First Year Syllabus - Poornima University · lower calorific value by Bomb Calorimeter, Determination of higher & lower calorific value by Junker’s Calorimeter Calculations of calorific

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B.Tech Batch 2014-18

Teaching Schemes & Detailed Syllabus for First Year

First Year Syllabus

SCHOOL OF ENGINEERING & TECHNOLOGY

PU/Batch 2014-18/1st -2nd SEM/SYLLABUS/SET/B.Tech(First yr) Page | 2

POORNIMA UNIVERSITY B.Tech. First Year (Batch 2014-18)

Teaching Scheme for First Semester (I Yr.) COMMON TO ALL BRANCHES (CE/CIV/EE/EEE/ME)

Subject Code

Subject Name Teaching Scheme (Hrs /

wk) Credits Lec Tut Prac

A. Core Subjects(Theory)

BTX01101 English -I 2 - - 1

BTX01102 Engineering Physics-I 4 1 - 4.5

BTX01103 Chemistry & Environmental Engineering-I 3 1 - 3.5

BTX01104 Engineering Mathematics-I 3 1 - 3.5

BTX01105/ BTX01106

Engineering Mechanics (CIV/ME) Electrical & Electronics Engineering (CS/EE/EEE)

4 1 - 4.5

BTX01107 Fundamentals of Computer 2 - - 2

B. Departmental Elective(Theory):ANYONE

Nil - - - -

C. Open Elective (Theory):ANY ONE

Nil - -

D. Practicals

BTX01208 Engineering Physics Lab-1 - - 2 1

BTX01209 Engineering Chemistry Lab-1 - - 2 1

BTX01210 / BTX01211

Workshop Practice (CIV/ME) Electrical & Electronics Engineering Lab (CS/EE/EEE)

-

-

2 1

BTX01212 Practical Geometry - 1 2 1.5

BTX01213 Fundamentals of Computer - - 2 1

BTX01214 Soft Skills - - 2 1

E. Project/Seminar

Nil - - - -

F. Programmes/ Activities

BTX01615 Discipline and Talent Enrichment Programme (TEP) -I

2

BTX01615.1 Non Syllabus Project(NSP) 1 - - -

BTX01615.2 Online Eligibility Exam (OLE) 1 - - -

BTX01615.3/ BTX01615.4

Library/ Internet

1 - - -

BTX01615.5 Extra Circular Activities 1 - - -

Total 22 5 12 27.5

Total Teaching Hours 39


POORNIMA UNIVERSITY B.Tech. First Year (Batch 2014-18)

Teaching Scheme for Second Semester (I Yr.) COMMON TO ALL BRANCHES (CE/CIV/EE/EEE/ME)

Subject Code

Subject Name

Teaching Scheme (Hrs per wk) Credits

Lec Tut Prac

A. Core Subjects (Theory)

BTX02101 English-II 2 - - 2

BTX02102 Engineering Physics-II 4 1 - 4.5

BTX02103 Chemistry & Environmental Engineering-II 4 - - 4

BTX02104 Engineering Mathematics-II 3 1 - 3.5

BTX02105/ BTX02106

Engineering Mechanics (CS/EE/EEE) Electrical & Electronics Engineering (CIV/ME)

4 1 - 4.5

BTX02107 Programming in C 3 - - 3

B. Departmental Elective(Theory)

Nil - - - -

C. Open Elective (Theory)

Nil - - - -

D. Practicals

BTX02208 Engineering Physics Lab-II - - 2 1

BTX02209 Engineering Chemistry Lab-II - - 2 1

BTX02210 / BTX02211

Workshop Practice (CS/EE/EEE) / Electrical & Electronics Engineering Lab (CIV/ME) - -

2 1

BTX02212 Machine Drawing 1 - 2 2

BTX02213 Computer Programming Lab - - 2 1

BTX02214 Language Lab - - 2 1

BTX02215 Life and Career Skills - - 1 0.5

E. Project/Seminar

Nil - - - -

F. Programmes/ Activities

BTX02616 Discipline and Talent Enrichment Programme (TEP) -II

2

BTX02616.1 Online Eligibility Exam (OLE) 1 - - -

BTX02616.2 Extra Circular Activities 1 - - -

Total 23 3 13 31



Poornima University, Jaipur School of Engineering and Technology

First Year Department

DETAILED SYLLABUS

for

B.Tech. I Year

(FIRST and SECOND Semester)

Batch 2014-18


FIRST semester CORE Theory Subjects

Code: BTX01101 ENGLISH- I 2 Credits [LTP: 2-0-0]

A. OUTLINE OF THE COURSE

B. DETAILED SYLLABUS

Unit No. Title of the Unit Time Required for the Unit (Hours) 1. Grammar and Usage 5 2. Composition 3 3. Poems 4 4. Essays & Short Play 5 5. Short Stories 5

Unit Contents 1. Grammar and Usage Introduction of Unit

Parts of speech

Tenses

Sentences

Word format

Conclusion of Unit

2. Composition Introduction of Unit

Letter writing

Application writing

Précis writing

Conclusion of Unit

3. Poems Introduction of Unit

The Solitary Reaper by William Wordsworth

God’s Grandeur by Gerard Manley Hopkins

The Road Not Taken by Robert Frost

Conclusion of Unit

4. Essays & Short Play Introduction of Unit

Of Studies by Francis Bacon

On Doing Nothing by G.B. Priestley

The Monkey’s Paw by W.W. Jacobs

Conclusion of Unit

5. Short Stories Introduction of Unit

The Three Dancing Goats by Anonymous

God and the Cobbler by R.K. Narayan

My lord, The baby by R.N.Tagore

Conclusion of Unit


C. RECOMMENDED STUDY MATERIAL

Sr.No Reference Book Author Edition Publication 1. Technical Communication Meenakshi Raman and

Sangeetha Sharma

2008 Oxford

University Press,

2. Effective Technical Communication M. Ashraf Rizvi 2005 Tata McGraw-Hill

3. Learn Correct English: Grammar, Usage

and Composition

Shiv K. Kumar & Hemalatha

Nagarajan

Pearson, New Delhi,

India

4. Grammar of the Modern English Language Sukhdev Singh & Balbir Singh Foundation Books, New

Delhi

5. Communicative English for Engineers and

Professionals

Nitin Bhatnagar and Mamta

Bhatnagar

Pearson( New Delhi)

6. Communicative grammar and composition Rajesh.K.Lidiya 2008 Oxford Univ Press,

New Delhi.

Important Web Links 1. http://www.communicationskills.co.in/index.html

2. http://www.hodu.com/default.htm

3. http://www.bbc.co.uk/worldservice/learningenglish

4. http://www.englishlearner.com/tests/test.html

5. http://www.englishclub.com/vocabulary/idioms-body.htm

6. http://dictionary.cambridge.org 2.


Code: BTX01102 ENGINEERING PHYSICS- I 4.5 Credits [LTP: 4-1-0]


Unit No. Title of the unit Time required for the Unit (Hours) 1. Interference of light 8 2. Diffraction of light 9 3. Polarization of light 9 4. Elements of Material Science 9 5. Special Theory of Relativity 9


Unit Unit Details 1. Interference of light

Introduction of Unit

Types of interference, Coherent sources, Principle of Superposition, characteristics of coherent sources,

methods to produce coherent sources with examples.

Interference in Thin Films: Interference in Reflected light, Interference in Transmitted light

Michelson’s Interferometers: Principle, Construction, Working and production of circular, straight line

and hyperbolic fringes

Application: Determination of

o The wavelength of a given monochromatic source of light.

o The difference between the two neighbouring wavelengths.

o The refractive index & thickness of a thin transparent film (sheet).

Newton’s Rings: Principle, Construction and working of Newton’s ring in reflected light, .Newton’s ring

in transmitted light

Application:- o Determination of wavelength of a monochromatic light.

o Determination of refractive index of a liquid.

o Conclusion of Unit

2. Diffraction of Light Introduction of Unit: Types of Diffraction and difference between them , Condition for diffraction,

difference between interference and diffraction.

Single slit diffraction: Quantitative description of maxima and minima with intensity variation, linear and

angular width of central maxima.

Diffraction Grating: Construction and theory, application and characteristics of plane transmission

grating.

Resolving Power: Geometrical & spectral, Rayleigh criterion, Resolving power of diffraction grating and

telescope.

X-Ray diffraction and Bragg’s Law.

Conclusion of Unit

3. Polarization of Light Introduction of Unit: Experimental demonstration of polarization (Mechanical and optical method)

Classification of plane, circular and elliptically polarized light on the basis of electric (light) vector, Malus

and Brewster’s Law.

Double Refraction: Quantitative description of double refraction (Huygene Theory for explanation-

mathematical derivation), Nicol Prism, Phase retardation plate (Quarter and half wave plates), working and

use of phase retardation plates in production and detection of circularly and elliptically polarized light.

Optical Activity: Optical activity and laws of optical rotation, specific rotation and its measurement using

half shade and bi-quartz devices.


C. RECOMMENDED STUDY MATERIAL:

Sr.No Reference Books Author Edition Publication 1. Fundamental of Optics Jenkins and While 4th Tata McGraw-Hill 2. Optics Ajoy Ghatak 3rd Tata Mc Graw-Hill

3. A Text Book of optics Brijlal & Subramanium Latest S.Chand and co. Ltd

4. Concept of Modern Physics Beiser Latest Tata McGraw-Hill

5. Introduction to special Relativity R.Resnick Latest Johan Willy Singapore

6. Atomic & Nuclear Physics Brijlal, Subramanyam IV

JivanSesham

Latest S.Chand & Co

7. Elements of Properties of Matter D.S.Mathur Latest S.Chand & Co.

8. Solid State Physics S.O.Pillai Latest Wiley Eastern Ltd.

Conclusion of Unit

4. Elements of Material Science Introduction of Unit: Bonding in solids, Covalent bonding and Metallic bonding, Classification of Solids

as Insulators, Semi-Conductor and Conductors

Semiconductors: Conductivity in Semiconductors, Determination of Energy gap of Semiconductor.

Basic concepts of Superconductivity and Meissner Effect

Hall Effect: Theory, Hall Coefficients and application to determine the sign of charge carrier, to determine

the Concentration of charge carrier, to determine the mobility of charge carriers.

Conclusion of Unit

5. Special Theory of Relativity

Introduction of Unit: Relativity of size, position, velocity and time. Inertial and non-inertial frames of

Reference.

Postulates of special theory relativity

Galilean and Lorentz Transformations, Length contraction, Mass Variation and Time Dilation.

Relativistic Velocity addition and Mass-Energy relation

Relativistic Energy and Momentum

Twin Paradox.

Conclusion of Unit


Code: BTX01103 CHEMISTRY & ENVIRONMENTAL ENGINEERING-I 3.5 Credits LTP: 3-1-0]


Unit No. Title of the unit Time required for the Unit (Hours) 1. Fuel: General Aspects 8 2. Fuel Analyses 6 3. New Engineering Materials and Lubricants 6 4. Binding Materials and Industrial Inorganic Compounds 6 5. Basics of Environment & Social Issues 7


Unit Unit Details 1. Fuel: General Aspects


Classification and general aspects of fuel.

Solid fuel: Coal, Types of coal, Carbonization of coal

Liquid fuel: Processing of crude petroleum, Cracking, Thermal Cracking and Catalytic Cracking, Synthetic

petrol (Coal to Liquid (CTL) Technology): Bergius and Fischer Tropsch process. Knocking, Octane

number and Cetane number, Anti-knocking and Anti-knocking agents

Gaseous fuel: Advantages of gaseous fuel, Biogas, LPG, CNG

Numericals based on combustion and requirement of oxygen/ air in combustion process

Conclusion of Unit

2 Fuel Analyses Introduction of Unit

Analysis of Coal: Ultimate and Proximate analysis of coal

Calorific Value: Definition, Higher calorific value, Lower calorific value, Determination of higher &

lower calorific value by Bomb Calorimeter, Determination of higher & lower calorific value by Junker’s

Calorimeter

Calculations of calorific value based on Dulong’s formula

Fuel gas analysis by Orsat’s apparatus and its significance

Numericals based on Bomb & Junker’s calorimeter

Conclusion of Unit

3 New Engineering Materials and Lubricants Introduction of Unit

New Engineering Materials

Fullerenes: Introduction, Properties, Preparation and Applications

Nano-materials: Introduction, Properties, Preparation and Applications

Lubricants

Introduction of lubricants, Classification, Properties and Uses of lubricants

Mechanism of lubrication, Selection of lubricants

Properties of lubricants: Viscosity & Viscosity Index, Flash and Fire Point, Cloud and Pour Point,

Carbon Residue, Oiliness, Aniline Point, Steam Emulsification Number, Precipitation Number and

Neutralization Number

Conclusion of Unit



Sr.No Reference Book Author Edition Publication 1. Engineering Chemistry O.P. Palnna Latest Tata Mcgraw Hill

2. Engineering Chemistry Sivakumar Latest Tata Mcgraw Hill

3. Engineering Chemistry P.C. Jain Dhanpat Rai & Sons

4. Engineering Chemistry. S. S. Dara S. Chand & Co.

5. Chemistry in Engineering & Tech. Rajaram Kuriacose Tata Mcgraw Hill

6. Environmental Studies R. Rajagopalan Oxford University Press

7. Principles of Environmental Science and Engineering P. Venugoplan Rao Prentice Hall of India.

8. Environmental Science and Engineering Meenakshi Prentice Hall India.

4 Binding Materials and Industrial Inorganic Compounds Introduction of Unit

Binding Materials

Cement: Composition and Significance of cement

Manufacturing of Portland cement by Rotary Kiln Technology

Chemistry of setting and hardening of cement and role of gypsum

Industrial Inorganic Compounds Refractories, Classification and its properties Requisites of good refractory and manufacturing of refractory Detailed study of Silica and Fire clay refractory and their uses Conclusion of Unit

5 Basics of Environment & Social Issues Introduction of Unit

Basics of Environment The multidisciplinary nature of Environmental studies – Definition, Scope and Importance for Public

Awareness Introduction to Environment: Biosphere, Atmosphere, Hydrosphere, Lithosphere Ecosystem: Definition and components (Biotic & Abiotic). Biodiversity: Definition, Importance & Threats to biodiversity Energy Resources: Renewable and Non-renewable energy sources

Social Issues Current Environmental Issues: Climate change and Global warming, Acid rain, Ozone Layer Depletion,

Eutrophication, Biomagnification, Urbanization, Sustainable Development, Rainwater Harvesting Environmental Impact Assessment

Conclusion of Unit


Code: BTX01104 ENGINEERING MATHEMATICS - I 3.5 Credits[LTP: 3-1-0]


Unit No. Title of the Unit Time required for the Unit (Hours) 1. Matrices 6 2. Infinite Series 7 3. Differential Calculus I 5 4. Differential Calculus II 8 5. Integral Calculus 7


Unit Unit Details 1. Matrices


Rank of a Matrix, Normal form of a Matrix

Consistency of systems of linear equations

Eigen Values and Eigen Vectors

Cayley-Hamilton Theorem (without proof)

Diagonalization of Matrix

Conclusion of Unit

2. Infinite Series


Infinite Series – General properties and Convergence

Series of positive terms

Tests of Convergence (Comparison test, D’ Alembert’s ratio test, Raabe’s test, Root test) Alternating

Series- Leibnitz’s rule

Absolute and Conditional Convergence, Convergence of Binomial, Exponential and Logarithmic Series

Conclusion of Unit

3. Differential Calculus I Introduction of Unit

Asymptotes (Cartesian coordinates)

Curvature(in Cartesian form)- Radius, Centre and Circle of Curvature, Length of Chord of Curvature

parallel to the axes

Concavity, Convexity and Points of Inflexion

Conclusion of Unit

4. Differential Calculus II Introduction of Unit

Partial Derivative, Euler’s Theorem on Homogeneous Functions

Total Derivative

Maxima and Minima of functions of two and more independent variables- Lagrange Method of

Multipliers

Curve Tracing for Cartesian curves, Tracing of standard Polar curves- Cardioids, Limacon, Lemniscates,

Cycloid

Conclusion of Unit

5. Integral Calculus


Surfaces and Volumes of Solids of Revolutions

Double integrals, Double integral by changing into polar form, Areas & Volumes by Double Integration



Sr.No Reference Book Author Edition Publication

1. Higher Engineering Mathematics B S Grewal Latest Khanna Publications, Delhi,

2. Higher Engineering Mathematics Ramana, B.V Latest Tata McGraw-Hill.

3. Engineering Mathematics: A Tutorial

Approach

Ravish R Singh and M

Bhatt

Latest Tata McGraw-Hill

4. Calculus and Analytical Geometry Thomas and Finney, Latest Narosa Publishing, New

Delhi

5. Advanced Engineering Mathematics Erwin Kreyszig Latest John Wiley and Sons

Important Web Links: 1. http://mathworld.wolfram.com/

2. http://en.wikipedia.org/wiki/Math

Change of order of integration

Beta and Gamma functions- Elementary properties

Conclusion of Unit


Code: BTX01105 ENGINEERING MECHANICS 4.5 Credits [LTP: 4-1-0]



Unit No. Title of the Unit Time required for the Unit (Hours) 1. Fundamentals of Mechanics 9 2. Machine & Moment of Inertia 9 3. Friction & Belt Drive 8 4. Dynamics of Particles 9 5. Work, Power & Impact 9

Unit Unit Details 1. Fundamentals of Mechanics


Fundamental laws of mechanics, Principle of transmissibility

System of forces, Resultant force, Resolution of force

Moment and Couples, Varignon’s Theorem, Resolution of a force into a force and a couple, Free body

diagram

Equilibrium, Conditions for equilibrium, Lami's theorem.

Virtual work: Principle of Virtual Work, Active forces and active force diagram

Conclusion of Unit

2. Machine & Moment of Inertia Introduction of Unit

Lifting Machines: Mechanical advantage, Velocity Ratio, Efficiency of machine, Ideal machine, Ideal

effort and ideal load, Reversibility of machine, Law of machine, Lifting machines

Pulleys: System of Pulleys, Simple wheel and axle, Wheel and differential axle, Weston’s differential

pulley block

Centroid & Moment of Inertia: Location of centroid and center of gravity, Moment of inertia, Parallel

axis and perpendicular axis theorem, Radius of gyration, M.I of composite section, Polar moment of

inertia, M.I of solid bodies.

Conclusion of Unit

3. Friction & Belt Drive Introduction of Unit

Friction: Types of Friction, Laws of friction, Angle of friction, Angle of repose, Ladder, Wedge, Belt

Friction

Belt Drive: Types of belts, Types of belt drives, Velocity ratio, Effect of slip on Velocity ratio, Length of

belt, Ratio of tensions and power transmission by flat belt drives.

Conclusion of Unit

4. Dynamics of Particles Introduction of Unit

Kinematics of Particles and Rigid Bodies: Velocity, Acceleration, Types of Motion, Equations of

Motion, Rectangular components of velocity and acceleration, Angular velocity and Angular

acceleration, Radial and transverse velocities and accelerations, Projectiles motion on plane and Inclined

Plane, Relative Motion.

Kinetics of Particles and Rigid Bodies: Newton's laws, Linear Momentum, Linear Impulse , Equation

of motion in rectangular coordinate, radial and transverse components, Equation of motion in plane for a

rigid body, D'Alembert principle.



Sr.No Reference Book Author Edition Publication 1. Vector Mechanics for Engineers Beer and Johnston Latest Tata McGraw Hill

2. Engineering Mechanics D S Kumar Latest S K Kataria & Sons

3. Engineering Mechanics Statics Meriam, J. L. & Kraige, L. G Latest John Wiley & Son

4. Engineering Mechanics S. Ramamruthan Latest Dhanpat Rai Pub.

5. Engineering Mechanics Shames Latest Pearson Education

Important Web Links

1. http://nptel.iitm.ac.in/courses/Webcourse-contents/IITDelhi/Mechanics%20Of%20Solids/ index.htm

2. http://nptel.iitm.ac.in/video.php?subjectId=105106116

Conclusion of Unit

5. Work, Power & Impact Introduction of Unit

Work, Energy and Power: Work of a force, weight, spring force and couple, Power, Efficiency,

Energy, Kinetic energy of rigid body, Principle of work and energy, Conservative and Non-conservative

Force, Conservation of energy. Impact: Collision of elastic bodies, types of impact, conservation of momentum, Newton’s law of

collision, coefficient of restitution, loss of kinetic energy during impact.

Conclusion of Unit


Code: BTX01106 ELECTRICAL & ELECTRONICS ENGINEERING 4 .5 [LTP :4-1-0]



Unit No. Title of the Unit Time required for the Unit (Hours) 1. Basic Concepts of Electrical Engineering 9 2. Alternating Quantities 9 3. Energy Conversion and Electrical Machines 9 4. Basic Electronics 8 5. Communication Systems 9

Unit Unit Details 1. Basic Concepts of Electrical Engineering Introduction of Unit

Basic Concepts: Electric Current, Electromotive Force, Electric Power, Ohm’s Law, Basic Circuit

Components, Faraday’s Law of Electromagnetic Induction.

DC Network Analysis & Theorems: Kirchhoff’s Laws, Network Sources, Resistive Networks, Series-

Parallel Circuits, Star-Delta Transformation, Node Voltage Method, Mesh Current Method, Super-

Position, Thevenin’s, Norton’s and Maximum Power Transfer Theorems.

Conclusion of Unit

2. Alternating Quantities


Single Phase AC system: Introduction, Generation of AC Voltages, Root Mean Square and Average

Value of Alternating Currents and Voltages, Form Factor, Peak Factor, Power Factor and Quality Factor,

Phasor Representation of Alternating Quantities, Single Phase RLC Circuits.

Three Phase AC system: Introduction, Merits of Three Phase System, Generation and Waveform.

Conclusion of Unit

3. Energy Conversion and Electrical Machines Introduction of Unit

Introduction of Energy: Types of Energy, Introduction to Energy Conversion, Sources of Energy

(Conventional & Non Conventional), Energy Scenario in India & Rajasthan.

Rotating Machines :

o DC Machines: Principle of Operation of DC Machine as Motor and Generator, EMF Equation,

Applications of DC Machines

o AC Machines: Principle of Operation of 3-Phase Induction Motor, 3-Phase Synchronous Motor, 3-

Phase Synchronous Generator (Alternator), Applications of AC Machines

Stationary Machines :Introduction, Construction and Principle of Working of Transformer, EMF

Equation, Voltage Transformation Ratio

Conclusion of Unit

4. Basic Electronics Introduction of Unit

Semiconductor Devices: Conduction in Semiconductors, Conduction Properties of Semiconductor

Diodes, Behavior of the PN Junction, PN Junction Diode, Zener Diode, LED, Photovoltaic Cell,

Rectifiers, L, C, & L-C filters, BJT, UJT, Transistor as an Amplifier.

Digital Electronics: Boolean algebra, Binary System, Logic Gates and Their Truth Tables.

Conclusion of Unit



Sr.No Reference Book Author Edition Publication 1. Electrical and Electronic Technology Edward Hughes et al, Latest Pearson Publication

2. Basic Electrical & Electronics Engineering V. Jagathesan, K. Vinod

Kumar & R. Saravan Kumar

Latest Wiley India

3. Basic Electrical & Electronics Engineering Van Valkenburge Latest Cengage learning

4. Basic Electrical and Electronics

Engineering by,

Muthusubrmaniam Latest TMH

5. Basic Electrical & Electronics Engineering Ravish Singh Latest TMH

Important Web Links

1. http://www.facstaff.bucknell.edu

2. engineersphere.com/basic-electrical-concepts

5. Communication Systems Introduction of Unit

Basics of Communication: Introduction, IEEE Spectrum for Communication Systems, Types of

Communication, Amplitude and Frequency Modulation.

Basics of Instrumentation: Introduction to Transducers, Thermocouple, RTD, Strain Gauges, Load Cell

and Bimetallic Strip, Introduction and Classification of ICs.

Conclusion of Unit


Code: BTX01107 FUNDAMENTALS OF COMPUTER 2 Credit [LTP :2-0-0]



Unit No. Title of the unit Time required for the Unit (Hours) 1. Introduction to Computers 8 2. Computer Networks Concepts 4 3. Operating System Concepts 4 4. Data Representation 8 5. Computer Software 4

Unit Unit Details 1. Introduction to Computers Introduction of Unit

Defining a computer, Utility and Need of Computer, Characteristics of Computer

Purpose of Computer, Computer Generations, Computer Hardware

Classification of Computers – Personal Computer, Workstation, Servers and Super Computers (On the

basis of Speed and Storage Devices)

Introduction to Computer Components–CPU, Input Output Devices

Storage Devices-Primary Memory (RAM, ROM, PROM, EPROM, EEPROM) and Secondary Storage,

Random, Direct, Sequential Access Methods

Conclusion of Unit

2. Computer Networks Concepts Introduction of Unit

Need, Scope & Benefits

Classification Overview: LAN, MAN, WAN, VPN, Peer-to-Peer, Client Server

Introduction of Components – NIC, Router, Switch, Hub, Repeater, Bridge, Gateway, Modem

Types of Servers – Database, Print, Internet, Mail, Chat

Comparison of Internet, Intranets, Extranets.

Conclusion of Unit

3. Operating System Concepts Introduction of Unit

Introduction of Operating System

Architecture of Operating System

Introduction to Basic types of Operating System-Multiprogramming, Multiprocessing, Multitasking

Time Sharing, Distributed Systems, Real Time Systems

Conclusion of Unit 4. Data Representation


Data Organization-Nibbles, bits, bytes, KB, MB, GB, TB

Number System: Concept of Radix and representation of numbers in radix r with special cases of r=2, 8,

10 and 16 with conversion from radix r1 to radix r2. R’s and (r-1)’s complement.

Representation of Integer in Sign-magnitude, Signed 1’s and 2’scomplement.

Floating Point Representation, Concept of Bias and Normalization, Representation of Alphabets

Binary Codes- Binary Arithmetic, Addition and Subtraction of Integers and Floating Point Numbers.

Multiplication of Integers, Gray Code, BCD 8421 and 2421, Excess-3 and Excess-3 Gray Codes



Conclusion of Unit

5. Computer Software Introduction to Types of Software –

o System Software-Operating System, Classification of Computer language – Basic knowledge of

High-Level, Assembly and Low Level programming languages, Difference between Assembler,

Interpreter and Compiler

o General Purpose Software/ Utilities –Word Processor, Spread Sheet, Internet browser

o Application Software-Enterprise Resource Planning (ERP), Decision Support System

Fundamentals of Computer Programming- Representing Algorithms through Flow Chart, Pseudo Code,

Step by Step, Decision Tables

Conclusion of Unit

Sr.No Reference Book Author Edition Publication 1. Computer Fundamentals P. K. Sinha. 2004 Bpb Publications

2. Computer Fundamentals and Programming in C Reema Thareja Latest Oxford

3. Fundamentals of Computers V. Rajaraman 5th Phi

4. Data Communication and Networking Behrouz A. Forouzan Latest Tata McGraw Hill

5. Operating System Andrew S. Tanenbaum,

Albert S.Woodhull

Latest Pe-Pearsion Education,

Asia

Important Web Links 1. http:// www.tutorials4u.com/c/

2. www.howstuffworks.com/c.htm

http://www.howstuffworks.com/c.htm


PRACTICALS

Code: BTX01208 ENGINEERING PHYSICS LAB-I 2 Credits [LTP : 0-0-2] LIST OF EXPERIMENTS:

Code: BTX01209 ENGINEERING CHEMISTRY LAB-I 1 Credit[LTP : 0-0-2]

LIST OF EXPERIMENTS:

1. To determine the wave length of monochromatic light with the help of Fresnel’s Biprism /Michelson’s

Interferometer.

2. To determine the wave length of Sodium light by Newton’s Ring

3. To determine the specific rotation of Glucose (Sugar) solution using a Polarimeter

4. To determine the wave length of prominent lines of mercury by plane diffraction grating with the help of

spectrometer

5. To convert a Galvanometer in to an Ammeter of range 1.5 amp and calibrate it

6. To convert a Galvanometer in to a Voltmeter of range 1.5 volt and calibrate it

7. To study the variation of a semiconductor resistance with temperature and hence determine the Band Gap of

the semiconductor in the form of reverse biased P-N junction diode.

8. The production and verification of EPL

9. To verify the expression for the resolving power of Telescope

10. To study the variation of thermo EMF of iron copper thermo couple with temperature. OR to calibrate an

ammeter/voltmeter with the help of a potentiometer.

ROUTER 1 1. Proximate analysis of solid fuel.

2. To determine the strength of CuSO4 solution with the help of hypo solution.

3. To determine the strength of Ferrous Ammonium sulphate solution with the help of K2Cr2O7. solution

using potassium ferricyanide as external indicator.

4. To determine the strength of Ferrous Ammonium sulphate solution with the help of K2Cr2O7 solution

using diphenyl amine as internal indicator.

5. To determine the strength of NaOH and Na2CO3 in a given alkali mixture.

6. To determine the acid value of a given oil.

ROUTER 2

7. To determine the viscosity of a given lubricating oil by Redwood viscometer.

8. To determine the flash and fire point of a given lubricating oil.

9. To determine the cloud and pour point of a given oil.

10. To determine the calorific value of a fuel by Bomb Calorimeter.

11. To determine the amount of nitrate/ fluoride in given water sample by Spectrophotometer.

12. To determine the Saponification No. of a given oil.


Code: BTX01210 WORKSHOP PRACTICE 1 Credit[ LTP:0-0-2]


List of Jobs to be made in the Workshop Practice

1. Carpentry Shop Timber, definition, engineering applications, seasoning and preservation

Plywood and ply boards

2. Foundry Shop Moulding Sands, constituents and characteristics

Pattern, definition, materials types, core prints

Role of gate, runner, riser, core and chaplets

Causes and remedies of some common casting defects like blow holes, cavities, inclusions

3. Welding Shop Definition of welding, brazing and soldering processes and their applications

Oxyacetylene gas welding process, equipment and techniques, types of flames and their applications

Manual metal arc welding technique and equipment, AC and DC welding

Electrodes: Constituents and functions of electrode coating, welding positions

Types of welded joints, common welding defects such as cracks, undercutting, slag inclusion and boring

4. Fitting Shop Files, materials and classification.

5. Smithy Shop Forging, forging principle, materials

Operations like drawing, upsetting, bending and forge welding

Use of forged parts

1. Carpentry Shop 1. T – Lap joint

2. Bridle joint

2. Foundry Shop 3. Mould of any pattern

4. Casting of any simple pattern

3. Welding Shop 5. MMA welding practice by students

6. Square butt joint by MMA welding

7. Lap joint by MMA welding

4. Machine Shop Practice 8. Job on lathe with one step turning and chamfering operations

9. Job on shaper for finishing two sides of a job

10. Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping

5. Fitting and Smithy Shop 11. Finishing of two sides of a square piece by filing

12. Tin smithy for making mechanical joint and soldering of joint


Code: BTX01211 ELEC & ELECTRONICS ENGINEERING LAB 1 Credit[LTP: 0-1-2]

Code: BTX01212 PRACTICAL GEOMETRY 1.5 Credit [LTP: 0-1-2] (Theory Concepts)

(Practical Concepts)

Electrical Lab 1. Assemble house wiring including earthing for 1-phase energy meter, MCB, ceiling fan, tubelight, three pin

socket and a lamp operated from two different positions. Basic functional study of components used in house

wiring.

2. Prepare the connection of ceiling fan along with the regulator and vary the speed.

3. Prepare the connection of single phase induction motor through 1-Phase Auto-transformer and vary the speed.

4. Prepare the connection of three phase squirrel cage induction motor through 3-Phase Autotransformer and vary

the speed

5. Prepare the connection of Fluorescent Lamp, Sodium Vapour and Halogen Lamp and measure voltage, current

and power in the circuit.

Electronics Lab 6. Identification, testing and application of Resistors, Inductors, Capacitors, PN-Diode. Zener Diode, LED, LCD,

BJT, Photo Diode, Photo Transistor, Analog/Digital Multi- Metres and Function/Signal Generator.

7. Measure the frequency, voltage, current with the help of CRO.

8. Assemble the single phase half wave and full wave bridge rectifier & the analyse effect of L,C and L-C filters in

rectifiers.

9. Study the BJT amplifier in common emitter configuration. Measure voltage gain plot gain frequency response

and calculate its bandwidth.

10. Verify the truth table of AND, OR, NOT, NOR and NAND gates.

1. Lines, Lettering and Dimension (Sketch Book)

Scales: Representative Factor, plain scales, diagonal scales, (In sheet)

2. Conic Sections: Construction of ellipse, parabola and hyperbola by different methods( in sheet) Engineering Curves:

Construction of Cycloid, Epicycloids, Hypo-cycloid( in sheet)

3. Type of Projection , Orthographic projection: first angle and third angle projection( in sheet)

Projection of Points

Projection of Straight lines

Projection of planes : Different positions of plane lamina like: regular polygon, circle of three planes( four problems in

drawing sheet)

Projection of Solids: Projection of right and regular polyhedron , cone (four problem in drawing sheet)

4. Sections of Solids: Projection of Frustum of a cone and pyramid( in sheet)

5. Development of Surfaces: Parallel line and radial line method for right solids, Regular Solids ( in sheet)

Isometric Projections: Isometric Scale, Isometric axes, Isometric View of geometrical shapes (in sheet)

6. Introduction

Line(coordinate Methods)

Dimension

Scale

7. Rectangle

Conic Section

Construction of ellipse, Parabola & Hyperbola ,Polygon

Circle

8. AutoCAD commands (copy, Mirror, Move, Array, Block, Group, Join, Hatch etc.)

9. Type of Projection , Orthographic projection: First Angle and Third Angle projection

Projection of Points

Projection of Straight lines, different positions of straight lines

Projection of planes

Projection of Solids: projection of right and regular polyhedron and cone

10. Section of solids: projection of frustum of a cone and pyramid

Isometric projections


Code: BTX01213 FUNDAMENTALS OF COMPUTER LAB 1 Credit[LTP:0-0 -2]

LIST OF EXPERIMENTS: Hardware Concepts

1. Demonstration of CPU Configuration, Formatting Computer System

Installing Operating Systems and Basic Software

MS – Word 2. Prepare a document about any tourist destination of your choice with appropriate pictures and editing features.

3. Prepare a News Paper Layout. Insert appropriate pictures wherever necessary. Use the following Features:

Three Column and Four Column setting

Set One or Two Advertisements

Use Bullets and Numbering.

4. Create a Document consisting of Bio-data. It includes

A table giving your qualification and/or experience of work. Table should be Bordered and Shaded.

A Multilevel list giving your areas of interest and further areas of interest. The sub areas should be

numbered as ‘a’, ‘b’, etc while the areas should be numbered as ‘1’, ‘2’, etc.

The information should be divided in “General” and “Academic” sections.

The header should contain “BIO-DATA” while the footer should have page numbers in the format

Page 1 of 10.

Assign a password for the document to protect it from unauthorized access.

5. Assume that you are coordinating a seminar in your organization. Write a letter to 10 different IT companies

asking them to participate in the seminar using mail merge facility.

6. Prepare a document which contains template of marks card of students. Assume that there are 10 students. The

footer for the document should be ‘Poornima University Jaipur”.

7. Prepare a document about any topic In mathematics which uses mathematical symbols. (At least 5

mathematical symbols should be used). Assign a password for the document to protect it from unauthorized

access. Demonstrate the use of Hyperlink Option. Sets margins to your document, a font of size and double

spaced document.

MS-EXCEL 8. Open a new workbook, save it as JavaCoffeeBar.xls. In sheet1 write following sales data for Java Coffee bar to

show their First 6 months sales.

Select cell B4:D4 and change the horizontal alignment to center and text to 90 degree.

All titles should be in bold

Format all cells numbers to currency style and adjust width as necessary.

Add border to data.

Select the cell range A1:H1, merge and center these cells. Apply same format to A2:H2.

Give border, shading and pattern to data in sheet

Apply different font settings for all titles in sheet

Apply green color and bold setting to sales above 10000 (use conditional formatting)

Rename current worksheet as FirstHalfSales

9. Prepare a worksheet to maintain student information. The work sheet should Contain Roll Number, Name and

marks in 5 subjects. (Max Marks is 100).Validate the marks. Calculate the total marks. Assign the grade

according to the following.

Assign grade ‘A’ if the total marks is above 450. From 401 to 449 assign the grade as “B”. From 351 to 400

assign the Grade as C. From 300 to 350 the grade to be assigned is ‘D’. For the total marks less than 300 No

grade is assigned. A student is eligible to get a grade only when he gets 40 and above in all the subjects. In such

cases the grade is “FAIL”. (Assume that there are 10 students).

10. Prepare a pay-bill using a worksheet. The work sheet should contain Employee Id, Name, Designation,

Experience and Basic Salary and Job ID. If Job Id is 1 then DA is 40% of the basic salary. HRA is Rs. 4500. If

Job Id is 2 then DA is 35% of the basic salary. HRA is Rs. 3500. If Job Id is 3 then DA is 30% of the basic


salary. HRA is Rs. 2500. If Job Id is 4 then DA is 25% of the basic salary and HRA is RS.2500. For all the

other Job ids DA is 20% of the basic salary and HRA is Rs. 1500. For all the above Job ids PF to be deducted is

4%. For the job ids between 1-4 Rs. 100 to be deducted as Professional Tax. Find the net pay.

11. For the above employee worksheet perform the following operations

1. Use filter to display the details of employees whose salary is greater than 10,000.

2. Sort the employees on the basis of their net pay

3. Use advance filter to display the details of employees whose designation is “Programmer” and Net Pay is

greater than 20,000 with experience greater than 2 yrs.

12. Using Excel project the Product sales for any five products for five years.

Compute the total sales of each product in the five years.

Compute the total sales of all the products in five year.

Compute the total sales of all products for each year.

Represent annual sale of all the products using Pie-Chart.

Represent annual sales of all products using Bar Chart.

Represent sale of a product for five years using Pie-Chart.

Label and format the graphs MS-POWERPOINT

13. Assume that you are going to give a presentation about Information Technology. (Choose some latest

technologies). The presentation should have minimum 10 slides. Insert appropriate images wherever necessary.

Use proper formatting, Diagrams and tables. Show the usage of action buttons, hyperlinks, and animations.


Code: BTX01214 SOFT SKILLS-I 1 Credit [ LTP : 0-0-2]

LIST OF ACTIVITIES

CODE: BTX01615 Discipline and Talent Enrichment Programme (TEP)-I 2 Credits

OVERVIEW AND OBJECTIVES The objective of Discipline and TEP is to provide students with the opportunities to

enhance job fetching skills and at the same time to cultivate the student’s personal interests and hobbies while maintaining

the good disciplinary environment in the University. TEP is integrated into the curriculum for holistic development of

students through active participation in various activities falling in Technical and non technical categories.

Discipline and Talent Enrichment Programme (TEP) -I shall be evaluated irrespective of period/time allocation (as in the

case of Extra Curricular activity) in the teaching scheme as a TWO credit course. The record related to discipline and

related activities are maintained for each student and they shall be evaluated for the same also. It shall be counted in

calculation of SGPA but it is not a backlog subject. However, the attendance of these classes shall be recorded and

accounted in the total attendance.

Activities included in this category in the First Semester are as follows:

Code Activity Hours Credits BTX01615.1 Non Syllabus Project (NSP) 1

2 BTX01615.2 Online Eligibility Exam(OLE) 1

BTX01615.3/15.4 Library / Internet 1

BTX01615.5 Extra Curricular Activities 1

1. Self Introduction & knowing your environment

2. GOAL Setting &Planning

3. Time Management & Team Work

4. Personal Grooming and Body language

5. Etiquettes (Personal, Social, Professional & Corporate) etiquettes

6. Reading skills: General & Technical Articles

7. Listening Skills: Analysis of videos by famous Personalities

8. Writing Skills: Picture perception & Story Making by jumbled words

9. Speaking Skills: Extempore, JAM & Me against myself

10. Role Plays

11. Resume Writing


Second semester Core theory subjects

Code: BTX02101 ENGLISH- II 2 Credits [LTP: 2-0-0] A. OUTLINE OF THE COURSE


Unit No. Title of the unit Time Required for the Unit (Hours) 1. Advanced Grammar 4 2. Applied Grammar 6 3. Composition 4 4. Reading fiction 6 5. Communication 4

Unit Contents 1. Advanced Grammar Introduction of Unit

Question Tag

Modal verbs

Active and passive voice

Punctuations

Conclusion of Unit

2. Applied Grammar Introduction of Unit

Idioms and phrases

Confusing words

Synonyms and Antonyms

Direct and indirect speech

One word substitution

Conclusion of Unit

3. Composition- II Introduction of Unit

Report writing

Review writing

Conclusion of Unit

4. Reading Skills Introduction of Unit

Second Opinion- R.K. Narayan

Kabuliwala – Rabindranath Tagore

Conclusion of Unit

5. Communication Introduction of Unit

Definition, meaning, significance and objectives

Types of communication

Characteristics and principles

Process of Communication

Common barriers to Communication and overcoming them

Communication structure in an organization

Conclusion of Unit


Code: BTX02102 ENGINEERING PHYSICS- II 4.5 Credits [LTP: 4-1-0]


Unit No. Title of the unit Time required for the Unit (Hours) 1. Quantum Mechanics and applications of Schrodinger’s

Equation 11

2. Coherence & Optical Fibre 9 3. Laser & Holography 9 4. Nuclear Radiation Detectors 9 5. Electrodynamics 10


Unit Unit Details 1. Quantum Mechanics and Applications Of Schrodinger’s Equation


Inadequacy of classical mechanics, wave and particle duality of radiation

De Broglie concept of matter waves

Heisenberg’s uncertainty principle

Compton Effect and quantum nature of light

Derivation of time dependent and time independent Schrodinger’s wave Equation, physical interpretation of

wave function, boundary conditions, normalization of Wave functions, orthogonal of wave functions,

properties of wave functions, Expectations value, particle confined in one dimensional infinite potential well,

Energy Eigen values and Eigen functions

Application of Schrodinger’s Equation

Particle in three-dimensional box and degeneracy

Conclusion of Unit

2. Coherence & Optical Fibre Introduction of Unit

Coherence: Spatial and temporal coherence

o Coherence length, coherence time and ‘Q’ factor for light

o Visibility as a measure of coherence

o Temporal coherence and spectral purity

Optical Fibre: Optical Fibre (construction) and optical wave guide (principle and propagation of light in

optical fibre)

o Numerical Aperture and maximum angle of acceptance

o Types of optical fibre (on the basis of modes and the refractive index of the medium)

o Applications of optical fibre

o V-Number (smf & mmf)

Conclusion of Unit

3. Laser & Holography Introduction of Unit

Theory of laser action: Einstein’s Coefficients, Components of laser, Threshold conditions for laser action

Theory, Design and Applications of He-Ne Laser and Semiconductor lasers

Holography: Holography versus photography, Basic theory of holography, Basic requirement of holographic

laboratory

Applications of holography in microscopy and Interferometry

Conclusion of Unit

4. Nuclear Radiation Detectors Introduction of Unit

Characteristics of Gas filled detector: General considerations, Principle, Construction

Working and Properties of: Ionisation chamber, Proportional counter,

G.M. counter and Scintillation counter

Comparison between Ionisation chamber & G. M. counter

Comparison between Proportional counter & G.M. counter

Conclusion of Unit




1. Quantum Mechanics Schiff 3rd Tata Mc Graw-Hill

2. Nuclear Physics: Principles & Applications Johan Lilley Wiley India

3. Modern Engineering Physics A.S.Vasudeva 6th S.Chand& co.

4. Laser and Applications Thiagarajan 8th TMH

5. Laser K.R.Nambiar 2008 New Age International

6. Nuclear Physics D.C. Tayal 3rd Himalaya Publishing House

7. Modern Engg. Physics S.L.Gupta&SanjeevGupta DhanpatRai Publication

8. Engineering Physics R.K.Gaur&S.L.Gupta DhanpatRai Publication

9. An introduction to Laser Theory &

Applications

M.N. Avadhanulu S.Chand & Co.

10. Atomic & Nuclear Physics Brijlal, Subrahmanyam S.Chand & Co.

5. Electrodynamics

Introduction of unit

Scalar and vector fields

Definitions of gradient, divergence and curl

Maxwell’s equations

Boundary conditions

Wave equation and its solution for free space

Nature of E.M. waves, Poynting vector

Conclusion of unit


Code: BTX02103 CHEMISTRY & ENVIRONMENTAL ENGINEERING-II 4 Credits [LTP: 4-0-0]


Unit No. Title of the unit Time required for the Unit (Hours) 1. Water and Water Analysis 10 2. Water Technology 10 3. Corrosion , its control and Phase rule 9 4. Polymer and Glass 9 5. Environmental pollution and Disaster Management 10


Unit Unit Details 1. Water and Water Analysis


Water

Sources of water, Impurities in water and effect of impurities

Municipal water supply: Requisites of drinking water, Steps involved in purification of water, Sedimentation,

Coagulation, Filtration and Disinfection, Break Point Chlorination

Water Analysis

Hardness of water; Type of hardness , Degree of hardness, Units of hardness ,Disadvantages of hard water,

Determination of hardness by Clark’s test and Complexometric (EDTA) method , Numericals based on

hardness by EDTA method and Clark’s method

Conclusion of Unit

2. Water Technology Introduction of Unit

Boiler Troubles : Formation of solids (scale and sludge), Carry over (Priming and Foaming), Corrosion and

Caustic Embrittlement, Disadvantages and Prevention

Treatment of hard water: Lime-soda method, Permutit (zeolite) method and Deionization or Demineralization

method, Numerical problems based on Lime-soda and Zeolite softening methods

Desalination: Reverse osmosis, Electrodialysis

Conclusion of Unit

3. Corrosion , its control and Phase rule Introduction of Unit

Corrosion and its control Definition of corrosion and its Significance

Mechanisms of Corrosion: Chemical (Dry) corrosion and Electrochemical (Wet) corrosion

Types of corrosion: Galvanic corrosion, Concentration cell corrosion, Stress corrosion, Pitting corrosion

Factors affecting the rate of corrosion

Protection from corrosion : Material selection and design, Improvement of Environment , Coating of metallic

surface, Cathodic protection, Anodic protection, Electroplating, Tinning, Galvanization and Modification in

designs . Some practical examples of corrosion.

Phase Rule Statement, Definition of the terms involved

Application to one component system: Water and Sulphur systems

Reduced Phase Rule, Study of two components Ag-Pb system and its industrial application

Conclusion of Unit




1. Engineering Chemistry P.C. Jain Latest Dhanpat Rai & Sons

2. Engineering Chemistry. S. S. Dara Latest S. Chand & Co.

3. Chemistry in Engineering & Tech. Rajaram, Kuriacose Latest Tata McgrawHill

4. Physical Chemistry P.W. Atkins Latest Oxford University Press.

5. Environmental Studies R. Rajagopalan Latest Oxford University Press

6. Principles of Environmental Science

and Engineering

P. Venugoplan Rao Latest Prentice Hall of India.

7. Environmental Science and Engineering P. Meenakshi Latest Prentice Hall India.

8. Environmental Studies Benny Joseph Latest Tata McgrawHill

Important Web Links: 1. en.wikipedia.org/wiki/Chemist

2. http://www.chemweb.com/

3. http://www.epa..gov

4. Polymer and Glass Introduction of Unit

Polymers Introduction to Polymer chemistry:, Classification of Polymers and Types of polymerization

Plastics: Constituents of plastics , Thermosets and Thermoplastics, Preparation, Properties and Uses of

Polyethylene, Bakelite, Teflon, Terylene and Nylon

Elastomers: Natural rubber, Vulcanization, Synthetic rubber- Preparation, Properties and Applications of SBR,

Buna-N, Butyl and Neoprene rubber.

Glass

Introduction

Definition of glass, its Properties, Manufacturing of glass, Importance of annealing in glass making, Types of

silicate glasses and their commercial uses.

Conclusion of Unit

5. Environmental Pollution and Disaster Management


Environmental Pollution Definition and adverse effects of Air pollution, Water pollution, Soil pollution, Noise pollution, Thermal

pollution, Radioactive pollution (in brief) and Environmental acts.

Waste water treatment : Need and the methods used for Disposal of treated water

Solid waste management: Classification of solid waste, Treatment and Disposal of solid waste

Disaster Management Type of Disasters: Natural and Manmade ( Earthquake, Cyclone, Flood, Tsunami, Landslide, Nuclear &Fire

disaster), one or two case studies related to each disaster (India & World)

Disaster Management Cycle and its components

Conclusion of Unit

http://www.chemweb.com/


Code: BTX02104 ENGINEERING MATHEMATICS - II 3.5 Credit[LTP:3-1-0]


Unit No. Title of the Unit Time required for the Unit (Hours) 1. Ordinary Differential Equations 7 2. Second Order Linear Differential Equations 7 3. Fourier Series and Partial Differential Equations 7 4. Vector Calculus 7 5. Application of Vector Calculus and 3-D Geometry 8


C. RECOMMENDED STUDY MATERIAL: Sr.No Reference Book Author Edition Publication

1. Higher Engineering Mathematics B S Grewal 41st Khanna Publications, Delhi,

2. Higher Engineering Mathematics Ramana, B.V 2006 Tata McGraw-Hill.

3. Engineering Mathematics: A Tutorial Approach Ravish R Singh and M Bhatt 2009 Tata McGraw-Hill

4. Calculus and Analytical Geometry Thomas and Finney, Narosa Publishing, Delhi

5. Advanced Engineering Mathematics Erwin Kreyszig 9th John Wiley and Sons

Important Web Links: 1. http://mathworld.wolfram.com/

2. http://en.wikipedia.org/wiki/Math

Unit Unit Details 1. Ordinary Differential Equations


First order and first degree differential equations-Linear Equation and reducible to linear form, Exact Equation

and reducible to exact form

Linear differential equations with constant coefficients

Conclusion of Unit

2. Second Order Linear Differential Equations Introduction of Unit

Homogeneous and Exact forms

Change of dependent and independent variable

Normal form, Variation of parameters

Application of second order differential equation - Electric circuits, Deflection of beam, etc.

Conclusion of Unit

3. Fourier Series and Partial Differential Equations


Fourier Series - Expansion of simple functions in Fourier Series

Half range Fourier Sine and Cosine Series

Change of interval, Harmonic Analysis

Partial differential equations of first order- Lagrange’s form, Standard forms, Charpit’s method

Conclusion of Unit

4. Vector Calculus


Scalar and Vector field

Differentiation and Integration of Vector functions

Gradient, Divergence and Curl, Directional derivatives

Line, Surface and Volume integral

Conclusion of Unit

5. Application of Vector Calculus and 3-D Geometry Introduction of Unit

Gauss, Stokes and Green theorem (without proof)- verification and applications

Equation of a Sphere, Intersection of a Sphere and a Plane, Tangent Plane, Orthogonal intersection of two

Spheres

Right circular cone and Right circular cylinder

Conclusion of Unit


Code: BTX02105 ELECTRICAL & ELECTRONICS ENGINEERING 4.5 Credits [LTP: 4-1-0]



Unit No. Title of the Unit Time required for the Unit (Hours) 1. Basic Concepts of Electrical Engineering 9 2. Alternating Quantities 9 3. Energy Conversion and Electrical Machines 9 4. Basic Electronics 8 5. Communication Systems 9

Unit Unit Details 1. Basic Concepts of Electrical Engineering Introduction of Unit

Basic Concepts Electric Current, Electromotive Force, Electric Power, Ohm’s Law, Basic Circuit Components,

Faraday’s Law of Electromagnetic Induction.

DC Network Analysis & Theorems Kirchhoff’s Laws, Network Sources, Resistive Networks, Series-Parallel Circuits, Star-Delta

Transformation, Node Voltage Method, Mesh Current Method, Super- Position, Thevenin’s, Norton’s and

Maximum Power Transfer Theorems.

Conclusion of nit

2. Alternating Quantities


Single Phase AC system Introduction, Generation of AC Voltages, Root Mean Square and Average Value of Alternating

Currents and Voltages, Form Factor, Peak Factor, Power Factor and Quality Factor, Phasor

Representation of Alternating Quantities, Single Phase RLC Circuits.

Three Phase AC system Introduction, Merits of Three Phase System, Generation and Waveform.

Conclusion of Unit

3. Energy Conversion and Electrical Machines Introduction of Unit

Introduction to Energy Types of Energy, Introduction to Energy Conversion, Sources of Energy (Conventional & Non

Conventional), Energy Scenario in India & Rajasthan.

Rotating Machines 1. DC Machines:

Principle of Operation of DC Machine as Motor and Generator, EMF Equation,

Applications of DC Machines.

2. AC Machines:

Principle of Operation of 3-Phase Induction Motor, 3-Phase Synchronous Motor and 3-

Phase

Synchronous Generator (Alternator), Applications of AC Machines.

Stationary Machines Introduction, Construction and Principle of Working of Transformer, EMF Equation, Voltage

Transformation Ratio.

Conclusion of Unit

4. Basic Electronics Introduction of Unit

Semiconductor Devices: Conduction in Semiconductors, Conduction Properties of Semiconductor Diodes,

Behavior of the PN Junction, PN Junction Diode, Zener Diode, LED, Photovoltaic Cell, Rectifiers, L, C, &

L-C filters, BJT, UJT, Transistor as an Amplifier.



Sr.No Reference Book Author Edition Publication 1. Electrical and Electronic Technology Edward Hughes et al, Pearson Publication

2. Basic Electrical & Electronics Engineering V. Jagathesan, K. Vinod Kumar

& R. Saravan Kumar

Wiley India

3. Basic Electrical & Electronics Engineering Van Valkenburge Indian Cengage learning

4. Basic Electrical and Electronics Engineering

by,

Muthusubrmaniam TMH

5. Basic Electrical & Electronics Engineering Ravish Singh TMH

Important Web Links

3. http://www.facstaff.bucknell.edu

4. engineersphere.com/basic-electrical-concepts

Digital Electronics: Boolean algebra, Binary System, Logic Gates and Their Truth Tables.

Conclusion of Unit

5. Communication Systems Introduction of Unit

Basics of Communication: Introduction, IEEE Spectrum for Communication Systems, Types of

Communication, Amplitude and Frequency Modulation.

Basics of Instrumentation: Introduction to Transducers, Thermocouple, RTD, Strain Gauges, Load Cell

and Bimetallic Strip, Introduction and Classification of ICs.

Conclusion of Unit


Code: BTX02106 ENGINEERING MECHANICS 4.5 Credits [LTP: 4-1-0]



Unit No. Title of the Unit Time required for the Unit (Hours) 1. Fundamentals of Mechanics 9 2. Machine & Moment of Inertia 9 3. Friction & Belt Drive 8 4. Dynamics of Particles 9 5. Work, Power & Impact 9

Unit Unit Details 1. Fundamentals of Mechanics


Fundamental laws of mechanics, Principle of transmissibility

System of forces, Resultant force, Resolution of force

Moment and Couples, Varignon’s Theorem, Resolution of a force into a force and a couple, Free body

diagram

Equilibrium, Conditions for equilibrium, Lami's theorem.

Virtual work: Principle of Virtual Work, Active forces and active force diagram

Conclusion of Unit

2. Machine & Moment of Inertia Introduction of Unit

Lifting Machines: Mechanical advantage, Velocity Ratio, Efficiency of machine, Ideal machine, Ideal effort

and ideal load, Reversibility of machine, Law of machine, Lifting machines

Pulleys: System of Pulleys, Simple wheel and axle, Wheel and differential axle, Weston’s differential pulley

block

Centroid & Moment of Inertia: Location of centroid and center of gravity, Moment of inertia, Parallel axis

and perpendicular axis theorem, Radius of gyration, M.I of composite section, Polar moment of inertia, M.I

of solid bodies.

Conclusion of Unit

3. Friction & Belt Drive Introduction of Unit

Friction: Types of Friction, Laws of friction, Angle of friction, Angle of repose, Ladder, Wedge, Belt

Friction

Belt Drive: Types of belts, Types of belt drives, Velocity ratio, Effect of slip on Velocity ratio, Length of

belt, Ratio of tensions and power transmission by flat belt drives.

Conclusion of Unit

4. Dynamics of Particles Introduction of Unit

Kinematics of Particles and Rigid Bodies: Velocity, Acceleration, Types of Motion, Equations of Motion,

Rectangular components of velocity and acceleration, Angular velocity and Angular acceleration, Radial and

transverse velocities and accelerations, Projectiles motion on plane and Inclined Plane, Relative Motion.

Kinetics of Particles and Rigid Bodies: Newton's laws, Linear Momentum, Linear Impulse , Equation of

motion in rectangular coordinate, radial and transverse components, Equation of motion in plane for a rigid

body, D'Alembert principle.

Conclusion of Unit

5. Work, Power & Impact Introduction of Unit

Work, Energy and Power: Work of a force, weight, spring force and couple, Power, Efficiency, Energy,

Kinetic energy of rigid body, Principle of work and energy, Conservative and Non-conservative Force,

Conservation of energy. Impact: Collision of elastic bodies, types of impact, conservation of momentum, Newton’s law of collision,




1. Vector Mechanics for Engineers Beer and Johnston Latest Tata McGraw Hill

2. Engineering Mechanics D S Kumar Latest S K Kataria & Sons

3. Engineering Mechanics Statics Meriam, J. L. & Kraige, L. G Latest John Wiley & Son

4. Engineering Mechanics S. Ramamruthan Latest Dhanpat Rai Pub.

5. Engineering Mechanics Shames Latest Pearson Education

Important Web Links

3. http://nptel.iitm.ac.in/courses/Webcourse-contents/IITDelhi/Mechanics%20Of%20Solids/ index.htm

4. http://nptel.iitm.ac.in/video.php?subjectId=105106116

coefficient of restitution, loss of kinetic energy during impact.

Conclusion of Unit


Code: BTX02107 PROGRAMMING IN C 3 Credits [LTP: 3-0-0]



Unit No. Title of the unit Time Required for the Unit (Hours) 1. Introduction to C Language 7 2. Control statements 7 3. Array & Strings 7 4. Functions and Pointers 7 5. Structures , Union and File Handling 8

Unit Unit Details 1. Introduction to C Language

Introduction to Unit

Introduction of ‘C’

C Standard Library (stdio.h, stdlib.h, conio.h, ctype.h, math.h, string.h, process.h)

Compilation Process (Intermediate Code, Object Code, Executable Code)

Language Fundamentals (Character set, Tokens, Keywords, Identifiers, variables, constant, data types,

typedef , command line arguments)

Operators (Arithmetic operators, unary operators, relational operator, logical operator, assignment

operator, conditional operator, bit operator) and Expressions, Type Casting

Introduction to C Preprocessor (# include, # define), Macro Substitutions Directives

Console based and built in I/O Functions (Printf (), scanf (), getch (), getchar (), putchar())

Conclusion of unit

2. Control Statements Introduction of Unit

If Statement, If….Else Statement, Nested If….Else Statement

While Statement, Do-while Statement, For Statement

Switch Statement, Nested Statement, Other Statements (Break, Continue, Goto, Exit)

Storage classes (Automatic, External, Static and Registers)

Conclusion of Unit

3. Array & String Introduction of Unit

Introduction of Array: Definition, Declaration and Initialization of array

Accessing and Displaying Array

Memory Representation of Array –One Dimensional and Multidimensional Array

Introduction of String: Definition, Declaration and Initialization of String

Standard Functions (Strlen (), Strcat (), Strcmp (),Strrev(),Strupr(),Strlwr())

Conclusion of Unit

4. Functions and Pointers Introduction to unit

Introduction of Functions: Definition, Declaration and Scope

Function Call, Parameter Passing (Call by Value, Call by Reference)

Recursion

Passing Array, String into Function

Introduction to Pointers: Definition and Declaration

Pointer Arithmetic, Dynamic Memory Allocation

String and Pointers, Structure and Pointers, Array of Pointer

Conclusion of Unit

5. Structure & Union and File Handling


Introduction to Structure: Definition, Declaration, Accessing Fields



Sr.No Reference Book Author Edition Publication 1. Let us ‘C’ Yashwant Kanitkar - -

2. Programming in ANSI ‘C’ Balagurusamy, E - -

Important Web Links 1. www.cprogramming.com

2. www.howstuffworks.com

3. www.programmingsimplified.com

Nested Structures

Introduction to Union: Definition and Declaration

Differentiate between Structure and Union

Introduction of File Handling: Definition, Opening Modes of Files

Standard Function (fopen(), fclose(), feof(), fseek(), rewind(), fprintf(),fscanf())

Conclusion of Unit


PRACTICALS

Code: BTX02208 ENGINEERING PHYSICS LAB-II 1 Credit [LTP: 0-0-2]

LIST OF EXPERIMENTS 1 To Determine the height of a given line drawn on the wall by sextant

2 To determine the dispersive power of material of a prism for violet, red and yellow colourof mercury light with

the help of specometer.

3 To measure the numerical Aperature of an optical fibre by He-Ne laser

4 To study the characteristics of semiconductor diode and determineforward and reverse bias resistance

5 To study the charging and discharging of a condenser and hence determine time constant (both current and

voltage graphs are to be plotted)

6 To determine the high resistant by method of leakage , using a ballistic galvanometer.

7 To determine the dielectric constant by ballistic galvanometer.

8 To specify the specific resistant of a material of a wire by carey foster’s bridge.

9 To verify the laws of series/ parallel combination of resistant by carey foster’s bridge.

10 To determine the coherent length and coherent time of laser using He-Ne

Code: BTX02209 ENGINEERING CHEMSITRY LAB-II 1 Credit [LTP: 0-0-2]

LIST OF EXPERIMENTS

Rotor-I 1. To determine the hardness of water by HCl method.

2. To determine the hardness of water by EDTA method.

3. To determine CO2 in a given water sample.

4. To determine free chlorine in a given water sample.

5. To determine residual chlorine in a given water sample.

6. To determine dissolved O2 in a given water sample.

Router-II 7. Determination of Turbidity by using Turbidity Meter.

8. Measurement of pH of a given sample by pH-Meter.

9. Measurement of Conductivity/TDS of a given sample by Conductivity Meter

10 Determination of barium as barium sulphate gravimetrically.

11 Synthesis of Bakelite

12 To determine the amount of sodium and Potassium ina given water sample by Flame Photometer


Code: BTX02211 ELECTRICAL AND ELECTRONICS ENGINEERING LAB 1 Credit [LTP: 0-0-2]


Code: BTX02211 WORKSHOP PRACTICE 1 Credit [LTP: 0-0-2]


List of Jobs to be made in the Workshop Practice

Electrical Lab 1. Assemble house wiring including earthing for 1-phase energy meter, MCB, ceiling fan, tube light, three pin

socket and a lamp operated from two different positions. Basic functional study of components used in house

wiring.

2. Prepare the connection of ceiling fan along with the regulator and vary the speed.

3. Prepare the connection of single phase induction motor through 1-Phase Auto-transformer and vary the speed.

4. Prepare the connection of three phase squirrel cage induction motor through 3-Phase Autotransformer and vary

the speed.

5. Prepare the connection of Fluorescent Lamp, Sodium Vapour and Halogen Lamp and measure voltage, current

and power in the circuit.

Electronics Lab 6. Identification, testing and application of Resistors, Inductors, Capacitors, PN-Diode. Zenger Diode, LED, LCD,

BJT, Photo Diode, Photo Transistor, Analog/Digital Multi- Metres and Function/Signal Generator.

7. Measure the frequency, voltage, current with the help of CRO.

8. Assemble the single phase half wave and full wave bridge rectifier & the analyse effect of L, C and L-C filters

in rectifiers.

9. Study the BJT amplifier in common emitter configuration. Measure voltage gain plot gain frequency response

and calculate its bandwidth.

10. Verify the truth table of AND, OR, NOT, NOR and NAND gates

1. Carpentry Shop • Timber, definition, engineering applications, seasoning and preservation

• Plywood and ply boards

2. Foundry Shop • Moulding Sands, constituents and characteristics

• Pattern, definition, materials types, core prints

• Role of gate, runner, riser, core and chaplets

• Causes and remedies of some common casting defects like blow holes, cavities, Inclusions

3. Welding Shop • Definition of welding, brazing and soldering processes and their applications

• Oxyacetylene gas welding process, equipment and techniques, types of flames and their applications

• Manual metal arc welding technique and equipment, AC and DC welding

• Electrodes: Constituents and functions of electrode coating, welding positions

• Types of welded joints, common welding defects such as cracks, undercutting, slag inclusion and boring.

4. Fitting and Machine shop Files, materials and classification.

Study and classification of lathe.

5. Smithy Shop • Forging, forging principle, materials

• Operations like drawing, upsetting, bending and forge welding

• Use of forged parts


Code: BTX02212 MACHINE DRAWING 1 Credit [LTP: 0-0-2]

A. LIST OF EXPERIMENTS

B. RECOMMENDED STUDY MATERIAL

Sr.No Reference Book Author Edition Publication 1. Machine Drawing Lakshminarayan Jain Brothers

2. Machine Drawing N.D.Bhatt Charotar Publishing House Pvt. Ltd

1. CARPENTRY SHOP 1. Making of T-Lap joint

2. Making of Bridle joint

2. FOUNDRY SHOP 3. Mould of any pattern

4. Casting of any simple pattern 3. WELDING SHOP

5. MMA welding practice by students

6. Square butt joint by MMA welding

7. Lap joint by MMA welding

4. MACHINE SHOP PRACTICE 8. Job on lathe with one step turning and chamfering operations

9. Job on shaper for finishing two sides of a job

10 Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping

5. FITTING AND SMITHY SHOP 11 Finishing of two sides of a square piece by filing

12 Tin smithy for making mechanical joint and soldering of joint

1. Introduction to machine drawing

2. Dimensioning, locations and placing

3. Orthographic projections: First & third angle methods

Sheet 1: Orthographic Projections (3 Problems)

Sheet 2: Sectional Views (3 Problems)

Sheet 3: Riveted joints, lap joints, butt joints, chain riveting, zig-zag riveting

Sheet 4: Screw fasteners, different threads, Nuts & bolts locking devices, set screws, foundation

Sheet 5: Bearing, Plumber block

4. Instructions on free hand sketches

List of free hand sketches

• Different type of lines

• Conventional representation of materials

• Screw fasteners

• Bearing: Ball, roller, needle, foot step bearing

• Coupling: Protected type, flange, and pin type flexible coupling

• Welded joints

• Belts and pulleys

• Pipes and pipe joints

• Valves


Code: BTX02213 COMPUTER PROGRAMMING LAB 1 Credit [LTP: 0-0-2]

LIST OF EXPERIMENTS

Rotor-I 1 Introduction to Turbo ’C’ and Study of C Header files

2 Programs based on operators (arithmetic, relational, increment, decrement, conditional, logical)

a) WAP to add two numbers.

b) WAP to calculate simple interest.

c) WAP to find area of circle using Macro Substitution.

d) WAP to find whether a given number is Armstrong number or not.

e) WAP to calculate a factorial of a given number.

f) WAP to check whether a given number is palindrome or not.

g) WAP to print the multiples of n number.

3 Branching statement programs using ‘C’

a) WAP to find maximum of two numbers using if-else statement.

b) WAP to find maximum of three numbers using if-else statement.

c) WAP to find maximum of three numbers using AND operator.

d) WAP to check whether year is leap year or not.

e) WAP to check number is even or odd.

4 Programs based on looping (while, do while, for), nested loops based programs

a) WAP to print N natural numbers using while loop.

b) WAP to calculate sum of N natural numbers using while loop.

c) WAP to calculate sum of N natural numbers using do-while loop.

d) WAP to calculate factorial using while loop.

e) WAP to print days using switch case.

f) WAP to perform calculator using switch case.

g) Program to design patterns using for loop.

5 Program based on Array:

a) WAP to read/write using array.

b) WAP to calculate sum of entered numbers using array.

c) WAP for matrix addition.

Rotor-2

6 String/Character based exercises manipulation on strings

a) WAP to perform different operation using String.

7 Programs on user defined functions( arithmetic operation, arrays with pointers ,call by value , call by reference)

a) WAP to add two numbers using pointers.

b) WAP to swap two numbers using pointers.

c) WAP to add two numbers using call by reference method.

8 Program based on Recursion:

a) WAP to calculate factorial using recursion.

b) WAP to calculate power using recursion.

9 Programs on structure and union

a) WAP to maintain any student’s record and calculate percentage using structure

b) WAP to perform union.

10 Program on file handling

a) WAP to read a file using file handling.

b) WAP to read/write a file handling.


Code: BTX02214 LANGUAGE LAB 1 Credit [LTP: 0-0-2]

LIST OF EXPERIMENTS

Sr. No. Details 1. Listening Skills-Techniques of effective listening; listening to the audios and videos of famous personalities

then analysis of the same

2. Reading Comprehension- Strategies for Reading comprehension, Practicing Technical and Non Technical

3. Writing Skills- writing of story with jumbled words, writing of article

4. Phonetics-I: Introduction and Basic Concepts use of phonetics in English language; pronunciations

5. Grammar common errors & usage :Spotting errors, confusing words,

6. Conversation : listening of conversation through software; Doing conversation based on day to day life

7. Role Plays : on various situations based on various sectors.

8. Presentation Skills I: Elements of an effective presentation, Structure and tools of presentation ;body

language& voice Module

9. Presentation Skills II: Sample Presentation by students

10. Group Discussions: Key Points of Group Discussion; Live Group Discussion

11. Interview Skills: Concepts and process, pre-interview planning, opening and answering strategies, Interview

through telephone and video conferencing; Mock Interviews


Code: BTX02215 LIFE & CAREER SKILLS 0.5 Credit [ LTP : 0-0-1] LIST OF ACTIVITIES: 1. Introduction to Personality & Attitude

2. Entrepreneurial Trait; Role and Importance of Entrepreneurship 3. Career Exploration: Career Planning and Management, Latest Happenings

4. Self Management

5. Reading skills: Newspaper Review & movie Review

6. Listening Skills: Audio-Video Listening

7. Writing Skills: E-Mail Writing (do’s & don’ts, effective techniques)

8. Speaking Skills: Debate (do’s & don’ts, effective techniques)

9. Overview to core Human skills

10. Health & Safety tips

11. Resume writing

CODE: BTX02616 Discipline and Talent Enrichment Programme (TEP)-II 2 Credits

OVERVIEW AND OBJECTIVES The objective of Discipline and TEP is to provide students with the opportunities to

enhance job fetching skills and at the same time to cultivate the student’s personal interests and hobbies while maintaining

the good disciplinary environment in the University. TEP is integrated into the curriculum for holistic development of

students through active participation in various activities falling in Technical and non technical categories.

Discipline and Talent Enrichment Programme (TEP) -II shall be evaluated irrespective of period/time allocation (as in the

case of Extra Curricular activity) in the teaching scheme as a TWO credit course. The record related to discipline and related

activities are maintained for each student and they shall be evaluated for the same also. It shall be counted in calculation of

SGPA but it is not a backlog subject. However, the attendance of these classes shall be recorded and accounted in the total

attendance.Activities included in this category in the Second Semester are as follows:

Code Activity Hours Credits BTX02616.1 Online Eligibility Exam(OLE) 1

2 BTX02616.2 Extra Curricular Activities 1

*****

B.Tech. Batch 2014-18

Third Semester Detailed Syllabus

Department of Mechanical Engineering


PU/Batch 2014-18/3rd SEM/SYLLABUS/SET/B.Tech (ME) May 2015 Page | 2

POORNIMA UNIVERSITY B.Tech. Mechanical Engineering (Batch 2014-18)

Teaching Scheme for Third Semester (II Yr.)

Subject Code Subject Name

Teaching Scheme (Hrs per week)

Credits Lec (L)

Tut (T)

Prac (P)


BME03101 Material Science and Engineering 3 - - 3

BME03102 Engineering Thermodynamics 4 1 - 4.5

BME03103 Mechanics of Solids 4 1 - 4.5

BME03104 Manufacturing Processes 3 - - 3

BME03105 Engineering Mathematics-III 4 1 - 4.5

B. Department Electives (Theory)

Nil - - - -

C. Open Electives (Theory): ANY ONE BOE03121 Industrial Psychology and Sociology

3 - - 3

BOE03122 Nano Science and Technology BOE03123 Data Structure* BOE03124 Object Oriented Programming using C++*

BOE03125 Non Conventional Energy Sources

BOE03126 French Language

BOE03127 Basics of Engineering Applications

D. Practicals

BME03206 Material Science and Engineering Lab - - 2 1

BME03207 Thermal Engineering Lab - - 2 1

BME03208 Mechanics of Solid Lab - - 2 1

BME03209 Manufacturing Technology Lab-I - - 2 1

BME03210 Object Oriented Programming in C++ - - 2 1

BME03211 Soft Skills - II - - 2 1

E. Project / Seminar

Nil - - - -

F. Programmes / Activities

BME03612 Discipline and Talent Enrichment Programme (TEP) - III

2

BME03612.1 Non Syllabus Project (NSP) 2 - - -

BME03612.2 Online Eligibility Exam(OLE) 0.5 - - -

BME03612.3/12.4 Library / Internet 0.5 - - -

BME03612.5 Extra Curricular Activities - - - -

Total 24 3 12 30.5


*Not offered to Computer Engineering Students


CORE Theory Subjects

Code: BME03101 MATERIAL SCIENCE AND ENGINEERING 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVES:

Materials science is an interdisciplinary field applying the properties of matter to various areas of science and engineering. Course

demonstrates academic skills in the broad area of materials science and engineering that allow them to have successful careers in

engineering practice or subsequent graduate study.

Course have a strong foundation in materials science and engineering with emphasis on the fundamental scientific and Engineering

principles which maintain relevance over time and underlie the knowledge and implementation of material structure, processing,

properties, and performance of all classes of materials used in Engineering systems. Course is prepared to participate in all aspects

of Engineering design (electronic, atomistic, molecular, microstructure, microscopic, and macroscopic) that involve materials, as

well as participate in the design of material processes and systems.


Unit No. Title of the unit Time required for the Unit (Hours)

1. Classification of Engineering materials 7

2. Structure of Materials 9

3. Mechanical Properties and Testing 9

4. Equilibrium Diagrams 9

5. Heat Treatments 8


Unit Unit Details

1. Classification of Engineering materials


Engineering Materials: Alloy steels for various applications. Tool steel, Spring steel, Corrosion resistant steel.

Nonferrous alloys and their applications,

Non metallic Materials:-National and International Standards. Polymers – different types, their properties,

selection for various application, moulding techniques, Ceramics, Plastic Elastomers,

Advanced Materials; Introduction to composites, different types, properties and their applications. Introduction

to nano materials, Smart materials, cryogenic materials, Semiconductor, Magnetic materials, Dielectric materials,

Superconductor, Biomaterials, and their applications.

Conclusion of Unit including real life applications

2. Structure of Materials


Nature of metals and alloys, structure-property relationship, atomic structure, atomic bonds, atomic arrangements

in materials,

Crystalline structure of solids; crystal structure of metals, development of grain structure, Concept of unit cell

and space lattice; Crystal lattice of (i) Body centered cubic (ii) Face centered cubic (iii) Closed packed hexagonal,

crystallographic Notation of atomic planes and Directions (Miller Indices), Crystal structure determination by X-

ray diffraction ,optical method, Crystal structure of ferrous and non ferrous metals; polymorphism and allotropy,

Crystal imperfection.

Plastic Deformation: Mechanism of plastic deformation; Role of dislocation; Slip and Twinning; plastic

deformation in polycrystalline metals, Strain hardening and recrystallisation; Elementary cause and treatment of

creep fatigue and fracture, ductile and brittle fractures, cold working, recrystallization and hot working.


3. Mechanical Properties and Testing




1. Material science and metallurgy for

Engineers

Dr V.D.Kodgire Latest Vrinda Publications

2. Material Science. Narula and Gupta Latest New Age Publishers

. A Text Book of Material Science &

Metallurgy

O.P. Khanna, Latest Dhanpat Rai & Sons

4. Material Science and Engineering-An

Introduction

Callister W.D. Latest John Wiley & Sons. Delhi.

5. Engineering Materials Kenneth G. Budinski Latest Prentice Hall of India, New Delhi

6. Material Science & Engineering V. Raghvan Latest Prentice Hall of India, New Delhi

Websites

www.nptel.com

en.wikipedia.org/wiki/Materials science


Mechanical Properties; Static property, tensile test, engineering and true stress, true strain curves, evaluation of

properties and significance of test, typical engineering stress-strain diagrams,

Destructive Testing; compression test, cupping test on sheet metals. Hardness test- Brinell, Poldi, Vickers,

Rockwell superficial, Micro hardness test, Sceleroscope, Durometer, Mohr’s test, relationship among the various

hardness test, relationship of hardness to tensile strength, Dynamic properties, Impact tests, Charpy and Izod,

Fatigue test and the endurance limit, temperature effects, creep test, machinability, formability and weldability.

Non-destructive testing: Advantages and limitations of destructive and non-destructive testing, liquid penetrant,

magnetic particle inspection, and ultrasonic test, radiography and eddy current test.


4. Equilibrium Diagrams


Equilibrium Diagrams: Solidification of metals and of some typical alloys: Mechanism of crystallisation (I) nuclear

formation (ii) crystal growth. General principles of phase transformation in alloys, phase rule and equilibrium

diagrams, Equilibrium diagram of binary system having complete mutual solubility in liquid state and limited

solubility in solid state, Binary isomorphous alloy system, Hume-Rothery rule, Binary system with limited solid

solubility of terminal phase and in which solubility decreases with temperature and also alloy with a peritectic

transformation.

Equilibrium diagram of a system whose components are subject to allotropic change. Iron carbon Equilibrium

diagram, phase transformation in the iron carbon diagram

(i) Formation of Austenite

(ii) Transformation of Austenite into pearlite

(iii) Martensite transformation in steel, TTT curves.


5. Heat Treatments


Principles and applications of annealing, normalizing, hardening, tempering. Recovery and recrystallization.

Hardenability -its measures, variables, effecting Hardenability, methods, for determination of Hardenability. Over-

heated and Burnt steel, its causes and remedies. Temper brittleness -its causes and remedies.

Basic principles involved in heat treatment of plain carbon steel, alloy steels, cast iron and Non-ferrous metals and

their alloys. Chemical Heat treatment of steels: Physical principles involved in chemical heat treatment procedure

for carburizing, Nitriding, Cyaniding, carbo-nitriding of steel.



Code: BME03102 ENGINEERING THERMODYNAMCS 4.5 Credits [LTP: 4-1-0]


Engineering Thermodynamics is intended to be a comprehensive introduction to thermodynamics for Engineering sophomores.

Course makes understanding the basic thermodynamic principles, developing the skills to perform the analysis and design of

thermodynamic systems and finally developing the skills to accurately articulate thermodynamic issues using proper

thermodynamic concepts and technical language. Energy systems are fundamental not only in energy production but in many other

important aspects of engineering including the manufacturing of materials.

Course introduces students to real world energy systems and systematically develops analysis techniques for such systems. A

rigorously organized problem solution process is emphasized. Course has some working knowledge of thermodynamics and its

applications as a prerequisite, this course is structured so that each student can be given the opportunity to obtain the necessary

foundation.



1. Basic concepts of Thermodynamics 8

2. Entropy and Availability 9

3. Properties of Steam and Vapor Processes 9

4. Steam Cycles And Condensers 9

5. Fuels and Combustion 9


Unit Unit Details

1. Basic concepts of Thermodynamics


Basic Concepts: Macroscopic and Microscopic Approaches, Thermodynamic Systems, Surrounding and Boundary,

Thermodynamic Property – Intensive and Extensive, Thermodynamic Equilibrium, State, Path, Process and Cycle,

Quasi-static, Reversible and Irreversible Processes, Working Substance. Concept of Thermodynamic Work and Heat,

Equality of Temperature, Zeroth Law of Thermodynamic and its utility, Problems.

Law of Thermodynamics ; First Law of Thermodynamics, Second Law of Thermodynamics: Limitations of First

Law, Thermal Reservoir, Heat Source and Heat Sink, Heat Engine, Refrigerator and Heat Pump, Kelvin- Planck and

Clausius Statements and their Equivalence, PMMSK. Carnot Cycle, Carnot Heat Engine and Carnot Heat Pump,

Carnot Theorem and its Corollaries, Thermodynamic Temperature Scale.


2. Entropy and Availability


Entropy, Clausius Inequality, Principle of Entropy Increase, Temperature Entropy Plot, Entropy Change in Different

Processes, Introduction to Third Law of Thermodynamics. (Problems).

Availability and Irreversibility: High and Low Grade Energy, Availability and Unavailable Energy, Loss of Available

Energy Due to Heat Transfer Through a Finite Temperature Difference, Dead state of a system, Availability of a Non-

Flow or Closed System, Availability of a Steady Flow System, Helmholtz and Gibb’s Functions, Effectiveness and

Irreversibility, Second law efficiencies of processes & cycles. Problems.





1. Thermal Engineering R. K. Rajput Latest Laxmi Publication, New Delhi.

2. Engineering Thermodynamics P.K. Nag Latest Tata McGraw-Hill , New Delhi

3. Thermal Engineering S.C. Gupta Latest Pearson Education Pvt. Ltd. New Delhi.

4. Thermal Engineering P.L. Ballany Latest Khanna Publication, New Delhi.

5. An introduction to Thermodynamics YVC Rao Latest New Age publishers, New Delhi.

6. Fundamentals of Engineering

Thermodynamics R.Yadav Latest Central Publishing House, Allahabad

Websites

www.it.iitb.ac.in/nmeict/enggthermo/

nptel.iitm.ac.in/courses

3. Properties of Steam and Vapor Processes


Steam; Pure Substance: Pure Substance and its Properties, Phase and Phase Transformation, Vaporization,

Evaporation and Boiling, Saturated and Superheat Steam, Solid – Liquid – Vapour Equilibrium, T-V, P-V and P-T

Plots During Steam Formation, Properties of Dry, Wet and Superheated Steam, Property Changes During Steam

Processes, Temperature – Entropy (T-S) and Enthalpy – Entropy (H-S) Diagrams, Throttling and Measurement of

Dryness Fraction of Steam. Problems.

Ideal Gas Properties and Processes; Concept of an Ideal Gas, Basic Gas Laws, Characteristic Gas Equation,

Avogadro’s law and Universal Gas Constant, Ideal gas processes- on P-V and T-S diagrams, Constant Pressure,

Constant Volume, Isothermal, Adiabatic, Polytropic ,Throttling Processes.. Vander Waal’s Equation of state, Reduced

Co-ordinates, Compressibility factor and law of corresponding states. Mixture of Gases, Mass, Mole and Volume

Fraction, Gibson Dalton’s law, Gas Constant and Specific Heats, Entropy for a mixture of non-reactive gases.

Problems.


4. Steam Cycles And Fuel Combustion


Gas power Cycles: Carnot Cycle, Otto Cycle, Diesel Cycle, Dual Cycle, Stirling Cycle, Ericson cycle and Brayton

cycle, Problems.Comparison of Carnot cycle and Rankine cycle, Efficiency of Rankine cycle ,work ratio, back work

ratio, specific steam consumption. Effect of operating variables (boiler pressure, condenser pressure and super heat)

on Rankine cycle, Reheat and regenerative Rankine.

Types of fuels, Ultimate and proximate analysis of fuel, Gravimetric and volumetric analysis and their conversions,

Physical law of combustion, basic combustion equations, composition of dry air, Stoichiometric air fuel ratio, Actual

air fuel relation, excess air, determination of actual quantity of air from combustion analysis, Fuel gas analysis; Orsat

apparatus, Enthalpy of formation, Enthalpy of combustion, calorific values and their determination.


5. Steam Generators, Air compressors and Condensors


Steam Generators; Classification, Constructional details of low pressure boilers, Features of high pressure (power)

boilers, Location, Construction and working principle of boiler Boiler mountings and accessories Introduction to

IBR and non IBR boilers 2) Analysis of boilers – (numerical) Equivalent evaporation, Boiler efficiency by direct

and indirect method Energy balance, Boiler draught (natural and artificial draught)

Air Compressor ; 1) Reciprocating Air Compressor and 2) Multistage compressors – computation of work done,

isothermal efficiency, effect of clearance volume, volumetric efficiency, Theoretical and actual indicator diagram, 3)

Rotary Air Compressors: - Classification, Difference between compressors and blowers, Working and constructional

details of roots blower, Screw type and vane type compressors

Introduction to condensers, Jet and Surface condensers, types of condensers, condensers vacuum and vacuum

efficiency, air pumps, capacity of air extraction pumps, sources of air leakage and effect of air leakage, cooling towers.



Code: BME03103 MECHANICS OF SOLIDS 4 Credits [LTP: 4-1-0]


To introduce the concepts of equilibrium and deformation in components, and structures for Engineering design. This course is

designed to expand the knowledge of students in the field of non-linear mechanics of solids and its application to structural analysis,

machine design and material processing. It enables the students to understand the influence of non-linearity’s on the behavior of

structures. The aim is to equip students with essential analytical skills which have a particular bearing on their professional practice

as mechanical engineers. On completion students should have sufficient knowledge of the mechanics of solids to enable them to

solve with competence advanced practical problems.

This course aims at enabling the students to understand the influence of non-linearity’s involved in the behavior of engineering

materials and to develop the analytical skills as well as the problem solving abilities needed for professional engineers.



1. Simple Stresses & Strains 7

2. Principle Stresses & Theory of Failure 8

3. Shear Force and Bending Moment Diagram 9

4. Torsion in Circular Shafts 7

5. Deflection of Beams and Strain Energy 9


Unit Unit Details

1. Simple Stresses & Strains


Concept of stress and strain (linear, lateral, shear and volumetric), Hook’s law, Poisson’s ratio, modulus of

elasticity, modulus of rigidity, stress-strain diagram for ductile and brittle materials, factor of safety and working

stress, concept of 3-D stress state, bulk modulus, inter relation between elastic modulus.

Various strengths of material- Yield strength, Ultimate tensile strength etc, Concept of factor of safety & permissible

stress. Conditions for equilibrium. Concept of free body diagram; Introduction to mechanics of deformable bodies.

Axial force diagram, stress-strain, deformations in determinate homogeneous and composite bars of following

types. 1) Prismatic 2) Linearly varying 3) Stepped section under concentrated loads and self-weights. Axial stresses

and strain in determinate members –axial stress, strain and deformation in following indeterminate, homogeneous

and composite bars.1) Prismatic 2) Linearly varying 3) Stepped section under concentrated loads, self-weights

and temperature changes.


2. Principle Stresses & Theory of Failure


Principal planes, stresses & strains ;Normal and shear stress on any oblique plane, concept of principle plane,

derivation of expression for principle stresses and planes and plane of maximum Shear stress, position of principle

plane and plane of maximum Shear, graphical solution using Mohr’s circle of stresses, combined effect of shear

and bending in beams. bending moment & torsional moment on circular shafts (solid as well as hollow)

Theories of Elastic Failures: The necessity for a theory, different theories- Maximum principal stress theory,

maximum shear stress theory, maximum distortion energy theory, maximum strain theory – their limitations,

significance and comparison &applications.


3. Shear Force and Bending Moment Diagram


Bending stresses : Theory of simple bending, assumptions, derivation of flexural formula, second moment of area

of common cross sections( rectangular, I,T,C ) with respective centroidal & parallel axes, bending stress distribution

diagrams, moment of resistance & section modulus calculations.




1. Strength of Materials Khurmi, R.S. Latest Khanna Publishers.

2. Strength of Materials Ramamurtham, S. Latest Dhanpat Rai & Sons

3. Strength of Materials Beer F. P. & Johnston S J Latest Tata Mc Graw, New Delhi,

4. Strength of Materials Bhavikatti S S Latest Vikas Publication House , New Delhi,

5. Strength of material S.S. Rattan Latest Tata McGraw

6. Strength of material Dr. R. K. Bansal Latest Laxmi publication Pvt. Ltd., New Delhi

Websites

solidmechanics.org/

nptel.iitm.ac.in/courses

Shear stresses: Concept, derivation of shear stress distribution formula, shear stress distribution diagrams for

common symmetrical sections, maximum and average shears stresses, shear connection between flange & web.

Shear Force & Bending Moments: Definitions, SF & BM diagrams for cantilevers, simply supported beams with

or without over-hang and calculation of maximum BM & SF and the point of contra-flexure under

(i) concentrated loads,

(ii) uniformly distributed loads over whole span or a part of it,

(iii) combination of concentrated loads and uniformly distributed loads,

(iv) uniformly varying loads and application of moments, relation between the rate of loading, the shear force and

the bending moments, Problems.


4. Torsion in Circular Shafts


Torsion of shafts: Introduction , Basic assumptions, Derivation of shear stress

produced in a circular shaft subjected to torsion, Max. torque transmitted by a circular and hollow circular shaft.

Polar modulus , strength of a shaft and tensional rigidity, composite shafts, combined bending and torsion. Strength

of a shaft of varying cross section.

Buckling of columns: Concept of buckling of columns, Stability of equilibrium: Instability & elastic stability. Long

& short columns, ideal strut,, derivation of Euler’s formula for long column, – assumptions and limitations. Euler's

formula for crippling load for columns of different ends, concept of equivalent length for various end conditions,

Rankine‘s formula for intermediate columns, safe load on columns, Eccentric loading of columns

Empirical formulae, Jhonson’s Straight line and Parabolic Formula for columns. Indian standard code for columns.


5. Deflection of Beams and Strain Energy


Transverse deflection of beams: Relation between deflection, bending moment, shear force and load, Transverse

deflection of beams and shaft under static loading, area moment method, direct integration method: method of

superposition and conjugate beam method. Variational approach to determine deflection and stresses in beam.

Elastic strain energy: Strain energy due to axial, bending and Torsional loads; stresses due to suddenly applied

loads; use of energy theorems to determine deflections of beams and twist of shafts. Castigliano's theorem. Maxwell's

theorem of reciprocal deflections.



Code: BME03104 MANUFACTURING PROCESSES 3 Credits [LTP: 3-0-0]


This course will introduce the student to the principles of design for manufacturing. The course will begin by examining modern

manufacturing operations including machining, casting, forging, welding, brazing, soldering, finishing, heat treating, assembly,

plastic materials processing, powder metallurgy, and specialized manufacturing processes.

To impart knowledge about the process principles, equipment, and applications of different forming processes, machining

operations, and grinding processes. To study various casting and welding methods including advanced techniques, with emphasis

on basic principles, limitations and application areas.



1. Foundry Technology Casting practices 9

2. Metal Joining Processes 8

3. Forming and Shaping Processes: 9

4. Powder Metallurgy 7

5. Plastic Technology 7


Unit Unit Details

1. Foundry Technology Casting practices


Importance of manufacturing, economic and technological definition of manufacturing, survey of manufacturing

processes. Types of production & production processes, product configuration & Manufacturing requirements.

Foundry Technology: Patterns practices: Types of patterns, allowances and material used for patterns, moulding

materials, moulding sands, Moulding sands; properties and sand testing; grain fineness; moisture content, clay content

and permeability test, core materials and core making, core print; core boxes, chaplets, gating system design.

Moulding practices: Green, dry and loam sand moulding, pit and floor moulding; shell moulding; permanent

moulding; carbon dioxide moulding.

Casting practices: Fundamental of metal casting, sand casting, Shell-Mould casting, mold casting (plaster and

ceramic), investment casting, vacuum casting, Permanent mould casting, slush casting, pressure casting, die casting,

centrifugal casting, continuous casting, squeeze casting, casting alloys, casting defects, design of casting, gating

system design, and riser design. Melting furnaces-rotary, pit electric, tilting and cupola.


2. Metal Joining Processes


Metal Joining Processes: Principle of welding, soldering, brazing and adhesive bonding. Survey of welding and

allied processes. Arc welding: power sources and consumables. Gas welding and cutting: Processes and equipments.

Resistance welding: principle and equipments. Spot, projection and seam welding process.

Atomic hydrogen, ultrasonic, plasma and laser beam welding, electron beam welding, and special welding processes

e.g. TIG, MIG, friction and explosive welding, welding of C.I. and Al, welding defects. Electrodes and Electrode

Coatings





1. Production Technology Volume I & II P.N. Rao Latest Tata McGraw

Hill Publication.

2. Production Technology R.K. Jain Latest Khanna Publishers.

3. Elements of Workshop Technology

Volume I&II

Hajara Choudhari, Bose

S.K.

Latest Asia Publishing House

4. Production Technology HMT Latest Tata McGraw Hill Publishers

5. Materials and Process Manufacturing E. Paul De. Garmo, Ninth John Willey Publication

6. Production Technology P.C. Sharma Latest Khanna Publishers.

Websites

en.wikipedia.org/wiki/Manufacturing

nptel.iitm.ac.in/courses/

3. Forming and Shaping Processes:


Metal working, elastic and plastic deformation, concept of strain hardening, hot and cold working, rolling, principle

and operations, roll pass sequence, Forging, forging operations, extrusion, wire and tube drawing processes. Forging:

Method of forging, forging hammers and presses, principle of forging tool design,

Cold working processes-Shearing, drawing, squeezing, blanking, piercing, deep drawing, coining and embossing,

metal working defects, cold heading, riveting, thread rolling bending and forming operation.

Sheet Metal working : Presses and their classification, Die & punch assembly and press work methods and processes.

Cutting/Punching mechanism, Blanking vs Piercing. Compound vs Progressive die. Flat-face vs Inclined-face punch

and Load(capacity) needed.


4. Powder Metallurgy


Powder manufacturing, mechanical pulverization, sintering, Electrolytic Process, chemical reduction, atomization,

properties of metal powders, compacting of powders sintering, advantages and applications of P/M.

Rapid Prototyping Operations: Introduction, subtractive processes, additive processes, Virtual Prototyping and

applications


5. Plastic Technology


Plastic Technology: Review of plastics, and its past, present & future uses, Classification of Plastics, Ingredients of

Moulding compounds, General Properties of Plastics,

Manufacturing of Plastic components: Injection moulding, compression moulding, transfer moulding. blow

moulding, calendaring, thermoforming, slush moulding, laminating , Extrusion of plastic section. Welding of plastics.

Future of plastic & its applications. Resins & Adhesives.



Code: BME03105 ENGINEERING MATHEMATICS – III 4.5 Credits [LTP: 4-1-0]


Students entering in Mathematics should have a firm grasp of Calculus, linear algebra and vector calculus. They should be able

to graph functions, integration and differentiation of functions, partial derivative of functions, optimization and evaluation of

multiple integral. The objective of Advanced Engineering Mathematics is for students to learn the basics of Modeling and solution

of differential equations. They will study standard functions with graph, geometrical meaning of differential equations, modeling

and solution of ordinary and partial differential equations also application of Fourier integral and Laplace transform.

Generally, the students will improve their ability to think critically, to analyze a real problem and solve it using a wide array of

mathematical tools. These skills will be invaluable to them in whatever path they choose to follow, be it as a mathematics major

or in pursuit of a career in one of the other sciences. They will also able to apply these ideas to a wide range of problems that

include the engineering equations.



1. Ordinary Differential Equations 8

2. Lap lace Transform 8

3. Fourier Transform 9

4. Special Functions 8

5. Statistics and Probability 9


Unit Unit Details

1. Ordinary Differential Equations

Introduction of Unit.

Exact Linear Differential Equations of nth order, Integrating factors.

Non linear differential equation of particular form: Equation of the form )(xfdxyd nn ,

Equation that do not contain x directly.

Equation that do not contain y directly.

Ricaati’s equation-Properties and method of solving Ricaati’s equation .

Conclusion of Unit including real life applications.

2. Laplace Transform


Laplace Transform : Advantage and sufficient conditions for existence of Laplace Transform, General Properties of

Laplace Transform, Laplace transform of elementary function.

Inverse Laplace transform, General Properties of Inverse Laplace Transform, Use of partial fractions to find Inverse

Laplace Transform, convolution Theorem ( without proof).

Solution of Ordinary differential equation with constant coefficient.


3. Fourier Transform


Fourier Integral theorem, Fourier Sine & Cosine Integrals. Fourier Transforms, Fourier Cosine Transforms, Fourier Sine

Transform and their inverse, Parseval’s identity for Fourier transforms.

Method of separation of variables (Boundary value problems), Application to the solution of wave equation and diffusion

equation in one dimension and Laplace’s equation in two dimensions by method of separation of variable.


4. Special Functions




1. Higher Engineering Mathematics B.S. Grewal Latest Khanna Publication, New Delhi.

2. Advance Engineering Mathematics H.K. Das Latest S. Chand & Co. New Delhi.

3. Advanced Engineering Mathematics Erwin Kreyszig Seventh Wiley Eastern Ltd., Bombay.

4.

Probability & Statistics with

reliability, queuing & Computer

Science application

Kishore S, Trivedi

Latest Prentice Hall of India Pvt. Ltd.,

New Delhi.

5. Advanced Engineering Mathematics Peter V.O’Neil Fifth Thomson Brook Cole,Singapore

6. Advance Engineering Mathematics Michael D. Greenber Latest Pearson ( Singapore) Indian Ed

Websites

engg-maths.com/

www.efunda.com/math/


Bessel’s function of first kind, simple recurrence relations, orthogonal property.

Legendre’s function of first kind simple recurrence relations, Orthogonal property.

Rodrigue’s formula.

Sturm-Liouville problems.


5. Statistics and Probability


Statistics Introduction to Mean, Median, Mode, Standard deviation, Variance, Coefficient of variation, Moments,

Skewness and Kurtosis. Correlation and Regression.

Probability, Bays theorems, mean & variance of Binomial, Poisson, Hyper-geometric & Normal probability

distributions.

Random sampling, Estimation and Testing of hypothesis, Chi-square tests.



Open elective

Code: BOE03121 INDUSTRIAL PSYCHOLOGY AND SOCIOLOGY 3 Credits [LTP: 3-0-

0]

COURSE OVERVIEW AND OBJECTIVES: The course on Industrial Psychology and Sociology encompasses the knowledge of

scientific management of an industry including human relations. The course will make the student understand as to how the work force can

be dealt to perform in the best possible way to give efficient output. It also covers the motivational techniques, stress management and

encouraging the labor class. The important component of training & development is also being covered. The courses a combination of

industrial sociology also providing development of industries in India including policy resolutions and handling of grievances including

labor laws. The course will act as a catalyst for combined knowledge of dealing with industry, relations and legal issues.



1. Introduction to Industrial Psychology 10

2. Individual in Workplace 6

3. Performance Management 6

4. Nature and Scope of Industrial Sociology 10

5. Contemporary Issues 6


Unit Unit Details

1. Introduction to Industrial Psychology

Introduction to Industrial Psychology – Definitions & scope.

Major influences on industrial Psychology

Scientific management and human relations schools Hawthorne Experiments


2. Individual in Workplace


Individual in Workplace: Motivation and Job satisfaction, stress management.

Organizational culture, Leadership & group dynamics.


3. Performance Management


Performance Management : Training & Development


4. Nature and Scope of Industrial Sociology


Nature and Scope of Industrial Sociology

Development of Industrial Sociology and Industrialization in India.

Industrial Poling Resolutions – 1956.


5. Contemporary Issues


Contemporary Issues: Grievances and Grievance handling Procedure.

Industrial Disputes: courses, strikes & lockouts

Industrial Relations Machinery Bi-partite & Tri-partite Agreement

Labour courts & Industrial Tribunals, Code of Discipline, Standing order.




Sr.No Reference Book Author Publication

1. Industrial / Organizational Psychology Miner J.B McGraw Hill.

2. Industrial Psychology. Its Theoretical & Social

Foundations

Blum & Naylor CBS Publication

3. Human Resource Management Aswathappa K. (5th edition) Tata McGraw Hill.

4. Fundamentals of Industrial sociology Gisbert Pascal (2nd

Edition)Tata McGraw Hill New

Delhi

5. Industrial Sociology Schneider Engno V Tata McGraw Hill New Delhi

6. Dynamics of Industrial Relations in India Mamoria C.B. &

Mamoria S

---

7. Industrial Relations and Labour Legislations Sinha G.P. & P.R.N.

Sinha

Oxford and IBH Publishing Co.,

1977.

8. Industrial/Organizational Psychology : An Applied

Approach

Aamodt, M.G.

Wadsworth/Thompson :

Belmont, C.A.

--

Websites

http://en.wikipedia.org/wiki/Industrial_and_organizational_psychology,

http://www.wisegeek.org

http://psychology.about.com

http://en.wikipedia.org/wiki/Industrial_sociology

http://home.iitk.ac.in/~amman/soc474/indsoc.html

www.gwu.edu/~ccps/etzioni/A12.pdf, www.ijhssi.org

http://www.ijhssi.org/


Code: BOE03122 NANO SCIENCE & TECHNOLOGY 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVES

To impart basic knowledge on Nano Science & Technology.

To make students understand various process techniques available for processing of Nano structured materials.

To impart knowledge about various Nano particles process methods and their applications.



1. Introduction 8

2. Nano Material Properties and preparation environment 8

3. Synthesis and Lithography for Nano scale devices 8

4. Quantum Dots and Nano Tubes 8

5. Physical Properties of Nano Structured Materials 8


Unit Unit Details

1. Introduction


Nano scale Science and Technology- Implications for Physics, Chemistry, Biology and Engineering-

Classifications of Nano structured materials- Nano particles- quantum dots, Nano wires-ultra-thin films-multilayered

materials.

Length Scales involved and effect on properties: Mechanical, Electronic, Optical, Magnetic and Thermal properties.

Atomic size surfaces & dimensional space top down & bottom up.


2. Nano Material Properties and preparation environment


Opportunity at the nano scale – Length and time scale in structures-energy landscapes

Inter dynamic aspects of inter molecular forces-Evolution of band structure and Fermi surface.

Clean rooms: specifications and design, air and water purity, requirements for particular processes, Vibration free

environments: Services and facilities required.

Working practices, sample cleaning, chemical purification, chemical and biological contamination, Safety issues,

flammable and toxic hazards, biohazards.


3. Synthesis and Lithography for Nano scale devices

Introduction to Nano scale Synthesis and processing

Introduction to optical/UV electron beam and X-ray Lithography systems and processes,

Wet etching, dry (Plasma /reactive ion) etching, Etch resists-dip pen lithography, method of nano structured materials

preparation – mechanical grinding, wet chemical synthesis – sol-gel processing, gas phase synthesis, gas condensation

processing, chemical vapor condensation – nano composite synthesis


4. Quantum Dots and Nano Tubes


Quantum dots- Nano wires-Nano tubes 2D and 3D films Nano and Mesopores, micelles, bilayers, vesicles, bio-nano

machines—biological membranes


5. Physical Properties of Nano Structured Materials




1. Nanomaterials: Synthesis, Properties

and Applications

A.S. Edelstein and R.C.

Cammearata, eds.

Latest Institute of Physics Publishing, Bristol

and Philadelphia

2. Nanoscale charecterisation of

surfaces & Interfaces

N John Dinardo Latest Weinheim Cambridge, Wiley-VCH

3. Nanotechnology G Timp Latest AIP press/Springer

4. The Hand Book of Nano

Technology, Nanometer Structure,

Theory, Modeling and Simulations

Akhlesh Lakhtakia Latest Prentice-Hall of India, New Delhi

5. Nano Technology: Basic Science and

Emerging Technologies

Mick Wilson, Kamali

Kannargare, Goff Smith

Latest Overseas Press

6. Introduction to Nanotechnology Charles P. Poole, Frank

J. Owens

Latest Wiley Inter science

7. Nano Technology: A gentle

introduction to the next Big Idea

Mark A. Ratner, Daniel

Ratner

Latest Prentice Hall

8. Nanoscale Science and Technology Robert W. Kelsall, Ian

W. Hamley and Mark

Geoghegan,

Latest John Wiley & Sons Ltd., UK

9. Bio-Inspired Nano materials and

Nanotechnology

Yong Zhou Latest Nova Publishers

10. Nano: The Essentials :

Understanding Nanoscience and

Nanotechnology

T. Pradeep Latest Tata McGraw-Hill Publishing

Websites

www.nstc.in/; www.aspbs.com/jnn; www.vjnano.org; www.khanacademics.com

www.mindtools.com

www.khaki.com

www.Raifoundation.org

www.tryingineering.com

www.tryscience.com

www.video lectures.com, MTNL,MIT,IIT Websites


Influence of Nano structuring on Mechanical optical, electronic magnetic and chemical properties, gram size effects

on strength of metals optical properties of quantum dots and quantum wires electronic transport in quantum wires and

carbon nano tubes magnetic behavior of single domain particles and nanostructures surface chemistry of tailored

monolayer self assembling.



Code: BOE03123 DATA STRUCTURE 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVES: The objective of this course is to give students of other disciplines of engineering an

introduction of data structures, and algorithms design. It aims to provide students with a deeper understanding of Data Structures Stack,

Tree, Graph. After completing this course students shall have an understanding of data structure concepts in depth and various

implementations and operations on data structure concepts like trees, graph, linked list etc.



1. Performance Measurement 7

2. Array & Matrices 8

3. Stacks 8

4. Trees 8

5. Graphs 8


Unit Unit Details

1. Performance Measurement


Space complexity and Time complexity, big oh, omega and theta notations and their significance.

Linear Lists - Array and linked representation, Singly & Doubly linked lists.

Concept of circular linked lists


2. Array & Matrices


Row and Column Major mapping & representation, irregular 2D array

Matrix operations

Special matrices: diagonal, tri-diagonal, triangular, symmetric.

Sparse matrices representation and its transpose.


3. Stacks & Queue


Representation in array & linked lists, basic operation

Applications of stacks in parenthesis matching, towers of Hanoi etc.

Queues - Representation in array & linked lists, applications, circular queues.


4. Trees


Binary Tree, representation in array & linked lists, basic operation on binary trees, binary tree traversal (preorder, post

order, in order).

Search Trees - Binary search tree, indexed-binary search tree, basic operation, AVL tree, B-tree.


5. Graphs


Representation of unweighted graphs, BFS, DFS

Minimum cost spanning trees, Single source shortest path.

Sorting - Bubble sort, insertion sort, merge sort, selection sort, quick sort, heap sort.





1. Data Structures Lipschutz & Pai TMH

2. Data Structures And Algorithms Pai Tata McGrawHill

3. Data Structure Using C (Sigma Series) Mukherjee TMH

4. Introduction To Data Structures With Applications Tremblay TMH

5. Data Structure Using C Krishnamoorthy Tata MacGraw Hill

6. Data Structures Keogh Wiley


Code: BOE03124 OBJECT ORIENTED PROGRAMMING USING C++ 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVES: The objective of this course is to make the students well versed with the fundamentals

of C++ object oriented programming language (OOP). The topics included are Introduction to JAVA, Operators & control statements,

Package & Interface. OOP is the new way of approaching the job of programming. It is the most widely employed technique for

developing robust, reusable software. Students will learn the concept of algorithm design and implementation. In addition, they will

write C++ codes using both console or command-line and dialog box or graphical user interface styles. Finally, students can write,

compile, execute, and debug their C++ programs



1. OOP Fundamentals 8

2. Programming in C++ 8

3. Java 8

4. Operators and Control Statements 8

5. Package and Interfaces 8


Unit Unit Details

1. OOP Fundamentals


Concept of class and object, attributes, public, private and protected members, derived classes, single & multiple

inheritance,


2. Programming in C++


Enhancements in C++ over C, Data types, operators and functions.

Inline functions, constructors and destructors.

Friend function, function and operator overloading.

Working with class and derived classes.

Single, multiple and multilevel inheritances and their combinations, virtual functions, pointers to objects.

Input output flags and formatting operations. Working with text files.


3. Java


Variation from C++ to JAVA.

Introduction to Java byte code, virtual machine, application & applets of Java, integer, floating point, characters,

Boolean, literals, and array declarations


4. Operators and Control Statements


Arithmetic operators, bit wise operators, relational operators, Boolean logic operators, the assignment operators, ?:

operators, operator precedence.

Switch and loop statements.


5. Package and Interfaces


Packages, access protection, importing & defining packages.

Defining and implementing interfaces.




Sr. No Reference Book Author Publication

1. Object Oriented Programming With C++ Sahay --

2. Object Oriented Programming With C++ Josuttis Oxford

3. An Introduction To Programming & OO Design Using Java J. Nino & F. A. Hosch Wiley

4. Object Oriented Programming With C++ Shukla Wiley

5. OOP Timothy Budd Wiley

6. Object Oriented Programming With C++ Balagurusamy Pearson

7. Programming With C++ (Sie) (Schaum's Outline Series) Hubbard TMH

8. Mastering C++, Venugopal TMH

9. Programming With C++, Ravichandran TMH


Code: BOE03125 NON-CONVENTIONAL ENERGY SOURCES 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVE: Human resource development in the area of energy, in general, and in new and renewable

sources of energy, in particular, has been neglected all over the world, and more so in developing countries. In the context of depleting

fossil fuel resources and the need to develop sustainable energy systems for the future, it is necessary to incorporate non-conventional

energy sources as a subject in all the undergraduate courses of engineering. This course is primarily intended to serve as a basic course

of non-conventional energy sources with stress on scientific understanding, analysis and applications of non-conventional energy

technologies. It covers basis study describing the fundamental physical processes governing various non conventional energy

technologies and their applications



1. Introduction to Energy Sources 7

2. Solar Energy 8

3. Wind and Geothermal Energy 8

4. Biomass and Ocean Energy 8

5. Fuel Cells, Hydrogen Energy and Hybrid Systems 8


Unit Unit Details

1. Introduction to Energy Sources


Types of Energy Sources and its classification

Energy consumption as a measure of Nation's development

Strategy for meeting the future energy requirements, Global, National and State scenarios

Prospects of renewable energy sources


2. Solar Energy


Solar Thermal Systems: Solar radiation spectrum. Radiation measurement. Technologies. Applications: Heating,

Cooling, Drying, Distillation, Power generation

Solar Photovoltaic Systems: Operating principles. Photovoltaic cell concepts. Cell, module, array. Series and

parallel connections. Maximum power point tracking. Applications: Battery charging, Pumping, Lighting, and

Peltier cooling.


3. Wind and Geothermal Energy


Wind Energy: Basic principle of wind energy conversion, efficiency of conversion, site selection. Electric power

generation-basic components, horizontal axis and vertical axis wind turbines, towers, generators, control and

monitoring components. Wind energy in India.

Geothermal Energy: Geothermal fields, estimates of geothermal power. Basic geothermal steam power plant,

Advantages and disadvantages of geothermal energy. Geothermal energy in India.


4. Biomass and Ocean Energy


Biomass Energy: Introduction, biomass categories, bio-fuels. Introduction to biomass conversion technologies.

Biogas generation, basic biogas plants-fixed dome type, floating gasholder type, Deen Bandhu biogas plant, Pragati

design biogas plant.




1. Non-Conventional Resources of Energy Dr. A.N. Mathur ---

2. Renewable Energy Boyle 2E , Oxford

3. Solar Energy S.P. Sukhatme TMH

4. Solar Engineering of Thermal Processes Duffie & Beckman ---

5. Non-Conventional Energy Resources Bh Khan TMH

6. Solar Energy : Fundamentals and Applications Garg & Prakash TMH

7. Bio Energy David Boyles Elis Horwood Ltd

8. Renewable energy sources and conversion

technology

N.K. Bansal, M. Kleemann, M. Heliss Tata Mc-Graw-Hill1990

9. Solar Energy Hand Book Frank Kreith --

10. Principles and Application of Solar Energy N. Chermisinogg and Thomes, C.

Regin

--

11. Energy from Biomass W. Palz., P. Chartier and D.O. Hall --

12. Non-conventional energy sources G.D. Rai Khanna Publishers

13. Alternative Energy Sources B.L. Singhal Tech Max Publication

14. Renewable energy resources and emerging

technologies

Kothari D.P Prentice Hall of India

Pvt. Ltd

Ocean Energy: Ocean Thermal Electric Conversion (OTEC) systems like open cycle, closed cycle, Hybrid cycle,

prospects of OTEC in India. Energy from tides, basic principle of tidal power, single basin and double basin tidal

power plants, advantages, limitation and scope of tidal energy.


5. Fuel Cells, Hydrogen Energy and Hybrid Systems


Fuel Cells: Introduction, Design principle and operation of fuel cell, Types of fuel cells, conversion efficiency of

fuel cell, application of fuel cells

Hydrogen Energy: Introduction, Hydrogen Production methods, Hydrogen storage, hydrogen transportation,

utilization of hydrogen gas, hydrogen as alternative fuel for vehicles.

Hybrid Systems: Need for Hybrid Systems. Range and type of Hybrid systems. Case studies of Diesel-PV, Wind-

PV, electric and hybrid electric vehicles.



Code: BOE03126 FRENCH LANGUAGE 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVE: After the completion of 40 hours of French learning, participants can complete the basic

level of French language Level 1, with the following skills in:

1) Reading: Can understand familiar names, words and very simple sentences, on notices, posters or in catalogues.

2) Grammatical structures: Basic grammatical command. Shows limited control of simple grammatical structures which enable

basic communication to take place.

3) Listening: Can recognize familiar words and very basic phrases.

4) Speaking: Can use simple phrases and sentences to describe where he or she lives and people he or she knows.

5) Writing: Can write a short, simple postcard, for example sending holiday greetings. Can fill in forms with personal details.



1. Parlez-vous Français 8

2. Elle s’appelle Laura 8

3. Mon quartier est un monde 8

4. Tes amis sont mes amis et Jour après jour 8

5. On fait les boutiques? 7


Unit Unit Details

1. Parlez-vous Français


Greetings, introductions and farewell.

To provide information about oneself and to ask for information

To introduce oneself to a group

To introduce one’s family


2. Elle s’appelle Laura


To communicate in class

Days of the week and months of the year

Counting

Nationality


3. Mon quartier est un monde


To ask for and to indicate the directions

Describe a city/ area

To ask for an explanation

Express the quantity

To write post card


4. Tes amis sont mes amis et Jour après jour


To give physical and psychological description of a person

To talk about his tastes and preferences

To speak of one’s daily activities and one’s interests

To indicate the time, to make an appointment

To describe the weather




1. Version originale 1

2. Me Talk Pretty One Day David Sedaris ---

3. Dictionnaire Larousse ( English-French-

English) --- ---


5. On fait les boutiques?


To choose, to purchase, to pay for an object

To ask for help

To choose and to negotiate

To propose/accept/refuse an invitation

Situations at the hotel and at the restaurant



Code: BOE03127 BASIC OF ENGINEERING APPLICATIONS 3 Credits [LTP: 3-0-0]

COURSE OVERVIEW AND OBJECTIVE: - Basics of Engineering Applications will provide a common platform to the new

budding technocrats to excel themselves of in field of Engineering. This course can help to grow out the hidden seed of knowledge in a

different disciple which can further enhanced by grasping knowledge of that discipline. This course will act as a catalyst for combined

knowledge of recent technologies of all the sectors and can full fill the requirements of industries. It contains basic knowledge of different

discipline like Mechanical, Civil, Electronics & Communication, Information Technology, Computer Engineering and Electrical

Engineering.



1. Basics of Mechanical Engineering 9

2. Basics of Civil Engineering 7

3. Basics of Electronics & Communication Engineering 7

4. Basics of Information Technology & Computer Engineering 8

5. Basics of Electrical Engineering 9


Unit Unit Details

1. Basics of Mechanical Engineering

Basics Machines & Tools – Levers, Pulleys, Chain, Gears, Ropes, Screwdrivers, Pliers, pipe wrench, Chisel,

hammers.

Lathe Machines, Drilling Machines, Milling Machine, Surface Grinder, Cylindrical Grinder, Tool and Cutter

grinders, Bend saw, Hacksaw, Planners.

Welding, Soldering, Brazing.

Engines- Scooter, Car, Petrol Engine and Diesel Engine.

Engineering Materials – Cast iron, Steel, Aluminum, Glass, Plastic and Alloying Elements.

Properties of Engineering materials – Elasticity, Plasticity, Ductility, Brittleness, Strength, and Hardness.

Engineering Processes –Drilling, Turning, Milling, Boring and Grinding.

Manufacturing Component, Inspection, Assembly and Testing.

Power Plants- Thermal , Hydroelectric, Nuclear and Diesel Power Plant.

2. Basics of Civil Engineering

Building Materials :– Cement, grade of cement, Types of cement & strength, Aggregate Properties. Sand, wood

or timber, steel, paint. Bricks Strength and properties, size, bond & Masonary. Stone-Bond masonary. Concrete,

its properties and uses.

Building construction :– Type of building, Constituent of building, foundation, wall, door, window, roof, floor,

Plastering, Pointing, scaffolding, shoring, underpinning.

Structure :- Type of structure, load conditions, deflection, slope, failure of structure, Steel structure, R.C.C

structure.

Highway Engineering :– Highway material, Load condition, X-sec. drainage system, curve, super elevation,

camber.

Railway Engineering :– Gauges of Railway, Rails, Sleeper, blast, Railway crossing, Yards, passenger facilities.

Water Resource Engineering:- Irrigation – Delta base period, different crops, canal, drainage, super passage,

siphon, effective cross- section of Canal, reservoir, dam , River training works.

Public Health Engineering:- Environmental Engineering – Water supply, sewerage, rain water harvesting,

filtration & Treatment, drinking water quality, sanitary fittings.

Surveying:- Principle of surveying, uses of survey, different equipments, leveling, contouring, curve setting,

Topography.

Geotech Engineering:- Different type of soil, bearing capacity, Three phase diagram, Different task on soil.

3. Basics of Electronics & Communication Engineering


Semiconductor physics:- Basics of semiconductor , Materials and their property, Generation & recombination

of charges.

Diodes: - Basics of Junction, Junction formation, construction & characteristics of diodes.

Transistors:- Transistor Characteristics, Construction & working (BJT & UJT), Basics of HOSFT)

Transducers:- Basics of transducers & their classification.

Amplifiers: - Small signal amplifiers ( Analysis of BJT & FET), Feedback amplifiers – classification & Feedback

concept. Oscillators, criterion of oscillation, types of oscillators. Power amplifiers – basics & types.

Digital Electronics:- Basic of number system & basic logic gates, Minimizations techniques (K-Mapping).

Basics of combinational System & Sequential Systems. Basics & Operational amplifiers, op-amp configurations.

Filter designing.

Communication: - Sender, Receiver. Modulation, types of modulation ( AM, FM, PM) noise, Digital

Communication ( Basics of ASK, FSK, PSK). Microwave –basics, Microwave generation. Control System –

Stability criterion. Antenna System, Definition of Antenna & Types of Antenna.

Applications of Electronics & Communication:- Radar, Wireless, Planet & Planet Satellite.

4. Basics of Information Technology & Computer Engineering

Understanding Information Technology:- Algorithms & Data Structures, like Graphs, Trees, Stacks, Quests,

Linked list, Heaps etc.

Object oriented programming concepts:- Abstraction, Polymorphism, encapsulation, Inheritance.

Principles of different programming languages.

Database Management, Operating systems, Computer Architecture, Memory organization. Pipelining & Vector

Processing, Computer Networks, Java Programming.

Theory of Computation, information system, Security, Artificial Intelligence

Understanding Computer Technology:- Overview of Computer Organization, Memory types, CPU types,

Services & characteristics, types of Operating systems

Operating Systems:- introduction & need of OS, Characteristics and Services, types of OS, Booting Process.

Application and system software

Database:- Overview of database concept and its applications, Introduction to RDBMS (examples of RDBMS)

Programming Concept:- Programming languages with examples, Front end and Backend tools.

Computer Networks:- Types of network (LAN, WAN, MAN), Internet and Intranet, www, http, Network

peripherals (bridge, switches, routers, Hub)

Advance Computing Concepts:- Cloud Computing, AI, Fuzzy Logic, Neural Network and soft computing.

5. Basics of Electrical Engineering

Basic Concepts:- Volt, Current, AC supply, DC supply, RMS values, Energy, Power, Non-Ideal Sources.

Components:- Passive, Active, Semiconductors, Transducers, Solenoids, DC/DC Convertor, AC/DC

Convertors, Switches.

Wiring:- AWG, House Wiring, Grounding, Distribution, Underground Cables.

Circuit Theory:- Ohm’s Law, Impendence, Mesh, Node, Dividers, Equivalent, Matrix, Network Reduction,

Superposition, Thevenin Theorem, Dependent Sources, Complex Numbers, Real Power, Reactive power,

Apparent power, Power triangle.

Filters:- Passive, Active, Frequency Response, Resonance, Response, Q-factor, Bandwidth.

Machines:- Dynamic machines – Introduction about general Motors & Generators and their difference, types of

motor depends on the supply type, types of generators depend on the supply type, applications.

Static Machines:- Introductions about single phase transformers, types of transformers, importance of

transformers and its application.

Power Systems:- 3-Phase, Delta – Why, Breakers, Fuses, Relays, PF Correction.



Sr.No. Reference Book Author Edition Publication

1. Basic Mechanical Engineering Basant Agrawal Latest John Wiley & Sons

2. Comprehensive Basic Mechanical

Engineering

R.K. Rajput Latest Laxmi Publication

3. Basic Civil Engineering Rakesh Ranjan Bechar Latest Laxmi Publication

4. Basic Civil Engineering Dr. B.C. Punmia, Ashok

Kumar Jain

Latest Laxmi Publication

5. Fundamentals of information

technology

G. G. Wilkinson, Anthony R.

Winterflood

Latest Willy and Sons

6. Engineering Basics: Electrical,

Electronics And Computer

Engineering

T. Thyagarajan Latest New Age Internatonal Publishers

7. Basic Comp Eng - RGPV Sanjay Silakari, Rajesh K.

Shukla

Latest Tata McGraw Hill

8. Fundamentals Of Computers V. Rajaraman, Latest Prentice Hall India Pvt.,

9. Basic Electrical & Electronics

Engineering

Dr. K. R. Niyazi Latest Ashirwad Publication

10. Basic Electrical Engineering K.N. Srinivas Latest I K International

Websites

www.nptel.com

www.oocities.org/venkatej/mech/

en.wikipedia.org/wiki/Mechanical_engineering

www.nprcet.org/e%20content/

web.eece.maine.edu/programs/undergrad/ce/cen_cs.php

www.mlbd.com › Computers/IT

en.wikipedia.org/wiki/Information_technology

www.bruface.eu/.../Electronics_and_Information_Technology_Engi...

www.facstaff.bucknell.edu/mastascu/elessonsHTML/EEIndex.html

www.learnerstv.com/Free-Engineering-Video-lectures-ltv152-Page1....

www.oup.co.in › ... › Electronics Engineering

http://www.oocities.org/venkatej/mech/

http://www.nprcet.org/e%20content/

http://www.mlbd.com/treecategory.aspx?cate=42

http://www.bruface.eu/.../Electronics_and_Information_Technology_Engi

http://www.facstaff.bucknell.edu/mastascu/elessonsHTML/EEIndex.html

http://www.learnerstv.com/Free-Engineering-Video-lectures-ltv152-Page1

http://www.oup.co.in/section/higher-education/engineering-computer-science/electronics-engineering/12


practicals

Code: BME03206 MATERIAL SCIENCE AND ENGINEERING LAB 1 Credits [ LTP : 0-0-2]


1. Study of Engineering Materials and crystals structures. Study of models BCC, FCC, HCP and stacking sequence, tetrahedral

and octahedral voids.

2. Preparation & Study of Model s of Crystal Imperfections in Metals.

3. To calculate the effective number of atoms, co-ordination number, packing factors, Miller indices (plane and Directions)

4. To prepare metallic samples for metallographic examination and to study the principle and construction of the Metallurgical

Microscope.

5. Study of the following Micro structures: Hypo, Hyper and Eutectoid Steel, Grey, White, Nodular and Malleable Cast Iron.

6. To determine machine defects by dye-penetant & magnetic flow detection NDT technique

7. To determine flows by ultrasonic technique.

8. To determine the hardenability by Jominy end quench test .

9. Study of Iron-Carbon Equilibrium Diagram and its Engineering applications.

10. Study of Effect of Shot peening/ Cold working on metals.

11. Heat treatment for various ferrous & nonferrous metals & alloys.

12. Testing of bulk properties such as flow rate, apparent density and tap density of metal powder.

Code: BME03207 THERMAL ENGINEERING LAB 1 Credit [LTP : 0-0-2]


1. To study various types of Boilers (Steam generators) and to study Boiler mounting and accessories.

2. Study of boiler draughts.

3. Determination of calorific value using gas calorimeter or Bomb calorimeter.

4. Flue gas analysis using Orsat apparatus or Gas analyzer.

5. Determination of dryness fraction of steam using Throttling Calorimeter or Separating and Throttling Calorimeter.

6. Determination of Isothermal and Volumetric efficiency of reciprocating air compressor.

7. Study of steam condensers and cooling towers.

8. Study of thermal power plant.

9. Study of Rankine cycle (five numerical based on the syllabus)

10. Analysis of boiler efficiency and heat balance sheet.

11. Analysis of any thermal system using Analysis Software.


Code: BME03208 MECHANICS OF SOLID LAB 1 Credits [LTP : 0-0-2]


1. To determine tensile properties of ductile material with the help of Universal testing machine (UTM).

2. Top determine the compressive properties of non-ductile materials with the help of UTM.

3. To determine the impact strength of materials with the help of Charpy- Izod Impact Test

4. To determine the compressive strength of brittle materials with the help of compressive testing machine.

5. To determine hardness of material with the help of Rockwell Hardness tester .

6. To determine hardness of material with the help of Brinell Hardness tester .

7. Fatigue testing on fatigue testing machine.

8. Creep testing on creep testing machine.

9. Torsion testing of a rod on torsion testing machine.

10. Deflection of beam experiment, comparison of actual measurement of deflection with dial gauge to the calculated one, and or

evaluation of young’s modulus of beam.

11. Spring index testing on spring testing machine.

12. Analysis of Columns for buckling.

Code: BME03209 MANUFACTURING TECHNOLOGY LAB-I 1 Credits [LTP : 0-0-2]


1. Welding Shop One job on welding (fabrication) preparing a component comprising welding joints such as shoe rack, book

rack, stands for flower pots, house hold applications etc.

2. Machine Shop One composite job involving different machine operation on Lathe, Shaper, Slotter, Drilling, Milling &

Grinding operations.

3. Making a simple solid pattern involving wood turning – one job

4. Forging - power hammer study & operation

5. To study shaper machine, its mechanism and calculate quick return ratio.

6. To prepare mould of a given pattern requiring core and to cast it in aluminum.

7. To find clay content and moisture content from mould sand

8. Strength Test (compressive, Tensile, Shear Transverse etc. in green and dry conditions) and Hardness Test (Mould and

Core).

9. To find permeability numbers for given sample of mould material

10. Injection moulding with plastics

11. Tube bending with the use of sand and on tube bending m/c.

12. Press work experiment such as blanking/piercing, washer, making etc.

13. To perform step turning, knurling and chamfering on lathe machine as per drawing.

14. Any other suitable experiment on manufacturing science / process / technique.


Code: BME03210 OBJECT ORIENTED PROGRAMMING IN C++ 1 Credit [LTP : 0-0-2]


1. Program for revising control statements, arrays and functions.

2. Program using string handling and various functions described in string.h, ctype.h.

3. Program using structures and sorting algorithm (Insertion, Selection, Quick, Heap sort) and functions described in math.h.

4. Program using file handling and related functions defined in stdio.h, io.h.

5. Program using pointers, array and pointers, pointers to structures, dynamic memory allocation.

6. Program using basic I/O and control statements.

7. Program using class, objects, objects as function parameters.

8. Program using functions and passing reference to a function, inline functions. Program using Inheritance and virtual base

class.

9. Program using pointers, arrays, dynamic arrays. Program using functions defined in ctype.h and string.h.

10. Program using constructors, destructors. Program using function and operator over loading

11. Creating and managing (add, delete, print, insert) nodes of a Linked list.

12. Creating and managing (create, pop, push etc.) stacks and queues.

Code: BME03211 SOFT SKILLS - III 1 Credit [LTP : 0-0-2]

COURSE OVERVIEW AND OBJECTIVES: The content of Soft Skills training aims at developing awareness among students about

skills related to the Process of Recruitment.

The Soft Skills syllabus of semester III is targeted to introduce Skills related to Recruitment Process to the students. Activities related

to Communication skills are included to make the students express themselves effectively. Further, the students have learned the basics

of English Grammar in I & II semester. In this semester the students will practice their acquired language skills through Functional

English sessions. The analytical skills are another prerequisite to excel in the life after the university degree. These skills are imparted

through Newspaper Article Analysis and the Analysis of a Video. Group Discussion and Personal Interview have become essential steps

of a Recruitment process. In this semester an overview of these two processes is provided to the students. Finally, without Creativity

and Lateral thinking, it is very hard to survive in the rapidly changing world. Therefore, activities related to these skills are included in

this semester. The content is delivered in the form of training wherein the students understand concepts through simulation exercises,

role plays, group tasks, handouts, games, etc.



1. Communication Skills 8

2. Functional English 8

3. Analytical Skills 8

4. Group Discussion and Personal Interview 8

5. Creativity and Lateral Thinking 8

B. SDETAILED SYLLABUS

Unit Unit Details

1. Communication Skills

Me against Myself

Picture Perception

Story Making (Verbal)

Extempore

2. Functional English

Spotting Errors

Multiple Choice Questions




1. Personality Development and Soft skills Barun K Mitra Latest Oxford Univ Press

2. Business communication Meenakshi Raman Latest Oxford Univ Press

3. Communication Skills --- 3rd Ferguson Publishing

4. The ACE of Soft Skills: Attitude,

Communication and Etiquette for Success

Gopalaswamy Ramesh &

Mahadevan Ramesh

1st Pearson Publishing

Code: BME03612 DISCIPLINE AND TALENT ENRICHMENT PROGRAMME (TEP)-III 2 Credits

OVERVIEW AND OBJECTIVES The objective of Discipline and TEP is to provide students with the opportunities to enhance job

fetching skills and at the same time to cultivate the student’s personal interests and hobbies while maintaining the good disciplinary

environment in the University. TEP is integrated into the curriculum for holistic development of students through active participation in

various activities falling in Technical and non technical categories.

Discipline and Talent Enrichment Programme (TEP) -III shall be evaluated irrespective of period/time allocation (as in the case of Extra

Curricular activity) in the teaching scheme as a TWO credit course. The record related to discipline and related activities are maintained

for each student and they shall be evaluated for the same also. It shall be counted in calculation of SGPA but it is not a backlog subject.

However, the attendance of these classes shall be recorded and accounted in the total attendance.

Activities included in this category in the Third Semester are as follows:

Code Activity Hours Credits

BME03612.1 Non Syllabus Project (NSP) 2

2 BME03612.2 Online Eligibility Exam(OLE) 0.5

BME03612.3/12.4 Library / Internet 0.5

BME03612.5 Extra Curricular Activities -

*****

Fill in the Blanks

Vocabulary: Synonyms and Antonyms

Reading Comprehension

Paragraph Jumble

Sentence Jumble

3. Analytical Skills

Analytical Skills: Introduction and Relevance

Newspaper Article Analysis

Analysis of a Video

4. Group Discussion and Personal Interview

Group Discussion: Introduction

Group Discussion: Do’s and Don’ts

Mock Group Discussion

Personal Interview: Introduction

Personal Interview: Do’s and Don’ts

Mock Personal Interview

5. Creativity and Lateral Thinking

Creativity and Teamwork

Collage Making

Comic Strip

Story Making (Written)

Designing of Newspaper/Initiation/Brochure

http://www.goodreads.com/author/show/4505148.Ferguson_Publishing

B.Tech. Batch 2014-18

Fourth Semester Detailed Syllabus

Department of Mechanical Engineering


PU/Batch 2014-18/4th SEM/SYLLABUS/SET/B.Tech (ME) May 2015 Page | 2

POORNIMA UNIVERSITY B.Tech. Mechanical Engineering(Batch 2013-17)

Teaching Scheme for Fourth Semester (II Yr.)

Subject Code Subject Name Teaching Scheme

(Hrs per week) Credits Lec Tut Prac


BME04101 Fluid Mechanics 3 1 - 3.5

BME04102 Kinematics of Machines 4 1 - 4.5

BME04103 Mechanical Measurements and Automatic Control

3 - - 3

BME04104 Design of Machine Element-I 3 - - 3

BME04105 Applied Numerical Techniques & Computing 3 1 - 3.5

B. Department Electives (Theory): ANY ONE

BME04106 Flexible Manufacturing Systems

3 - - 3

BME04107 Electrical Machines and Automotive Control BME04108 Machining and Machine Tools

BME04109 Power plant Engineering

BME04110 Laser Systems and Applications

C. Open Electives (Theory): ANY ONE

Nil - - - -

D. Practicals

BME04211 Fluid Mechanics Lab - - 2 1

BME04212 Kinematics of Machine Lab - - 2 1

BME04213 Mechanical Measurements and Automatic Control Lab

- - 2 1

BME04214 Machine Design Sessional-I - - 2 1

BME04215 Applied Numerical Techniques & Computing Lab

- - 2 1

BME04216 Soft Skills - III - - 2 1

E. Project / Seminar

Nil - - - -

F. Programmes / Activities

BME04617 Discipline and Talent Enrichment Programme (TEP) - IV

2

BME04617.1 Online Eligibility Exam (OLE) 0.5

BME04617.2/17.3 Library / Internet 0.5

BME04617.4 Aptitude / Campus Recruitment Training 2 - - -

BME04617.5 Extra Curricular Activities - - - - Total 22 3 12

28.5 Total Teaching Hours 37 Professional Certificate Course (PCC) shall be offered to all students equivalent to 2 hrs/wk. This course is Non credit Certificate cours and therefore is NOT a part of marksheet / gradeshet.


CORE Theory subjects Code: BME04101 FLUID MECHANICS 3.5 Credits [LTP: 3-1-0]


The objective(s) of this course is (are) to develop an understanding of the physical mechanisms and the mathematical models of

fluid mechanics. Students will develop knowledge, understanding, and skills in dealing with the theory and applications of fluid

mechanics problems in engineering practice. The basic principles of fluid mechanics will be learned through an understanding of

fluid properties, integral and differential forms of mass, momentum and energy conservation and similarity laws. Applications of

basic theories to practical fluid mechanics problems include fluid statics, viscous incompressible pipe flows and one-dimensional

compressible flows.

Introduction to fluid mechanics, required for all students of Mechanical Engineering. The students are introduced to the basic

concepts of fluid mechanics and to their applications in engineering. This course is designed to present the fundamental laws

relating to the static and dynamic behavior of fluids. The emphasis is placed on applications dealing with the flow of water and

other incompressible fluids. These include flow in pipe systems and natural channels.



1. Fluid Statics 9

2. Kinematics Of Fluid Flow 9

3. Laminar And Turbulent Flow 8

4. Flow Through Pipes 9

5. Boundary Layer Analysis 9


Unit Unit Details

1. Fluid Statics


Basic Definitions and Fluid Properties ; Definition of Fluid, Incompressible and compressible fluids, Fluid as a

continuum, Mass, Density, specific weight, relative density, specific volume, Bulk modulus, velocity of sound, Ideal

fluid, Viscosity. Newtonian and Non Newtonian fluid, Kinematic viscosity, Effect of temperature and pressure on

viscosity.

Fluid Statics : General differential equation, Hydrostatics Manometry, Fluid forces on submerged surfaces. Curved

surfaces, Aerostatics, Isothermal atmosphere, polytropic atmosphere. Vapour pressure, Surface tension, Capillary,

Speed of sound, Pressure at a point, Liquid pressure on plane area, Curved surface, Center of pressure, Manometer,

Buoyancy, Stability of floating and submerged body, Metacentric height, Uniform rotation of open vessels, Pascal’s

law.


2. Kinematics Of Fluid Flow


Types of flow, Definition of steady, Unsteady, Uniform, Non uniform, Laminar, Turbulent, 1D-2D flows, Stream

line, Streak line, Path line, Irrotational flow, concept of Velocity, potential & stream function flow net (no

mathematical treatments) , Continuity equation,2D Eulers equation, Bernoulli’s equation along a stream line for

compressible and incompressible flow and its application , pitot tube, Ventury meter, Differential monocircular

sharp edge mouth pieces and orifice rotometer, Orifices, Orifices meter.


3. Laminar And Turbulent Flow




1. Text book of Fluid Mechanics &

Hydraulic Machines , R.K. Bansal Latest Laxmi Publications, Delhi.

2. Hydralic and Fluid Mechanics Dr. P.N Modi ,Dr. S.M Seth Latest Standard Book House.

3. ,Fluid Mechanics, Hydraulics and

Hydraulic machine S. Ramamurtham Latest Danpat Rai & Sons

4. Engineering Fluid Mechanics Kumar K. L. Latest S.Chand & Company

5. Fluid Mechanics & Hydraulic Machines, R.K. Rajput Latest S.Chand & Company Ltd

6. Fluid Mechanics and Fluid Power

Engineering, Dr.D.S.Kumar Latest S.K.Kataria & Sons.

Websites

en.wikipedia.org/wiki/Fluid_mechanics

nptel.iitm.ac.in


Laminar Flow: Simple solution of Navier Stokes equations. Hagen – Poiseuille flow. Plans Poiseuille flow and coutte

flow.

Turbulent Flow; Variation of friction factor with Reynold’s number. The Prandt Mixing length hypothesis applied to

pipe flow, velocity distribution in smooth pipes, sough pipes. The Universal pipe friction laws, Colebrook. White formula.


4. Flow Through Pipes


Reynolds’s experiment, pipe discharging from a reservoir, pipe connecting two reservoir, pipes in series and parallel,

siphon, transmission of power and flow through nozzle.

Introduction to compressible flow, sound wave and Mach no. introduction to unsteady flow in closed conduit

oscillation of liquid , phenomenon of surges and water hammer and other there control .

Dimensional Analysis: Buckingham variables, Model Similitude, , important dimensionless numbers and their

significance - Force ratio, Reynolds, Froude’s Mach, Weber and Euler numbers and their applications. Undistorted model

distorted model scale effect.


5. Boundary Layer Analysis


The Boundary Layer: Description of the boundary layer. Boundary Layer thickness boundary layer separation and

control. The Prandtl boundary layer equation. Solution for cominar boundary layer. The momentum equation for the

boundary layer. The flat plate in uniform free stream with no pressures gradients. Approximate momentum analysis

laminar boundary Aerofoils Theory.

Flow around Immersed Bodies ; Flow round a body ; Drag skin friction drag, pressure drag, combined skin friction &

pressure drag (Profile drag) wave drag, lift induced drag. Flow past sphere & Cylinder. Introduction to CFD Methodology

(Elementary Treatment).



Code: BME04102 KINEMATICS OF MACHINES 4.5 Credits [LTP: 4-1-0]


It is a core Technology subject in Mechanical Engineering Discipline. Mechanical Engineering Diploma Holders often come across

various mechanisms in practice. He should be able to analyze, identify and interpret various mechanisms and machines in day-to-

day life. In maintaining various machines, a diploma technician should have sound knowledge of fundamentals of machine and

mechanism. It will be helpful to technician to understand the mechanisms from operational point of view in better way.

This subject imparts the facts, concepts, principles, procedure, kinematics involved in different machine elements and mechanisms

like lever, gear, cam, follower, belt, flywheel, brake, dynamometer, clutch, etc. Detail knowledge of above-mentioned aspect with

deep insight to the practical applications develops a professional confidence in them to become successful Engineer.



1. Fundamentals of kinematics 9

2. Velocity and Acceleration Analysis 9

3. Power Transmission 8

4. Brakes and Dynamometers 8

5. Cam and Followers 8


Unit Unit Details

1. Fundamentals of kinematics


Kinematic link, Types of links, Kinematic pair, Types of constrained motions, Types of Kinematic pairs, Kinematic

chain, Types of joints, Mechanism, Machine, Degree of freedom (Mobility), Kutzbach crieterion, Grubler’s criterion.

Four bar chain and its inversions, Grashoff’s law, Slider crank chain and its inversions, Double slider crank chain and

its inversions.

Mechanisms with Lower Pairs Pantograph, Exact straight line motion mechanisms-Peaucellier’s, Hart and Scott Russell

mechanisms, Approximate straight line motion mechanisms–Grass-Hopper, Watt and Tchebicheff mechanisms,

Analysis of Hooke’s joint, Davis and Ackermann steering gear mechanisms.


2. Velocity and Acceleration Analysis


Velocity in Mechanisms Velocity of point in mechanism, relative velocity method, Velocities in four bar mechanism,

slider crank mechanism and quick return motion mechanism, Rubbing velocity at a pin joint, Instantaneous center

method, Types & location of instantaneous centers, Kennedy’s theorem, Velocities in four bar mechanism & slider crank

mechanism.

Acceleration in Mechanisms Acceleration of a point on a link, Acceleration diagram, Radial and transverse components

of acceleration, Coriolis component of acceleration, Crank and slotted lever mechanism, Klein’s construction for Slider

Crank mechanism and Four Bar mechanism, Analytical method for slider crank mechanism.


3. Power Transmission


Friction: Laws of static, dynamic and rolling friction, dry and viscous friction, inclined plane and screw jack, ,pivots

and friction axis, bearing, Clutches. Theory of film lubrication.

Power transmission: effect of centrifugal force, Types of friction drives, Belts and ropes, open belt, cross belt, length

of belt. Slip. Creep, crowning of pulleys, steeped pulley. Chain, types, length of chain, power transmitted.


4. Brakes and Dynamometers




1. Theory of Machine” Khurmi, R.S., Gupta, J.K. Latest S. Chand.

2. Theory of Machines and

Mechanisms

Shigley J.E. and Uicker J.J. Latest McGraw Hill, Inc.

3. Theory of Machines Rattan S. S. Latest Tata McGraw Hill.

4. Theory of Machines Ballaney P. L. Latest Khanna Publishers, Delhi.

5. Mechanism and Machine Theory Rao, J.S., and Dukkipati, R.V. Latest Wiley Eastern Ltd.

6. Kinematics and Linkages Design Hall A.S. Latest Prentice-Hall.

Websites

www.nptel.iitm.ac.in

www.techulator.com


Brakes and dynamometers: Band, block and band & block brakes, braking action, absorption and transmission type

dynamometers,

Prony, rope and hydraulic dynamometers braking system of automobiles.


5. Cam and Followers


Cams: Type of cams, displacement, velocity and acceleration curves for different cam followers, Cam profile

Nomenclature; various types of motion of the follower-Uniform motion,

Simple Harmonic, Uniform Acceleration and Retardation, consideration of pressure angle and wear, analysis of motion

of followers for cams with specified contours.



Code: BME04103 MECHANICAL MEASUREMENTS AND AUTOMATIC CONTROL 3Credits [LTP: 3-0-0]


To impart basic knowledge about the measurement systems and their components. Mechanical Measurements and Controls forms

an important part of curriculum of mechanical engineering, automobile engineering and production engineering. To introduce the

principles of measurement , principles of uncertainty of measurements

To provide knowledge on the fundamentals of measurement science and measuring instruments . Students will be conversant with

measurement techniques and the use of measuring instruments .Will have working knowledge for dealing with problems involving

control system fundamentals.



1. Basic concepts of Mechanical Measurements 9

2. Temperature & Pressure measurement 7

3. Flow measurement 8

4. Automatic Control System 7

5. Sensors and control of Mechanical system 9


Unit Unit Details

1. Basic concepts of Mechanical Measurements


Basic Concepts System configuration, basic characteristic, calibration, classification and performance characteristics

of a instrumentation system, Standards and units, Generalized block Diagrams of measuring systems, Input output

configuration of measuring systems, Standard deviation an d variance. Specification and testing of dynamic response.

Introduction To Measuring Instruments Ammeter, Voltmeter, Wattmeter, energy meter, potential transformer and

current transformer, frequency meter and megger. Digital Vernier caliper.

Strain Measurement : Electric Strain Gauges -Types ; Selection and Installation, Strain gauge circuits; temperature

compensation and calibration; Use of Strain Gauges on Rotating Shafts, Gauge factor of strain gauge, Load Cells,

Mechanical and Optical Strain Gauges.


2. Temperature and Pressure measurement


Temperature scales, Ideal gas, Temperature measuring devices, Thermometer, Bi - metallic strip, Electrical resistance

thermometer, Thermistors and thermocouples, Laws of thermocouples and their applications, Construction and

calibration of thermocouples, Radiation pyrometers, total radiation pyrometers .

Definition of pressure, Units, Types of pressure measurement devices, Manometers, Dead weight tester, Bourdon tube

pressure gauge, Diaphragms and bellows, Low pressure measurement, The Mcleod gauge, Pirani thermal conductivity

gauge, Knudsen gauge, Ionization gauge, Piezo electric transducer Selection of pressure measuring devices for

specific applications , Calibration of pressure measuring devices.


3. Flow measurement


Flow Measurements Types of flow measuring devices, Constructional features, Obstruction meters like orifice,

Venturi nozzle and their calibration, Flow measurement by drag effects ( rotameter ) , Pitot tube, Hot wire

anemometers, Magnetic flow Meters, Flow visualization Techniques, Shadowgraph, Interferometer, Laser doppler

anemo -meter, Ultra sonic flow meter.

Miscellaneous Measurements; Basic methods of force measurements, Torque measurement on rotating shaft, Poney

brake and eddy current dynamometers, Stress and strain measurements, Wheatstone bridge, Rosettes, Speedometer and

stroboscope, Ballast circuit, , Vibration measurement using accelerometer.





1. Instrumentation, Measurements and

Control

Nakra, B.C. and Chaudhry,

K.K

Latest Tata McGraw Hill,

2. Mechanical Measurements Beckwith, T. G. and W.L.

Buck: Addison Wesely Publishing

3. A course in Electrical measurement

& Instrumentation

A. K. Sawhney Latest Dhanpat Rai & Co.

4. Principles of Power System V.K.Mehta, Latest S. Chand & Co.

5. Basic Electrical Engineering V. N. Mittle, Latest Tata McGraw Hill,

6. Mechanical Measurement &

Instrumentation

R.K.Rajput. Latest S. Chand & Co

Websites

en.wikipedia.org/wiki/Automatic_control

www.msbecl.ac.in/Department/Mechanical.htm

4. Automatic Control System


Introduction to Multi-Channel Data-Acquisition System, Measurement Pods, Interface Hardware, Data Analysis

Software, Interfacing.

Concepts and examples of automatic control systems, systems by differential equations, transfer function, block

diagram, open and feed back control systems, signal flow graphs & its constructions. Control System components,

error sensing devices and servo motors.


5. Sensors and control of Mechanical system


Sensors:- Various Mechanical, Electro-Mechanical & Photoelectrical Sensors for sensing of Displacement, Velocity,

Acceleration, Torque, Force, Temperature from Low to High Range, flow, level of fluid , pressure, angular speed,

voltage, frequency and current.

Control for mechanical systems & processes ; speed control system for steam/gas turbines. A constant tension ;reeling

system, Electro-mechanical systems. Thermal systems, Pneumatic systems; Mathematical Models of physical systems,

Feedback characteristics of Control Systems. Time response analysis; transient response analysis, time response

specifications, steady state-error.



Code: BME04104 DESIGN OF MACHINE ELEMENT-I 3 Credits [LTP: 3-0-0]


Learn to analyze and design basic machine elements in mechanical systems. Course demonstrate how engineering design uses the

many principles learned in previous engineering science courses and to show how these principles are practically applied. The

emphasis in this course is on machine design: the design and creation of devices that consist of interrelated components used to

modify force and/or motion. The type of design addressed in this course is that of detailed design, which is to define the shape,

size and material of a particular machine element such that it will not fail under the expected load and operating conditions.

Material learned will provide the basic knowledge necessary for professional practice in the design of machines. To study about

various mechanical elements like Cotter joints. And to understand the behavior of elements like springs. And design of pressure

vassals.



1. Design processes and Material selection 8

2. Design for strength: 9

3. Design of members in Bending: 8

4. Design of members in torsion 9

5. Combined Stresses 7


Unit Unit Details

1. Design processes and Material selection


Materials: Properties and IS coding of various materials, Selection of material from properties and economic aspects.

Manufacturing aspects in Design : Selection of manufacturing processes on the basis of design and economy, Influence

of rate of production, standard size, Influence of limits, fits tolerances and surface finish. Change in the shape of the

designed element to facilitate its production, Design of castings, working drawing.


2. Design for strength:


Design for strength: Allowable stresses, detailed discussion on factor of safety (factor of ignorance): Stress

concentration. Causes & mitigation. Introduction of various design considerations like strength, stiffness, weight, cost,

space etc. Concept of fatigue failures.

Design of machine elements subjected to direct stress, Pin, cotter and keyed joints, Design of screw fastening.

3. Design of members in Bending:


Bending stress in straight & curved beam, springs, Laminated springs, stress and deflection equation, spring design –

trial and error method, Leaf spring design, Multi leaf spring, Nipping in leaf spring, Materials used for leaf spring

manufacturing, Design against fluctuating load.

Types of levers & working principle, Lever Manufacturing & Applications, Various sections for levers, Design of

Levers.


4. Design of members in torsion


Transmission shafts, Shafts design on strength basis, ASME code for shaft design, Design consideration & causes of

failure of shaft, Shaft subjected to combine twisting moment and bending moment. Design of hollow shaft on strength

basis & Torsional rigidly basis. Flexible shafts, Shaft subjected to fluctuating loads ,

Shaft couplings ;Design procedure and applications of Keys ,Muff couplings ,Clamp coupling, Rigid Flange coupling,

Rigid flange couplings, Bushes-pin flexible coupling, Oldham coupling,Universal coupling, Design of lateral rigidity




Sr. No Reference Book Author Edition Publication

1. Introduction to Machine Design Bhandari, V.B., Latest Tata McGraw-Hill

2. A Text book of Machine Design Khurmi, R.S., Gupta, J.K., Latest S. Chand Publication.

3. Design of Machine element Bhandari, V.B., Latest Tata McGraw-Hill

4. Mechanical Engineering Design Shigley, J.E., 5th Ed. ---

5. Machine Design Databook Lingaiah, K. Latest Tata McGraw-Hill

6. Design of Machine Elements

C.S.Sharma & Kamlesh

Purohit,

Latest Prentice Hall of India Pvt. Ltd.

Websites

www.nptel.iitm.ac.in/

en.wikipedia.org/wiki/Machine_element

5. Combined Stresses


Design of Shaft under combined stresses. Design procedure for Shaft under combined stresses. Bolted joint-simple

analysis. Eccentrically loaded bolted joints in shear, Eccentric loads perpendicular to axis of bolts. Eccentric loads on a

bracket with circular base, Bolted joints under fluctuating load, Deflections of shapes in combined torsion and bending,

Deflection of shafts in combined, Bending and axial Bending

Screw fasteners subjected to eccentric loading. Eccentric loading of riveted joints, welded joints, threaded joints,

Brackets, Bolts & bending


http://www.nptel.iitm.ac.in/


Code: BME04105 APPLIED NUMERICAL TECHNIQUES & COMPUTING 3.5 Credits [LTP: 3-1-0]


To introduce the student to numerical techniques of relevance to physical data analysis and mathematical physics. The aim of the

course is to teach computational methods for solving ordinary and partial differential equations that arise in scientific problems.

This includes the construction, analysis, and application of basic computational algorithms. This course provides the student an

overview of how the analysis of numerical methods are done with respect to computer programming



1. Software development 8

2. Numerical Integration 8

3. Interpolation and Curve Fitting 9

4. Elimination and Iterative Methods 8

5. Finite element method 8



Unit Unit Details

1. Software development


Software development - Software development principles mathematical modeling problem solving, Algorithm,

Flowchart , Errors , Graphical method,

Solution of transcendental equation - Bisection method, False position method, successive approximation method,

Newton-Raphson method, Horner’s method, rate of convergence.


2. Numerical Integration


Numerical Integration ; Trapezoidal rule, Simpson’s 1\3rd rule, Simpson’s 3\8th rule, Gauss quadrature technique,

Solution of ordinary Differential Equation Taylor’s series method, Euler’s method, Improved & modified Euler’s

method, Fourth order Range- Kutta method.


3. Interpolation and Curve Fitting


Interpolation - Linear and quadratic interpolation, Lagrange’s interpolation, Newton’s forward interpolation, Newton’s

backward interpolation, Newton’s divided difference interpolation, Stirling interpolation,

Curve fitting , Linear & quadratic regression, Logarithmic curve fitting, Exponential curve fitting.


4. Elimination and Iterative Methods


Solution of Linear Algebraic Equation - Gauss elimination method , Gauss Jordan method LU- decomposition method.

Iterative method - Jacobi iteration method, gauss seidel interactive method, Cholesky method convergence analysis,

choice of method.


5. Finite element method


Finite Difference Method Solution of ordinary differential equation, solution of elliptical equation for various boundary

condition, solution of parabolic equation by explicit , implicit and crank-Nicolson method ,

Finite Element Method Finite element method introduction, comparison with finite difference method, general

approach, interpolation function, finite element application on one dimensions



Sr. No Reference Book Author Edition Publication

1. Numerical Method for Engineer Chapra, Canale Latest McGraw Hill Co.

2. Numerical Methods P. Kandaswamy Latest S. Chand & Co. New Delhi

3. Finite Element Method J. N. Reddy Latest McGraw Hill Co.

4. Let us C Y. Kanitkar Latest BPB Publications

5. Introductory Method of

Numerical Analysis

S. S. Shastri Latest Prentice Hill India.

6. Numerical Methods John. H. Mathews, Latest Pearson Education.

Websites

engineering.myindialist.com

www.nottingham.ac.uk


Departmental Electives

Code: BME04106 FLEXIBLE MANUFACTURING SYSTEMS 3 Credits [LTP: 3-0-0]


To impart knowledge about the design, operation, and selection of Flexible Manufacturing Systems and their integration in today's

production environments. The course will make students understand the integration of components of FMS under different

production management approaches.

The objective of the course is to give the student knowledge of the entire production process, including the steps from design and

choice of manufacturing strategy to planning, design, implementation, and simulation of flexible manufacturing systems. By

focusing the whole process from strategy to manufacturing system ready to use, the student will get an overall picture of the

creation of the manufacturing system.



1. Automation 8

2. Automated assembly systems 9

3. Group Technology: 8

4. Flexible Manufacturing Systems: 9

5. Robotic technology 9


Unit Unit Details

1. Automation


Automation: Types of automation, reasons for automating, automation strategies, Detroit-type automation: Automated

flow lines, methods of work part transport, Transfer mechanisms, buffer storage, automation for machining operations.


2. Automated assembly systems


Automated assembly systems: Design for automated assembly, types of automated assembly systems, part feeding

devices, quantitative analysis of the delivery system operation, analysis of a single-station assembly machine,

numerical.


3. Group Technology:


Group Technology: Part families, parts classification and coding, types of classification and coding systems. Machine

cell design: The composite part concept, types of cell designs, determining the best machine arrangement, benefits of

group technology.


4. Flexible Manufacturing Systems:


Flexible Manufacturing Systems: Components of an FMS, types of systems, where to apply FMS technology, FMS

work stations. Material handling and storage system: Functions of the handling system, FMS layout configurations.

Material handling equipment. Computer control system: Computer function, FMS data file, system reports. Planning

the FMS, analysis methods for FMS, applications and benefits.


5. Robotic technology




1. Automation, Production Systems

and Computer Integrated

Manufacturing

Groover M.P Latest Prentice Hall of India.

2. CAD/CAM –Zimmers E.W Groover M.P Latest Prentice Hall of India.

3. Approach to Computer

Integrated Design and

Manufacturing

Nanua Singh Latest John Wiley and Sons

4. Production Management

Systems: A CIM Perspective

Browne J, Harhen J, Shivnan J 2nd Ed. Addison Wesley,

5. Flexible Manufacturing System H. K. Shivanand Latest New Age International

6. Flexible manufacturing

systems: methods and studies

Andrew Kusiak Latest A1Books.co.in

Websites

www.uky.edu/~dsianita/611/fms.html

me.emu.edu.tr/majid/IENG447/FMS


Robotic technology: Joints and links, common robot configurations, work volume, types of robot control, accuracy and

repeatability, other specifications, end effectors, sensors in robotics.

Robot programming: Types of programming, lead through programming, motion Programming, interlocks,

advantages and disadvantages. Robot languages: Motion programming, simulation and off-line programming, work

cell control.

Robot applications: Characteristics of robot applications, robot cell design, types of robot applications: Material

handling, processing operations, assembly and inspection.


http://www.newagepublishers.com/servlet/nagetbiblio?bno=001284

http://www.google.co.in/search?tbo=p&tbm=bks&q=inauthor:%22Andrew+Kusiak%22

http://www.a1books.co.in/searchdetail.do?a1Code=booksgoogle&itemCode=0444879218

http://www.uky.edu/~dsianita/611/fms.html


Code BME04107 ELECTRICAL MACHINES AND AUTOMOTIVE CONTROL 3 Credits [LTP: 3-0-0]


The main objective of the course is to acquire the basic concepts of automatic control systems, particularly to learn the basics of

control system representations/modeling and stability analysis (in time and frequency domains). The main objective of electrical

machines is to describe the working principles and construction of several electrical machines & their applications in industries.

To demonstrate knowledge & understanding of theory of electrical generators & motors, fundamental characteristics of various

types of machines, construction issues related with these machines. To understand that how to model a number of electrical,

mechanical and electro mechanical systems & acquire knowledge of basic components of a control system and determine stability

of various systems.



1. Transformer and D.C. Motors 9

2. A.C Motors 8

3. Mechanical Systems 9

4. Stability 8

5. Response Analysis 8


Unit Unit Details

1. Transformer and D.C. Motors


Single phase Transformer: Efficiency Voltage regulation, O.C.& S.C. Tests.

Three Phase Transformer: Three phase transformer connections, 3-phase to 2-phase or 6-phase connections and

their applications.

Auto Transformer: Volt- Amp relations, efficiency, advantages & disadvantages, applications.

D.C. Motors: Concept of starting, speed control, losses and efficiency.


2. A.C Motors


Three phase Induction Motor: Construction, equivalent circuit, torque equation and torque- slip characteristics,

speed control.

Alternator: Construction, e.m.f. equation, Voltage regulation and its determination by synchronous impedance

method.

Synchronous Motor: Starting, effect of excitation on line current (V-curves), synchronous condenser.

Servo Motor: Two phase A.C. servo motor & its application.


3. Mechanical Systems


Modeling of Mechanical System: linear mechanical elements, force-voltage and force current analogy, electrical

analog of simple mechanical systems; concept of transfer function & its determination for simple systems.

4Control System: Open loop & closed loop controls, servo mechanisms; concept of various types of system.

Signals: Unit step, unit ramp, unit impulse and periodic signals with their mathematical representation and

characteristics.


4. Stability


Time Response Analysis: Time response of a standard second order system and response specifications, steady state

errors and error constants.




1. Electrical machines I. J. Nagrath & D. P. Kothari, Latest Tata McGraw Hill.

2. Fundamentals of Electrical

Machines

B.R. Gupta & Vandana

Singhal,

Latest New Age

International.

3. Modern Control Engineering D. Roy Choudhary, Latest Prentice Hall of India.

4. Control Systems: Principles and

Design

M. Gopal, Latest Tata McGraw Hill.

5. Automatic Control systems B.C. Kuo, Latest Wiley India Ltd.

6. Modern Control Engineering K. Ogata, Latest Prentice Hall of India.

Websites

www.chargelabs.ca/

www1.eere.energy.gov

Stability: Concept and types of stability, Routh Hurwitz Criterion and its application for determination of stability,

limitations; Polar plot, Nyquist stability Criterion and assessment of stability.


5. Response Analysis


Root Locus Techniques: Concept of root locus, construction of root loci.

Frequency Response Analysis: Correlation between time and frequency responses of a second order system; Bode

plot, gain margin and phase margin and their determination from Bode and Polar plots.

Process control: Introduction to P,PI and PID controllers their characteristics, representation and applications.


http://www.chargelabs.ca/


Code: BME04108 MACHINING AND MACHINE TOOLS 3 Credits [LTP: 3-0-0]


The objectives of this course are to introduce: fundamentals of machining processes and machine tools, To develop knowledge

and importance of metal cutting parameters, To develop fundamental knowledge on tool materials, cutting fluids and tool wear

mechanisms.

Where students acquire the ability to Formulate problems in metal cutting and evaluate the cutting parameters when vendor gives

machine requirement or cutting condition requirement, determine a complete solution to metal cutting problems using mathematical

or graphical techniques, and determine physical and design interpretations of metal cutting parameters in design and sale of machine

tools



1. Theory of Metal cutting 8

2. General Requirement of Machine Tool 9

3. Special Purpose Machine Tools and Processes 8

4. Gear and Thread Manufacturing 7

5. Forming methods and Industrial safety 7


Unit Unit Details

1. Theory of Metal cutting


Classification of metal removal process and machines Mechanics of metal cutting: Geometry of single point cutting

tool and tool angles. Tool nomenclature in ASA, ORS, NRS and interrelationship. Mechanism of chip formation and

types of chips, chip breakers. Orthogonal and oblique cutting, cutting forces and power required, theories of metal

cutting. Thermal aspects of machining and measurement of chip tool interface temperature. Friction in metal cutting.


2. General Requirement of Machine Tool


Machinability: Concept and evaluation of machinability, tool life, mechanisms of tool failure, tool life and cutting

parameters, machinability index, factors affecting machinability. Cutting fluids: Types, properties, selection and

application methods General Purpose Machine Tools:

Classification and constructional details of lathe, drilling, milling, shaping and planning machines. Tooling,

attachments and operations performed selection of cutting parameters, calculation of forces and time for machining.

Broaching operation.


3. Special Purpose Machine Tools and Processes


Special Purpose Machine Tools: Automatic lathes, capstan and turret lathe machines. Swiss automatic, operational

planning and turret tool layout, sequence of operations. Tracer attachment in Machine Tools: mechanical-copying

machines; Hydraulic Tracing Devices; Electric Tracing systems; Automatic tracing.

Abrasive processes: Abrasives; natural and synthetic, manufacturing, nomenclature. Selection of grinding wheels,

wheel mounting and dressing, characteristic terms used in grinding. Machines for surface and cylindrical grinding,

their constructional details and processes. Surface finishing: Honing, lapping, super finishing, polishing and buffing

processes.


4. Gear and Thread Manufacturing




1. Machine Tool Design N.K.Mehta. Latest Tata McGraw Hill Publishing

2. Machine tool design Sen and Bhattacharya , Latest CBS Publications

3. Machine Tool Design S.K,.Basu, Latest Oxford and IBH Publishing

4. Machine Tool Design Acherkan, Latest Mir publishing

5. Design Principles of Metal-Cutting

Machine Tools

F. Koenigsberger. Latest Mir publishing

6. ,A Textbook of Production

Engineering

P. C. Sharma Latest S. Chand & Company. Ltd.

Websites

www.egr.msu.edu/~pkwon/me478/operations

web.iitd.ac.in/.../Machining


Thread Manufacturing: casting; thread chasing; thread cutting on lathe; thread rolling, die threading and tapping;

thread milling; thread grinding. Gear Manufacturing Processes: hot rolling; stamping; powder metallurgy; extruding

etc. Gear generating processes: gear hobbling, gear shaping. Gear finishing processes: shaving, grinding, lapping,

shot blasting, phosphate coating, Gear testing.


5. Forming methods and Industrial safety


High Velocity Forming Methods: (High-energy rate forming processes) Definition; Hydraulic forming, Explosive

forming, Electro-hydraulic forming, Magnetic pulse forming.

Industrial Safety: Human factor in machine equipment safety; reducing industrial noise; precautions to be taken by

operators for safe working on different machine tools.


http://www.egr.msu.edu/~pkwon/me478/operations


Code: BME04109 POWER PLANT ENGINEERING 3 Credits [LTP: 3-0-0]


To impart knowledge of working methodology of different power plants. To become familiar with operation of various power

plants.

This course is concerned with the types, construction, working principles and performance of different types of conventional and

non-conventional power plants. The design, construction, operation and performance of various components of steam, gas and

diesel power plant e.g. condensers, cooling towers, fuel and air handling systems, steam generators, super heaters, intercoolers,

reheaters and regenerators, It also discusses the basics of nuclear energy and operation of nuclear power plants. The course also

covers basics of plant economics and the impact of power plants on the environment.



1. Thermal Power Plants: 9

2. Diesel & Gas Turbine Power Plants: 9

3. Hydro Power Plants: 8

4. Nuclear Power Plants: 8

5. Non-Conventional Power Plants 7


Unit Unit Details

1. Thermal Power Plants:


Introduction: Energy sources for generation of electric power, energy policy of India, present status and future

trends, major power plants in India.

Thermal Power Plants: Selection of site, general layout of the plant, major components-boilers, economizers,

super-heaters, air preheaters, fuels; Fuel and ash handling equipments; High pressure boilers; Steam turbines;

Station heat balance and plant efficiency.


2. Diesel & Gas Turbine Power Plants:


Diesel Power Plants: Diesel engine, engine performance and operation, super charging; Diesel electric power

plant layout.

Gas Turbine Power Plants: Gas turbine power plants, basic cycles, cycle calculation, ideal and real operating

cycles, components and layout.


3. Hydro Power Plants:


Classification of hydro-plants, selection of site, rain fall and run off, calculation of storage capacity, plant

layout, estimation of power available, selection of hydraulic turbines and their governing.


4. Nuclear Power Plants:


Introduction; Atomic structure and radioactivity, nuclear reactions, binding energy; Nuclear Reactors: Types of

reactors, pressurized water reactors, boiling heater reactors, heavy water-cooled and moderated (CANDU) reactor,

gas-cooled reactors, liquid metal cooled reactors; Indian nuclear power installations, comparison between

nuclear and thermal plants.





1. Power Plant Theory and Design Potter, P.J. Latest Kreiger Publishing Co.

2. Modern Power Station Practice Central Electricity Generating

Board Latest Pergamon

3. Heat Power Norris, E.B., and Therkelsen, E. Latest McGraw-Hill

4. Nuclear Power Plant Engineering Rust,J.H. Latest Haralson Pub Co.

5. Power Plant Technology El-Wakil, M.M Latest McGraw-Hill

6. Power Plant Engineering P.K. Nag Latest Tata McGraw Hill

Websites

www.powerplantengineering.com/

en.wikipedia.org/wiki/Power_engineering

5. Non-Conventional Power Plants


Non-Conventional Power Plants: Geothermal power plants, tidal power plants, wind power plants, solar

power plants, M.H.D. generators.

Power Plant Economics: Plant investment costs, fixed charges; Operation cost, energy cost, depreciation and

operating costs on thes election of equipments, incremental cost, comparison of fixed and operating costs.


http://www.powerplantengineering.com/


Code: BME04110 LASER SYSTEMS AND APPLICATIONS 3 Credits [LTP: 3-0-0]


This course provides a comprehensive treatment of the generation of laser light, its properties, and applications. Topics include

specific laser systems and pumping mechanisms, nonlinear optics, temporal and spatial coherence, guided beams, interferometric

and holographic measurements, and remote sensing.

This Course to introduce the student to pulsed lasers, nonlinear optics, laser design, specific laser systems, the general properties of

laser light and applications. To make students aware about the different fields where Laser is used.



1. Laser technology 9

2. Laser Systems 8

3. Laser parameters 8

4. Types of Laser 7

5. Laser Assisted Surface Engineering Techniques 8



Unit Unit Details

1. Laser technology


Conditions for Producing Laser, Concept of coherence – Special and temporal,Population Inversions, Einstein

coefficient, Gain and Gain saturation, Saturation intensity.

Development and Growth of a Laser Beam, Exponential Growth factor, Threshold Requirement for a Laser.


2. Laser Systems


Inversions and two-level systems, steady-state inversions and three and four-level systems. Transient Population

Inversions, Factors effecting population inversion, Laser Amplifiers.


3. Laser parameters


Excitation or Pumping Threshold Requirements, Pumping Pathways, Specific Excitation Parameters Associated with

Optical and particle Pumping.


4. Types of Laser


Helium-Neon Laser, Co Laser, Ruby Laser, Semiconductor Diode Laser.


5. Laser Assisted Surface Engineering Techniques:


Laser cladding, alloying, glazing, laser and induction hardening, heat treatment of steel and remelting by laser,

microwave glazing.



1. Laser Fundamentals William T. Silfvast Latest Cambridge University, Press.

2. Introductory University Optics John Beynon Latest (PHI)

3. Laser B.B. Laud. Latest ---

4. Optics A.K. Ghatak Latest (TMH)

6. Advanced Surface Coatings: A

Handbook of Surface Engineering

Rickerby, D.S., and Matthews, A. Latest Blackie

Websites

www.intechopen.com/books/laser-systems-for-applications.

www.lap-laser.com/

http://www.intechopen.com/books/laser-systems-for-applications


PRACTICALS

Code: BME04211 FLUID MECHANICS LAB 1 Credit [LTP : 0-0-2]


1. Study of Pressure Measuring devices.

2. Determination of viscosity of liquids and its variation with temperature.

3. Determine Metacentric height of a given body.

4. Determine head loss of given length of pipe.

5. Determine flow rate of air by Venturi meter

6. Determine flow rate of air by orifice meter

7. .Study of Laminar and Turbulent flow by use of Reynolds apparatus

8. Determine flow rate of air by nozzle meter.

9. Study of momentum equation

10. Determination of co-efficient of friction in pipes.

11. To study the boundary layer velocity profile over a flat plate and to determine the boundary layer thickness.

12. Determine velocity of water by pitot tube.

13. Determine Cd, Cv & Cc for given orifice

Code: BME0412 KINEMATICS OF MACHINE LAB 1 Credits [LTP : 0-0-2]


1. To study inversion of four bar chain Mechanism

2. Study of quick return mechanism.(Crank and Slotted lever mech.)

3. To draw velocity and acceleration diagram for Crank and slotted lever mechanism.

4. Study of inversion of Double slider chain Mechanism

5. To determine the slip of belt drive.

6. To plot displacement v/s θ curve for various cams.

7. Study of various cam-follower arrangements.

8. To determine co-efficient of friction.

9. Study of various types of dynamometers, Brakes and Clutches.

10. To determine moment of inertia of the given object using of Trifler suspension

11. Identifying different mechanisms used for motion conversion in sewing machine.

12. Two problems on velocity and acceleration analysis using Graphical methods i.e., polygons or ICR.

13. Two problems on velocity and acceleration analysis using Graphical methods i.e., polygons involving Coriolis

component or Klein’s construction


Code: BT604ME213 MECHANICAL MEASUREMENTS AND AUTOMATIC CONTROL LAB 1 Credit [LTP : 0-0-2]


1. Calibration of thermocouple.

2. Study of Load Measurement System Load Cell + Load Indicator

3. Calibration of Thermocouple Wire.

4. Block diagram formation for Control Systems.

5. Displacement Measurement Using Light Dependent Register Set up

6. Displacement Measurement using Capacitive Pick -up System

7. Displacement Measurement Using Inductive Pick-up System

8. Study of Speed Measurement System (i) Magnetic Pick-up (ii) Strobometer

9. Calibration of bourdon tube type pressure gauge.

10. Measurement of electrical energy.

11. Speed control of DC motor.

12. Exposure to data acquisition systems

13. Polarity test on single phase transformer.

Code: BME04214 MACHINE DESIGN SESSIONAL-I 1 Credit [LTP : 0-0-2]


1. Assignment on Selection of material & IS coding

2. Assignment on Selecting fit & assigning tolerances

3. Assignment on Examples of Production considerations.

4. Numericals on Knuckle joints

5. Numericals on Cotter joints

6. Numericals on Torque : Keyed joints & shaft couplings

7. Design of screw fastening

8. Design of Bending structures : Beams, Levers etc.

9. Combined stresses : Shafts, brackets, eccentric loading.

10. Design for rigidity (Transverse / Torsional)

Code: BME04215 APPLIED NUMERICAL TECHNIQUES & COMPUTING LAB 1 Credit [LTP: 0-0-2]


1. General program like sorting, conditional interest etc.

2. Solution of quadratic equation.

3. Solution of transcendental (exponential or logarithmic) equation related with Engineering application.

4. Calculation of work/heat transferred by using any integration method.

5. One exercise on numerical integration related to mechanical Engineering application.

6. Solution of Poisson equation.

7. Solution of one dimensional parabolic equation by Crank-Nicolson method.

8. Curve fitting for the data related to mechanical engineering application.

9. Solution of one/two dimension problem by finite element method using any compatible software.

10. Interpolation for any tabulated data used in mechanical engineering.

11. Numerical Integration with Simpson's rule and Gaussian Integration

12. Solution of partial differential equations using S.O.R. Technique with special reference to heat conclusion equation.


Code: BME04216 SOFT SKILLS -III 1 Credit [LTP: 0-0-2]

COURSE OVERVIEW AND OBJECTIVES: The areas included in the present syllabus aim at strengthening the skills prerequisite to

placement. As far as Soft Skills are concerned, IV semester is the pre-final semester as Soft Skills are not scheduled in V semester and

VI is the last semester for Soft Skills training. Therefore, in IV semester an intensive training of Interpersonal Skills including Leadership

Skills, Time Management, Positive thinking and Effective Listening is included. The level and scope of Group Discussion and Personal

Interview is also advanced and wide in this semester’s training. In Analytical Skills, the students are required to analyze a magazine

article, a movie and a book and they are to give Power Point Presentations on these. Keeping in perspective the Group Discussion and

Personal Interview, the students have to face during their recruitment process, General Awareness, General Knowledge, General

Science, Puzzles and Vocabulary building activities are included in the syllabus. The sessions to acquire the knowledge about how to

acquire information from Internet, Magazines and Journals are targeted to make the students aware of the knowledge sources apart from

their textbooks. At regular intervals mock drills of Group Discussion and Personal Interview are held. Through quizzes, presentations,

comprehension and group tasks, lot of activities are conducted.



1. Interpersonal Skills 8

2. Group Discussion 8

3. Analytical Skills: Advanced 8

4. Lateral Thinking 8

5. Personal Interview 8




1. Personality Development and Soft skills Barun K Mitra Latest Oxford Univ Press

2. Business communication Meenakshi Raman Latest Oxford Univ Press

3. Communication Skills --- 3rd Ferguson Publishing

4. The ACE of Soft Skills: Attitude,

Communication and Etiquette for Success

Gopalaswamy Ramesh &

Mahadevan Ramesh

1st Pearson Publishing

Unit Unit Details

1. Interpersonal Skills

Leadership Skills

Time Management

Positive Thinking

Effective Listening

2. Group Discussion

Topic Based Group Discussion

Case Based Group Discussion

Group Discussion on Newspaper Article

Group Discussion on Video

3. Analytical Skills: Advanced

Magazine Article Analysis

Movie Analysis and Presentation

Book Reading: Presentation

4. Lateral Thinking

General Awareness

General Knowledge and Science

Lateral Thinking Puzzles

Vocabulary Games: Crosswords,

Use of Internet, Magazines and Journals

5. Personal Interview

Résumé Making

Activities related to Self Awareness and Self Expression

Mock Personal Interview

http://www.goodreads.com/author/show/4505148.Ferguson_Publishing


Code: BME04617 DISCIPLINE AND TALENT ENRICHMENT PROGRAMME (TEP)-IV 2 credit

OVERVIEW AND OBJECTIVES The objective of Discipline and TEP is to provide students with the opportunities to enhance job

fetching skills and at the same time to cultivate the student’s personal interests and hobbies while maintaining the good disciplinary

environment in the University. TEP is integrated into the curriculum for holistic development of students through active participation in

various activities falling in Technical and non technical categories.

Discipline and Talent Enrichment Programme (TEP) -IV shall be evaluated irrespective of period/time allocation (as in the case of Extra

Curricular activity) in the teaching scheme as a TWO credit course. The record related to discipline and related activities are maintained

for each student and they shall be evaluated for the same also. It shall be counted in calculation of SGPA but it is not a backlog subject.

However, the attendance of these classes shall be recorded and accounted in the total attendance.

Activities included in this category in the Fourth Semester are as follows:

Code Activities Hours Credits

BME04617.1 Online Eligibility Exam (OLE) 0.5

2

BME04617.2/17.

3

Library / Internet 0.5

BME04617.4 Aptitude / Campus Recruitment Training 2

BME04617.5 Extra Curricular Activities -

Professional certificate course (PCC)

COURSE OVERVIEW AND OBJECTIVES: The student of one particular class/section will get an opportunity to pursue one

Certificate course from the basket of technical certificate courses offered as per the scheme of curriculum. The selection of course will

be done on the basis of market requirements and decided by the HOD of the concern Department.

The Objectives of the course are:

To impart training of latest trends and technology commonly employed in current scenario.

To certify the students as expert after successful completion of the training.

After successful completion of PCC course a certificate may be issued to all the students at the end of the semester along with the grade

sheet with marking their performance in the 5 point scale as excellent (5 point), very good (4 point), Good (3 point), average (2 point)

and below average (1 point). This course may be considered as a non credit course and therefore will not be the part of mark sheet/grade

sheet. However, the attendance of these classes shall be recorded and accounted in the total attendance. The evaluation of this course

shall be made two times i.e. After Mid-Term exam and End Term Exam.

Areas for Professional Certificate Course (PCC)

****

1. Towards Manufacturing Excellence

2. Quality Assurance, Control & Inspection

3. Maintenance – Preventive, Predictive Breakdown

Two wheeler, Four Wheeler Vehicle

4. Product Design & Development

5. Plastic Injection Molding

6. Lubrication Engineering

7. Finite Element Method

8. Welding Technology

9. Metrology & Reverse Engineering

10. AutoCAD 2D and 3D

First Year Syllabus - Poornima University · lower calorific value by Bomb Calorimeter, Determination of higher & lower calorific value by Junker’s Calorimeter Calculations of calorific

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