credits
Total
Marks Theory Paper Practical
Examination
Continuous
Evaluation
L
T
P Mid Sem.
Test (MST) F1
End Sem. Test
(EST) F2
How and Why
Machines Work
(MEC030)
20
40
30
10
2
1
2
4
100
Unit-IV:
Power Transmission systems in Machines, Belt, Rope & chain drives: their industrial applications, Gear trains,
Sun and planet gear train, Epicyclic Gear train, Train ratio calculations, Alarm clock gear train :
technical analysis, Tractor transmission system analysis, Threaded mechanisms involved in power transmission and
load lifting, Analysis of torque on a rotor of a DC Machine, How keep the machines moving an analysis :
Mechanical and electrical power transmission.
Unit–V:
Machine components : elements: various types of Nuts and Bolts used in engineering practice thier trade specifications,
rivets, cotter, pins, screws ,shafts, clutches, bearings market specifications etc. Sealing and packings : gaskets, rings,
valves and their industrial applications, various types of pipes.
List of experiments
1. Disassembling and identification of component parts of a Pump (Group project)
2. Learn and understanding of Working of joystick (stickshift Mechanism of a Gearbox)
3. To prepare a list of the companies of Engine Manufacturing (India & Abroad)
4. To prepare the Camera pictures book of different types of engines .
5. To learn the techniques of maintenance of a centrifugal pump
6. Sketching of component parts (such as impeller, Valves) using AutoCAD)
7. Assembling and disassembling of 2s and 4s Petrol Engine. To Find and prepare the list of applications of gear
trains in various Machines.
9. To prepare A brief catalogue of various types of spanners and wrenches used in Maintenance of Machines.
Reference Books: 1. Thermal Engineering : R.K. Rajput; Laxmi Publications.
2. Elements of Mechanical Engineering: S.B. Mathur, S.Domkundwar; Dhanpat Rai & Sons.
3. Thermal Engineering Vol. I and II : H.R. Kapoor; Tata McGraw Hill Co. Ltd.
4 Fundamentals of Mechanical Engineering : G.S. Sawhney; Prentice Hall of India Publication New Delhi.
5. Thermal Science and Engineering : Dr. D.S. Kumar; S.K. Kataria & sons Publication New Delhi
Student Learning Outcomes At the end of the course the students will be able to understand the Mechanical engineering in general and
Thermal science, Energy conversion in particular. Students will also be able to identify, solve and analyze
problems related to Energy conversion, Energy transmission and Energy utilization. The student will be able to
develop thinking attitude like a Mechanical Engineer.
*Partial Syllabus of this subject has been taken from MIT Boston (USA).
---------------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur(M.P.)
Department of Mechanical Engineering
Syllabus of
Basic Electrical Engineering
B.Tech.(II-Semester) (CBCS Scheme) (04YDC)
w.e.f.(session 2016-17)
Course objective: To make students well aware and conversed about the fundamentals of electrical
engineering.
Unit-I
1- phase AC Circuits: Generation of sinusoidal AC voltage, definition of average value, R.M.S. value,
form factor and peak factor of AC quantity , Concept of phasor, Concept of Power factor, Concept of impedance
and admittance, Active, reactive and apparent power, analysis of R-L, R-C, R-L-C series & parallel circuit.
Unit-II
3-phase AC Circuits: Necessity and advantages of three phase systems, Meaning of Phase sequence,
balanced and unbalanced supply and loads. Relationship between line and phase values for balanced star and delta
connections. Power in balanced & unbalanced three-phase system and their measurements
Unit-III
Magnetic Circuits: Basic definitions, magnetization characteristics of Ferro magnetic materials, self inductance
and mutual inductance, energy in linear magnetic systems, coils connected in series, AC excitation in magnetic
circuits, magnetic field produced by current carrying conductor, Force on a current carrying conductor. Induced
voltage, laws of electromagnetic Induction, direction of induced E.M.F. single phase transformer- general
construction, working principle, e.m.f. equation, open circuit and short circuit test
Unit-IV
Transformer: Construction of Transformer, Working principle, e.mf. equation, equivalent circuit, losses,
separation of hysteresis and eddy current losses, efficiency, different types of winding connections, Power and
distribution transformer, Autotransformer: working, advantages.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week Credits Total Marks
Theory Paper
Practical Examination
Continuous Evaluation
L
T
P
Mid Sem.
Test (MST) F1
End Sem. Test (EST)
F2
Basic Electrical
Engineering
(EEE160)
20
40
30
10
2 1 2 4
100
Unit-V
Electrical Energy Generation: Concepts, various types of generating stations and their locations. Study of
Thermal, Hydel, Nuclear and Non Conventional energy generation schemes. Difference between conventional and
non-conventional sources of energy.
REFERENCES
1. D.P. Kothari & I.J. Nagrath, Basic Electrical Engineering, Tata McGraw Hill, latest edition.
2. S.N. Singh , Basic Electrical Engineering, P.H.I.,2013
3. Rajendra Prasad, Fundamentals of Electrical Engineering, Prentice Hall,2014
4. M.S. Sukhija, T. K. Nagsarkar, Basic Electrical and electronics engineering, Oxford University press,2012
5. C.L. Wadhwa, Basic Electrical Engineering. New Age International.
6. Bharti Dwivedi, Fundamentals of Electrical Engineering, Wilkey India, 2013
7. Sanjeev Sharma, Basic Electrical Engineering, I.K. International
8. Power Generation Technology-Dr.V.K.Sethi, Sudit Publication
Practical List:-
1. The study of R-L-C series circuit and draw its phasor diagram.
2. Perform experiment to measure Active and Reactive power consumed by single phase inductive load
while connected to single phase AC supply.
3. Performing experiment to measure line voltage, line current, phase voltage, phase current and total power
consumed by the balanced 3- phase resistive load.
4. To verify the relationship in Star and Delta connected three-phase AC system.
5. Study of B-H curve of a magnetic core.
6. To perform O.C. & S.C. Test on 1-Ph Transformer and determine equivalent circuit parameters.
7. Study the Hydro Power Station.
8. Study the Thermal Power Station.
9. To study the nuclear power Station
10.Study & drow different types of Electrical Symbols.
Course outcomes: The Student learns about electrical energy its conduction principles.
Exposure to the basic concepts of Electrical Engineering will be the basic outcome .
-------------------------------------------------------------------------------------------------------------------------------
Mandsaur University, Mandsaur (M.P.) Department of Mechanical Engineering
Syllabus of
Designing with Computers (using Auto CAD)
B.Tech.(II-Semester) (CBCS Scheme) (04YDC)
W.e.f. (session 2016-17)
Course objectives: To Recognize the two dimensional engineering drawings & design. Sketch orthographic
projections with the applications of CAD software (AutoCAD)..
Unit –I Introduction: Introduction to CAD, Design Process, Importance and Necessity of CAD,
Applications of CAD, Hardware and Software requirement of CAD, Basics of geometric and solid modeling,
coordinate systems. Transformations: Introduction, transformation of points and line, 2-D rotation, reflection, scaling
and combined transformation, homogeneous coordinates, 3-D scaling, shearing, rotation, reflection and translation.
Unit-II
AutoCAD, Auto CAD dialog boxes, Co ordinate Systems, Drawing lines, Circle , Arcs, Rectangle, Ellipse,
Polygons, P line ,Splines ,Grid, Snap, Ortho, Isometric plane etc. Editing commands like: Move ,Copy, Paste, Offset,
Scale, Chamfer, Trim, Mirror ,Fillet ,Rotate, Break, Extend, Arrays, OSNAP, Exercises Dimensioning Auto CAD,
Creating linear, Rotated, Angular aligned base line Dimensions, Modifying dimensions, Text style and Table.
Unit-III
Basic Geometrical constructions, Curves used in engineering practices Conics – Construction of ellipse, parabola
and hyperbola by eccentricity method – Construction of cycloid – construction of involutes of square and circle –
Drawing of tangents and normal to the above curves in Auto CAD.
Unit-IV
Projections of straight lines (only First angle projections) inclined to both the principal planes through
Auto CAD. Projections of planes (polygonal and circular surfaces) inclined to both the principal planes by rotating
object method. Projections of simple solids like prisms, pyramids, cylinder, cone.
Unit-V
Orthographic projection- principles- Principal planes- First angle projection- Projection of Mechanical
Components. Design and drafting of cotter joint assembly. Introduction to AutoCAD 3-D modeling.
Note: Drawings showings be made in Auto CAD for respective topics for practical Submissions.
Name of Subject With Code No.
Maximum Marks Allocation Lectures per week
Credits
Total Marks
Theory Paper Practical Examination
Continuous Evaluation
L
T
P
Mid Sem. Test (MST)
F1
End Sem. Test (EST)
F2
Designing with
computers (using
AutoCAD)
(MEC040)
-------
-----
50
50 0 2 4 4
100
Reference Book:
1. Engineering Graphics with Auto CAD by Agrawal & Agrawal
2. Auto CAD for Engineers and Designers, Sham Tickoo, Dream Tech Press
3. Machine Design by R.S. Khurmi, S Chand Publishares.
Course outcomes: Demonstrate basic concepts of the AutoCAD software, Apply basic concepts to develop
construction (drawing) techniques, Ability to manipulate drawings through editing and plotting techniques ,
Understand geometric construction, Produce template drawings, Produce 2D Orthographic Projections,
Understand and demonstrate dimensioning concepts and techniques,
Design Center, and Tool Palettes, Become familiar with Solid Modeling concepts and techniques
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