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First Level B. Tech. Courses and Codes

CODE SUBJECT L T P

CC101 Calculus 3 2 0

CC102 Vector Calculus and Linear Algebra 3 2 0

CC111 Basic Civil Engineering 4 0 2

CC121 Computer Programming 3 0 2

CC122 Computer Workshop 0 0 2

CC131 Basic Electrical Technology 3 0 2

CC132 Electrical Workshop 0 0 2

CC141 Fundamentals of Electronics 3 0 2

CC142 Electronics Workshop 0 0 2

CC143 Engineering Physics 3 0 2

CC151 Engineering Graphics 2 0 4

CC152 Elements of Mechanical Engineering 4 0 2

CC153 Workshop 0 0 4

CC161 Engineering Mechanics 3 0 2

CC171 Communication Skills 2 0 2

CC172 Engineering Practices & ethics 2 0 0

CC173 SEHU 2 0 0

CC174 Value Education, Human Rights & Legislative

Procedures

2 0 0

L: Lectures, T: Tutorial / Teacher Guided Student Activity, P: Practical, C: Credit, ESE: End

Semester Examination/ Assessment, CE: Continuous Evaluation.

CC101: Calculus

Teaching scheme Credits Marks Distribution

Total marks L T P C

Theory marks Tutorial marks

ESE CE ESE CE

3 2 0 5 70 30 30 20 150

Course Content:

Sr.

No.

Topics Teaching

hours

1. Differential Calculus and its Applications:

Reorientation of Calculus. Differentiation of Hyperbolic and Inverse

Hyperbolic Functions. Successive Differentiation, Standard forms,

Leibniz’s Theorem (Without Proof) and Applications. Taylor Series and

Maclaurin Series Expansions; Errors and Approximation, Indeterminate

forms.

08

2. Tracing of Curves:

Tracing of Cartesian, Polar and Parametric form of Standard Curves.

Reduction formulae of 2 2 2

0 0 0sin , cos , sin cosn n m nxdx xdx x xdx

π π π

∫ ∫ ∫

(Statements Only)

Applications to Find Area, Volume of Standard Curves.

10

3. Infinite Series:

Sequence and Their Convergence, Convergence and Divergence of

Infinite Series, Geometric Series, P-Test, A Necessary Condition for

Convergence, Comparison Test, Ratio Test.

08

4. Partial Differentiation and its Applications:

Partial and total Differential Coefficient, Euler’s Theorem, Geometrical

Interpretation of Partial Derivative, Jacobian, Taylor’s Expansion for Two

Variables, Errors and Approximations, Maxima and Minima of Function

of Two Variables, Lagrange’s Method of Undetermined Multipliers to

Determine Stationary Values.

10

5. Multiple Integral and its Applications:

Double Integrals, Evaluation, Change of The Order of Integration for

Cartesian Coordinates, Change in Polar Coordinates, Evaluation of Triple

08

Integrals, Application to find Area and Volume.

Reference Book:

1. Weir, M.D. et al.; Thomas’ Calculus (11th Edition), Pearson Education, 2008.

2. Grewal, B. S.; Higher Engineering Mathematics, Khanna Publisher, New Delhi,

(Latest Edition).

3. Sastry, S. S.; Engineering Mathematics – Vol. I and II, Prentice Hall of India.

4. Stuart, J.; Calculus, Cengage Learning India Pvt Ltd (2008)

CC102: Vector Calculus and Linear Algebra

Teaching scheme Credits Marks Distribution

Total marks

L T P C Theory Marks Tutorial Marks

ESE CE ESE CE

3 2 0 5 70 30 30 20 150

Course Content:

Sr.No. Topics Teaching

hours

1. Matrices and its applications:

Types of Matrices, Elementary Row and Column Operations, REF,

RREF, Rank of Matrix by Different Techniques, Solution of

Homogeneous and Non-homogeneous System of Linear Equation.

08

2. Linear algebra:

Euclidean N-Space, General Vector Spaces, Subspaces, Linear

Independence, Basis and Dimension, Row and Column Spaces,

Rank, Inner Product Spaces, Length and Angle in Inner Product

Spaces, Orthonormal Bases; Gram Schmidt Process.

12

3. Linear transformations:

Introduction, Properties-Kernel and Range, Linear Transformation

from Rn to R

m, Matrices of Linear Transformations.

07

4. Eigen values and eigen vectors:

Eigen Values and Eigen Vectors, Cayley-Hamilton Theorem,

Diagonalization, Orthogonal Diagonalization, Symmetric Matrices.

07

Quadratic Forms and its Applications.

5. Vector calculus:

Differentiation of Vectors –Gradient, Divergence, Curl, Directional

Derivatives. Line, Surface Integrals-Statements of Green’s, Gauss’

Divergence and Stoke’s Theorems- Applications to Engineering

Problems.

10

Reference books:

1. Howard, A., Chris, R.; Elementary Linear Algebra, John Wiley & Sons, 2005.

2. Grewal, B. S.; Higher Engineering Mathematics, Khanna Publisher, New Delhi,

(Latest Edition).

3. Bali, N. P., Goyal, M.; Engineering Mathematics, Laxmi Publication (Latest Edition).

CC111: Basic Civil Engineering

Teaching Scheme Credits Marks Distribution Total

Marks L T P C Theory Marks Tutorial Marks

ESE CE ESE CE

4 0 2 6 70 30 30 20 150

Course Content:

Sr.No. Topics Teaching

hours

1. Introduction:

Sub-branches of Civil Engineering, Scope of Civil Engineering,

Role of Civil Engineer and benefits to society. Infrastructural

development and its impact on Economy of country.

02

2. Surveying, Leveling and Mapping:

Introduction:

Aims, objectives and applications surveying, Fundamental

principles of surveying, Classification of surveying, Plans and

maps, Scales, Units of measurement.

05

Linear Measurement:

Methods of linear measurements, Instruments used for linear

measurements. Conventional symbols, Linear measurements and

plotting.

05

Angular Measurement:

Methods of angular measurements, Instruments used for angular

measurements. Compass traversing and balancing. Types of

meridians and bearings, Measurement of bearings and correction of

bearings for local attraction. Computation of angles from observed

bearings.

05

Leveling:

Introduction, Instruments for leveling, Methods of leveling,

Recording level-book, Types of Bench mark, Computing RLs,

Introduction to contour and contour survey of different terrains,

uses of contour maps Introduction and use to Planimeter.

06

Special Methods:

Global positioning system (GPS), Geographical information system

(GIS) and Remote sensing (RS).

03

3. Building Materials and Construction:

Materials:

Introduction to engineering properties of construction materials and

their tests. Classifications of construction materials. Properties and

uses construction materials.

09

Building Planning and Construction:

Introduction to buildings & building systems, Types of buildings

as per NBC, Common building loads, Building components, their

functions and construction details. Basic building bylaws &

principles of planning. Concept of preparing building drawing of

one room residential building.

04

4. Environmental Science:

Introduction of Environment and Natural Resources:

Components of Environment, Impact of Technology and

Environmental degradation, study of Multidisciplinary nature of

Environment, Natural and Manmade resources, Renewable an non-

renewable resources of Energy, exploitation and conservation

03

Human Population: 02

Factors governing population growth, Population explosion – causes

, effects and control

Global Environmental Issues:

Global warming- Green House effects, Ozone layer depletion, Acid

Rain, Heat island effects, Thermal and Nuclear pollution issues

03

Thermal and Nuclear pollution:

Thermal pollution: Sources, effects and remedy.

Nuclear pollution: Radiation, sources, effects and control

02

Environmental ethics:

Objectives of ethics, Ethical theories, code of ethics, Importance and

Limitation of ethics. Environmental ethics in India.

11

Reference Books:

1. Dr. B. C. Punmia, Ashokkumar Jain, Arunkumar Jain; Surveying Vol. I; 16th

Edition; Laxmi Publication Delhi.

2. R. Subramanian; Surveying and Leveling; Oxford University.

3. S. K. Duggal; Surveying Vol. I; Tata McGraw Hill Publication, New Delhi.

4. Dr. B. C. Punmia, Ashokkumar Jain, Arunkumar Jain; Building Construction;

Laxmi Publication. Delhi.

5. G.S.Birdie and T.D. Ahuja ; Building Construction and Construction Material;

Dhanpat Rai Publishing Company, New Delhi.

6. Dr. R.K. Jain and Dr. P.P. Lodha; Elements of Civil Engineering; McGraw Hill

Education, India Pvt. Ltd.

7. Suresh K. Dhameja; Environmental Studies; S.K.Kataria and Sons; 2007.

8. Deeksha Dave and S S Kateva; Environmental Studies; Cengage Publishers; 2012.

9. Erach Bharucha; Environmental Studies; University press; 2013.

10. National Building Code and BIS Code.

CC121: Computer Programming



ESE CE ESE CE

3 0 2 5 70 30 30 20 150

Course Content:

Sr.

No. Topics

Teaching

hours

1. Introduction:

Basic block Diagram and functions of various components of a

computer, Concept of Hardware and Software, Compiler and interpreter,

Concepts of machine level, assembly level and high level programming,

Developing logic of program through flowcharts, algorithms, and

pseudocode.

06

2. Fundamentals:

Features of ‘C’ language, structure of ‘C’ program, Basic data types,

constants and variables, Basic operators and their hierarchy, Evaluation

of expressions, Writing simple programs using ‘C’, Concept of header

files, Basic I/O functions.

07

3. Control Structures of ‘C’:

if – else statement and its use in programming, Variations in usage of if

– else statement, switch, break, continue and goto statements,

Applications and implementation of various looping structures (i.e. for,

while, do - while).

07

4. Arrays and Strings:

One dimensional and multidimensional arrays and implementation of

these concepts in ‘C’. Strings and related functions.

07

5. Functions and Recursion:

Concepts of functions with various types of parameters. Various types

of parameter passing mechanisms. Recursive functions and

implementation of these concepts in ‘C’. Macros and Pre-processors

07

6. Pointers and Structures:

Concepts of pointers and simple programs using pointers in ‘C’,

Applications of pointers, Pointer and array, Dynamic memory

allocation: malloc and calloc, Concepts of structure and its

implementations. Structure as argument to functions, Structures and

pointers, Union and its applications

06

7. File Management in C:

Introduction, Opening, Closing, and Input / Output operations on Files.

Error handling during I/O operations, Random Access of files.

Command line arguments.

05

Reference Books:

1. Balagarusamy E; Programming in ANCI C; Sixth edition; Tata McGraw-Hill

Publishing Company Limited.

2. Gottfried; Programming with C; Second edition; Tata McGraw-Hill Publishing

Company Limited.

3. Kernighan B W and Ritchie D M; C Programming language; Second edition; Prentice

Hall.

4. Kanetkar Y. P.; Let us C; Fifth edition; BPB Publication.

CC122: Computer Workshop

Course Content:

Introduction to various components of computer, input / output peripherals,

BIOS/UEFI settings, basics and installation of operating system, concept of dual booting,

virtualization, installation of device drivers and other required software, need and method of

backup, basic security issues: computer viruses, malware, etc., anti-virus software, various

office tools for text, spreadsheet and presentation documents, flow-chart development tools,

animation tools, website development tools, basic concepts of networking and resource

sharing in a network.

Reference Books:

1. Scott Mueller; Upgrading and repairing PCs; 21st Edition; Pearson Education.

2. Mark Minasi; The complete PC upgrade and maintenance guide; 15th Edition; Sybex.

3. James, K. L.; Computer hardware: installation, interfacing, troubleshooting and

maintenance; PHI Learning.

4. M.Radhakrishnan, D. Balasubramanian; Computer Installation and Troubleshooting;

ISTE Learning Material

5. Stephen J Bigelow; Troubleshooting, Maintaining and Repairing PCs; 5th Edition;

Tata McGraw-Hill Publication

6. Wale Soyinka; Linux Administration : A Beginner's Guide; 6th Edition ; Tata MCGraw

Hill Publication

7. B Govindarajalu; IBM PC and Clones: Hardware, Troubleshooting, and Maintenance;

2nd Edition; Tata McGraw-Hill.



ESE CE ESE CE

0 0 2 2 - - 30 20 50

CC131: Basic Electrical Technology


MarksL T P C Theory Marks Tutorial Marks

ESE CE ESE CE

3 0 2 5 70 30 30 20 150

Course Content:

Sr.

No.

Topic Teaching

Hrs.

1. Steady-state DC circuit analysis:

Types of electrical sources. Series & parallel resistances, Solution of

electrical circuits using KVL & KCL, star-delta conversion, nodal, mesh

and loop analysis

5

2. Capacitance:

Dielectric strength; Capacitor; Charging & discharging of capacitor;

Capacitor in series andparallel; Energy stored in a capacitor.

4

3. Electromagnetism:

Faradays Laws; Lenz's Law; Fleming's Rules; Effect of magnetic field on

current carrying conductor; Magnetic circuits; Rise & decay of current in

an inductive circuit; Statically and dynamically induced EMF; Concepts

of

self inductance, mutual inductance and coefficient of coupling;

Inductance in series and parallel; Hysteresis and eddy current losses;

Energy stored in magnetic fields. Comparison of R, L & C

5

4. Single Phase A. C. Circuits:

Generation of a. c. voltage; Vector & phasor representation of a. c.

quantities; Analysis of R, L, C, R-L, R-C and R-L-C circuits with phasor

diagrams;Concepts of real, reactive & apparent power and power factor;

Series, parallel and series - parallel a.c. circuits;Resonance in series and

parallel circuits, Concept of power factor improvement;

8

5 Three Phase A. C. Circuits:

Advantages of three phase systems; Generation of three phase power;

Phase sequence; Balanced supply and load; Relationship between line and

4

phase values of balanced three phase circuit; Power Measurement in

single phase & balanced three phase circuits

6 Electrical Machines:

Principle of operation of transformer, a.c.& d.c. motors and generators;

Classification of transformers & electrical machines; Their constructional

features and Applications; Concept of losses & efficiency

8

7 Electrical Measurement :

Classification of measuring instruments; Elementary treatment of PMMC,

Moving iron and Digital meters.

4

8 Allied topics:

Single line diagram of electrical power system; Classification of wiring;

Simple control circuit in domestic installation; Concept of fuse, MCB,

ELCB and earthing

4

Reference Books:

1. B. L. Theraja, “Electrical Technology”, Vol – 1 & 2, S. Chand.

2. D. P. Kothari and I. J. Nagrath, “Theory and Problems in Basic Electrical

Engineering”,Prentice Hall, India.

3. V. K. Mehta, Rohit Mehta, “Principles of Electrical Engineering”, S. Chand.

4. Vincent Del. Toro , “Principles of Electrical Engineering”, Prentice Hall, India

5. Martin U. Reissland, “Electrical Measurements: Fundamentals, Concepts,

Applications”,New Age International Publication.

CC132: Electrical Workshop


MarksL T P C Theory Marks Tutorial Marks

ESE CE ESE CE

0 0 2 2 0 0 30 20 50

Course Content:

Sr.

No.

Topic

1. Measurement:

Measuring of various electrical quantities like resistance, voltage, current, frequency,

phase difference, amplitude, power, power factor for a. c. supply. Use of various

analog and digital meters.

2. Wiring:

Single phase wiring; Tube-light wiring, Staircase wiring etc, Measurement of earthing

resistance......

3. Constructional Features: Study of construction & maintenance of electrical

machines; appliances like fan, air-conditioner, refrigerators, UPS etc

4. Protective Devices:

Study of characteristics of Fuse, MCB, ELCB for a given circuit.

5 Layout & Drawing:

Study of layout and circuit diagram of electrical wiring installation, panels and

distribution boards of multi-storied buildings using IEEE Electrical symbols

6 Ratings & Specification:

Comparison of ratings and specification of various electrical circuit components and

devices like motors, transformers, appliances and power supplies

7 Testing and safety associated issues:

Testing of various electrical components like resistors, inductor, capacitor etc.

Reference Books:

1. P. Tiwari, S. Gairola, “Electrical Engineering Laboratory Practice”, S. K. Kataria

Publication

2. P K Kharbanda, S B Bodkhe, S D Naik & S G Tarnekar, “Laboratory Courses in

Electrical Engineering”, 5/e, S. Chand Publishing

3. Dr. V. Ganesh, Dr. K. Venkat Reddy, “Electrical Machines Lab Manual/Student

Hand Book”, Mudranik Technologies Pvt. Ltd

4. B. L. Theraja, Volume- II, “Electrical Technology”, S. Chand.

CC141: Fundamentals of Electronics

Course Content:

Sr.

No. Topics

Teaching

hours

1. Introduction to Electronics:

Signals, Frequency Spectrum of Signals, Analog and Digital Signals,

Amplifiers, Circuit Model for Amplifiers, Frequency Response of

Amplifiers, Digital Logic Inverters. Digital Building Blocks and Number

Systems.

09

2. Semiconductors

Intrinsic Semiconductors, Doped Semiconductors, Current Flow in

Semiconductors, The pn Junction with Open-Circuit Terminals

(Equilibrium), The pn Junction with Applied Voltage, Capacitive Effects in

the pn Junction.

06

3. Diodes

The Ideal Diode, Terminal Characteristics of Junction Diode, Modelling the

Diode Forward Characteristic, Operation in the Reverse Breakdown

Region-Zener Diodes, Diode Applications, Rectifiers Circuits, Limiting and

Clamping Circuits, Physical Operation of Diodes, Special Diode Types.

09

4. Bipolar Junction Transistors (BJTs)

Device Structure and Physical Operation, Current-Voltage Characteristics,

The BJTs as an Amplifier and as a switch, Biasing in BJT Amplifier

Circuits, Frequency Response of the Common Emitter Amplifier, The Basic

BJT Digital Logic Inverter.

06

5. MOS Field-Effect Transistors (MOSFETs) :

Introduction, Device Structure and Physical Operation, Current – Voltage

06


Marks L T P C Theory Marks Practical Marks

ESE CE ESE CE

3 0 2 5 70 30 30 20 150

Characteristics, MOSFET Circuits at DC, The MOSFET as an Amplifier

and as a switch, Biasing in MOS Amplifier Circuits, Small-Signal

Operation and Models, Single-Stage MOS Amplifiers.

6. Operational Amplifiers:

Introduction, The Ideal Op-Amp, The Inverting Configuration, The Non-

Inverting Configuration, Op-amp Applications, Difference Amplifier, DC

Imperfections, Integrators and Differentiators.

09

References Books:

1. Sedra/Smith; Microelectronic Circuits; Sixth Edition.

2. Jacob Millman and Christos C. Halkias; Integrated Electronics; Tata McGraw Hill.

3. Robert Boylestad and Louis Nashelsky; Electronic Devices and Circuit Theory; Ninth

Edition.

4. Albert Malvino and David J. Bates; Electronics Principles; Seventh Edition; Tata

McGraw Hill.

CC142: Electronics Workshop

Course Content:

Sr.

No. Topics

Teaching

hours

1. Introduction to Electronics Components:

Resistor, Capacitor, Inductor, Diode, LEDs, Transistor, MOSFET,

Thyristor, Relays, Op-Amp, ICs, Breadboard etc. Soldering techniques,

stripping and tinning stranded wires, mounting components- plated

through hole and surface mount technology, hand wire soldering, de-

soldering techniques, electrostatic discharge, SMD soldering techniques.

2. Analog Troubleshooting:

Electronics troubleshooting basics, troubleshooting with Oscilloscopes,



ESE CE ESE CE

0 0 2 2 - - 30 20 50

signal injection and signal tracing, system analysis, diagnostics methods,

servicing close loop circuits, troubleshooting noise and intermittent.

3. Digital Troubleshooting:

Introduction to troubleshooting digital multi-meter, digital logic,

Introduction to logic analyzers, working with Digital circuits and use of

logic analysis system for troubleshooting Digital circuits.

4. Study of Soldering Techniques and PCB Design :

Students are expected to select any experiment. Soldering and testing is

to be done for the selected experiment. Perform simulation of the same

experiment by using CAD tools. Schematic as well as PCB design is to

be carried out using CAD tools, Packages of Integrated Circuits (ICs) i.e.

SOIC, PDIP,TQFP, MLFP, CBGA etc.

5. Design and Implementation of Analog/Digital/Mix Mode Project :

Students are expected to design any analog/digital/mix mode application

of their choice. PCB design, fabrication of PCB, testing and

implementation should be done. Documentation of the project is to be

done in standard IEEE format. Project report should include abstract in

maximum 100 words, keywords, introduction, design, simulation,

implementation, results, conclusion and references.

Example: Design and Implementation of DC Power Supply. (any other

project can be taken in place of this example)

References Books:

1. Jean Andrews; Enhanced guide to managing and maintaining your PC; edition, 2001,

Course Technology – Thomson learning publishers

2. Rashid M.H;“SPICE for circuits and electronics using pSpice”; Prentice Hall.

3. Bosshart;“Printed Circuit Boards: Design and Technology”;Tata McGraw Hill

Orcad/PCBII , “User’s Guide”.

CC143: Engineering Physics


L T P C Theory Marks Tutorial Marks

Course Content:

Sr.

No. Topics

Teaching

hours

1. Quantum Physics:

Introduction, Black Body Radiation and Distribution Law, Wien’s Law

of Displacement, Rayleigh – Jean’s Formula, Plank’s Black Body

Radiation

Wave and Particle Duality, De- Broglie’s hypothesis of Matter,

Properties of Matter waves, Heisenberg Uncertainty Principle,

Compton Effect, Numerical

09

2. Non linear optics:

LASER

Introduction, Characteristics of laser radiation, Spontaneous and

stimulated emission , Working of LASER with basic idea about

Population Inversion, Pumping mechanism, Optical Resonators, Nd :

YAG LASER, Applications of LASER: Medical, Industrial,

Communication and other

Fiber optics

Introduction of Optical Fiber, Advantages of Optical Fiber, Total

Internal Reflection, Numerical Aperture and Acceptance angle, Modes

of Propagation, Types of Optical Fiber , Applications of optical fiber

12

3. Superconductivity:

Introduction to Superconductivity, General properties of

superconductor

Types of Superconductors, High Temperature Superconductors (only

Definition), BCS Theory for Superconductivity, Applications of

Superconductor.

06

4. Acoustics and Ultrasonics:

Introduction, Classifications and Characteristics of Sound, Introduction

to absorption Co-efficient, Factors affecting acoustics of building and

12

ESE CE ESE CE Marks

3 0 2 5 70 30 30 20 150

their remedies,

Ultrasonic:

Properties of Ultrasound Waves, Generations of Ultrasound by

Piezoelectric Method and Magnetostriction, Detection Methods of

Ultrasonic waves, Velocity Determination By Ultrasonic Waves,

Applications of Ultrasonics, NDT using Ultrasonic

5. Nanophysics:

Nanoscale, Surface to volume ratio, Surface effects on nanomaterials,

Quantum Size effect, Electron Confinement, Advantage and

Disadvantage of Nanomaterials, Carbon Nanotubes, Applications

06

References Books:

1. S. L. Gupta and Sanjay Gupta; Modern Engineering Physics; DhanpatRai

Publications, New Delhi

2. M.N. Avadhanulu, P.G. Kshirsagar; A Text Book of Engineering Physics; S. Chand

Publication, New Delhi

3. Abhijit Naik; Engineering Physics; S.K. Kataria& Sons, New Delhi

4. R. K. Gaur and S. L. Gupta; Engineering Physics; DhanpatRai Publications,

New Delhi

5. B.D. Cullity; Elements of X-ray Diffraction; Pearson Education

6. Blackie’s Dictionary of Physics, S. Chand publishing

7. B. K. Pandey and S. Chaturvedi; Engineering Physics; Cengage Learning

8. Sears and Zemansky; University Physics; 13th Edition; Pearson Education

CC151: Engineering Graphics

Course Content:

Sr.

No. Topics

Teaching

hours

1. Introduction to Engineering Graphics:

Drawing instruments and accessories, BIS – SP 46. Use of plane scales,

-



ESE CE ESE CE

2 0 4 6 70 30 30 20 150

Diagonal Scales.

2. Engineering Curves:

Classification and application of Engineering Curves, Construction of

Conics, Cycloidal Curves, Involutes and Spirals along with normal and

tangent to each curve

06

3. Orthographic Projections:

Principles of projection and its classification, Projections from the

pictorial view of an object on the principal planes for view from front,

top and sides using first angle projection method and third angle

projection method, sectional views

-

4. Projections of Points and Lines:

Projections of the points located in different quadrants, Projections of

lines inclined to both the reference planes and its applications in the

actual field. True length and inclinations of the line with the reference

planes.

07

5. Projections of Planes:

Projections of planes (polygons, circle and ellipse) with its inclination to

two reference planes. Concept of auxiliary plane method for projections

of the plane. True shape and inclinations of the plane with the reference

planes.

06

6. Projections of Solids:

Classification of solids. Projections of solids (Cylinder, Cone, Pyramid

and Prism) along with their frustums having their axis inclined to both

the reference planes.

04

7. Sections of solids:

Sections of Cylinder, Cone, Pyramid and Prism. The true shape of the

section.

Development of surfaces:

Development of surfaces of prism, pyramid, cylinder, cone.

06

8. Isometric Projections:

Isometric Scale, Conversion of orthographic views into isometric

-

projection.

Reference Books:

1. N.D.Bhatt; Elementary Engineering Drawing; Publishing House, Anand.

2. P.J.Shah; A Text Book of Engineering Graphics; S.Chand & Company Ltd. New

Delhi,

3. Narayan K.L., Kannaiah P.; Engineering Graphics; TMH Publishing Company.

4. P.S.Gill; A text book of Engineering Drawing; S.K.Kataria & sons, Delhi.

5. B. Agrawal and C M Agrawal; Engineering Drawing; Tata McGraw Hill, New Delhi.

6. Kumar Arunoday; Engineering Graphics; Tech max Publication, Pune.

CC152: Elements Of Mechanical Engineering

Course Content:

Sr.

No. Topics

Teaching

hours

1.. Introduction:

Concept of Force, Pressure, Energy, Work, Power, System, Heat,

Temperature, Specific heat capacity, Change of state, Path, Process,

Cycle, Internal energy, Enthalpy, Laws of thermodynamics

05

2. Energy conversion:

Fuels & Calorific Values, Thermal, Nuclear, Hydro and Solar power

plants.

03

3. Properties of gases:

Gas laws, Boyle's law, Charle's law, Combined gas law, Gas constant,

Relation between Cp and Cv, Various non-flow processes like constant

volume process, constant pressure process, Isothermal process, Adiabatic

process, Poly-tropic process

04

4. Properties of Steam:

Steam formation, Types of Steam, Enthalpy, Specific volume, Internal

energy and dryness fraction of steam, use of Steam tables, steam

calorimeters

05



ESE CE ESE CE

4 0 2 6 70 30 30 20 150

5. Steam Boilers:

Types and classification, Boiler mountings and accessories.

04

6. Internal Combustion Engines:

Introduction, Classification, Engine details, four-stroke/ two-stroke cycle

Petrol/Diesel engines, Indicated power, Brake Power, Efficiencies

05

7. Pumps:

Types and operation of Reciprocating, Rotary and Centrifugal pumps,

Priming

04

8. Air Compressors:

Types and operation of Reciprocating and Rotary air compressors,

significance of Multistaging

04

9. Refrigeration & Air Conditioning:

Refrigerant, Vapor compression refrigeration system, Domestic

Refrigerator, Window and split air conditioners

03

10. Transmission of Motion and Power:

Shaft and axle, Belt drive, Chain drive, Friction drive, Gear drive,

bearings.

04

11. Couplings, Clutches and Brakes:

Construction and applications of Couplings , Clutches (Disc and

Centrifugal), and Brakes (Block; Shoe; Band and Disc)

04

Reference Books:

1. T. S. Rajan; Basic Mechanical Engineering; New Age International Publication.

2. Dr. D.S. Kumar; Thermal Science and Engineering; S.K. Kataria & sons, Publication

New Delhi.

3. BASANT AGRAWAL, C.M.AGRAWAL; Basics of Mechanical Engineering; Wiley

India Pvt. Ltd. Publication.

CC153: Workshop



ESE CE ESE CE

Course Content:

Sr.

No. Topics

Teaching

hours

1. Introduction to workshop and safety aspect:

Orientation of the workshop, Introduction to safety aspects to be

observed in workshop or industries.

02

2. Measuring and Gauging:

Introduction to various measuring instruments and gauges.

04

3. Machine Shop:

Introduction and demonstration of various machine tools such as Lathe,

Drilling, Shaping, Slotting, Planning, Milling, Grinding.

12

4. Manufacturing Shops:

Foundry, Carpentry, Fitting, Smithy & Tin Smithy, Welding, Plumbing.

12

Reference Books:

1. Hajra and Chaudhary; Workshop Technology Vol. 1 and 2.

2. Raghuvanshi B.S.; Workshop Technology Vol. 1 and 2; Dhanpat Rai & Sons 1998.

3. Chapman W.A. J and Arnold E; Workshop Technology; Vol. 2; Viva low priced student

edition, 1998.

4. H S Bawa; Workshop Practices; Tata McGraw-Hill, 2009

5. K C John; Mechanical Workshop Practice; PHI Learning.

CC161: Engineering Mechanics

Course Content:

Sr.

No. Topics

Teaching

hours

0 0 4 4 - - 60 40 100



ESE CE ESE CE

3 0 2 5 70 30 30 20 150

1. Introduction& Fundamentals of Statics:

Scalar and Vector Quantities, composition and resolution of forces &

Force system. Principles of statics, moments and couples & their

properties, combination of coplanar couples and forces, equilibrant,

equilibrium, free body diagrams, analytical conditions of equilibrium

for coplanar force systems & related problems. Introduction to Vector

Mechanics.

06

2. Center points and Moment of inertia

Center of lines, plane areas, volumes, mass, gravity (combination of

sphere, hemisphere, cone, cylinder), Pappus – Guildinus theorems,

area and mass moment of inertia, radius of gyration of areas and mass,

parallel & perpendicular axes theorems.

07

3. Analyis of Simple Truss

Types of Truss (Perfect, Imperfect, Redundant trusses), Methods of

finding forces in truss members (Method of Joint, Method of Section,

Graphical method)

05

4. Friction

Theory of friction, static and sliding friction, laws of friction, angle

and coefficient of friction, inclined plane friction, ladder and wedge

friction.

04

5. Simple stresses & strains:

Elastic, plastic, brittle, ductile, homogeneous and isotropic materials;

Behaviour of material under axial and shear loads, Modulus of

elasticity, limits of elasticity and proportionality, yield limit, ultimate

strength, strain hardening,

Basic definitions of stress: Linear, shear, bending, torsion, in-plane

Strains: Linear, shear, lateral, thermal and volumetric

Poisson’s ratio, Bulk Modulus, modulus of rigidity, relationship

between various elastic constants

Analysis of prismatic, tapered and composite sections under axial and

thermal loads.

07

6. Applications of fundamentals of statics to Statically determinate

beams:

Types of loads, supports and beams; Determination of support

reactions, Bending moment and shear force, Relationship between

loading, shear force & bending moment, Bending moment and shear

force diagrams for beams subjected to concentrated loads, uniformly

distributed loads, couples and their combinations; Point of

contraflexure.

06

7. Simple Lifting Machines

Introduction to simple lifting machines, Velocity ratio, mechanical

advantage, efficiency and reversibility of machines.

Law of Machine, Application of law of machine to simple machines.

03

8. Uniform Flexible Suspension Cables

Introduction to cables and loadings, cables subjected to concentrated

load and UDL, Parabollic and catenary profile of cables

04

Reference Books:

1. Beer and Johnston; Engineering Mechanics (Statics); McGraw-Hill Publications.

2. S. B. Junnarkar& H. J. Shah; Applied Mechanics; Charotar Publishing House Pvt. Ltd.

3. S. B. Junnarkar& H. J. Shah; Mechanics of Structure Vol. I; Charotar Publishing

House Pvt. Ltd.

4. Beer and Johnston; Mechanics of Materials; McGraw-Hill Publications.

CC171: Communication Skills

Course Content:

Sr.

No. Topics

Teaching

hours



ESE CE ESE CE

2 0 2 4 70 30 30 20 150

1. Basics Of English Grammar

Grammar in context- focus areas Tenses, Prepositions, Modals,

Adjectives, Transformation of sentences, Active Passive Formations and

Reported Speech.

04

2. Fundamentals of Communication

Origin, Definition and Importance of Communication in the present day

general and professional set up, General and Technical Communication,

Two-Way Cycle of Communication,Verbal and Non verbal

Communication(Kinesics, Proxemics, Chronemics, Paralinguistics) and

tips to improve Non-verbal Communication, Levels of

Communication,Barriers to communication and ways to overcome

barriers

06

3. Basics of Listening

Process of listening and its importance,Types of listening(Appreciative,

Comprehensive, Empathetic, Active, Passive, critical Listening),Tips for

developing effective listening skills

06

4. Reading Skills

Purpose of Reading and techniques of reading,Reading comprehension,

Reasons for poor reading comprehension, Improving reading

comprehension skills

06

5. Writing Skills

Paragraph Development,Writing resume and Job Application,Writing E-

mail and mailing etiquettes,Lay-Out of business letter,

Business letters(Enquiry, quotations, order, complaint, adjustment)

OR

Formal letter Writing(Leave application, Application for Permission,

Thanks Giving, Writing Invitation, Complaints),

Explaining Graphs and Charts,Report Writing

Note: All the above topics accentuate practical knowledge. Hence,

Theory has to be dealt with in the class. Practical/Application questions

should only be asked in CA/FE.

08

Reference Books:

1. Meenaxi Raman & Sangeeta Sharma;Technical Communication: Principles and

Practices; Oxford Publication.

2. Bovee, Thill and Schatzman; Business Communication Today; Pearson Education.

3. P Subba Rao, B Ankita Kumar, C Hima Bindu; Technical Communication; Cengage

Learning.

4. Lesikar and Flatley, Rentz and Pandey; Business Communication: AMking

connections in a digital world; Tata Mcgraw Hill.

5. Raymond Murphy; Essential English Grammar; Cambridge University Press.

Constitution of India

Course Content:

Sr.

No. Topics

Teaching

hours

1. Preamble to the constitution of India fundamental rights under part-III.

Limitations and Importance cases. Relevance of Directive Principles of

state policy under part-IV. Fundamental duties and their significance.

07

2. Union Executive – President, Prime minister, Parliament and the

Supreme Court of India. State Executive Governor, Chief Minister, state

Legislator, and high Courts.

07

3. Emergency Provisions. Major Constitutional Amendment procedure –

42nd, 44

th, 74

th, 76

th, 86

th & 91

th Electoral process.

04

4. Corporate social responsibility and professional ethics. Meaning of CSR,

need for CSR, stakeholders and CSR professional ethics, Meaning, tools

of professional ethics. Scope and Aims of Engineering ethics.

Responsibilities of Engineers and Impediments.

07

5. Honesty, Integrity, & Reliability, Risk, Safety and Liability in

Engineering.

05

Reference Books:

1. K R Phaneesh; Constitution of India and Professional Ethics; Sudha Publications.



ESE CE ESE CE

2 0 0 2 70 30 - - 100

2. Dr. Umapathi K. L, Ramesh L. Chakrasali; Constitution of India and Professional

Ethics; Sanana publications-2005.

3. Durga Das Basu; Introduction to the Constitution of India; Prentice Hall of India,

19th/20

th edn.,2001

4. Charles E. Haries, Michael. S. Pritchard and Michael j. Robins; Engineering Ethics;

Thompson Asia, 2003.

5. B.S.Lingaraj; Constitution of India – A road to Social Revolution; Vidhyanidhi

Prakashan, Gadag, 2006.

CC174: Value Education, Human Rights & Legislative Procedures

Course Content:

Sr.

No. Topics

Teaching

hours

1. Values and Self Development

Social Values And Individual Attitudes, Work Ethics

Indian Vision of Humanism: Moral And Non-Moral Valuation,

Standards and Principles.

Value Judgements

Importance of inculcation of Values: Sense of Duties, Devotion, Self-

Reliance, Confidence, Concentration, truthfulness, Cleanliness, Honesty,

Power of Faith, National Unity/Integration, Patriotism, Love for Nature,

Discipline

04

2. Personality and Behaviour Development

Soul and Scientific attitude, God and Scientific Attitude,

Positive thinking, Integrity and Discipline, punctuality, Love and

Kindness, Appreciating and Avoiding fault finding, free from anger,

dignity of labour, universal brotherhood and religious tolerance, true

friendship, Happiness Vs. Suffering love for truth, Aware of self

destructive habits, Association and Cooperation, Doing best, Preserving

nature

07


Marks L T P C Theory Marks Practical Marks

ESE CE ESE CE

2 0 0 2 70 30 - - 100

3. Character and Competency

Science vs. God, holy books vs. Blind faith, Self Management and Good

Health

Science of Reincarnation

Equality, Nonviolence, Humility

Role of women in Economy and Society, Role of Women in Science and

Technology

Mind your Mind, Self Control, Honesty, Studying Effectively

07

4. Human Rights

Jurisprudence of Human Rights: nature and Definition

Universal protection of Human Rights

Regional Protection of Human Rights

National Level protection of Human Rights,

Human Rights and Vulnerable groups

05

5. Legislative Procedures

Indian Constitution, Philosophy

Fundamental Right and Duties

Legislature, Executive and Judiciary

Constitution and Functions of Parliament

Corporate Laws: Laws Relating to Companies – Public and Private

07

Reference Books:

1. Chakraborty, S.k.;Values and Ethics for organizations: Theory and Practice; Oxford

University Press, New Delhi, 2001.

2. Kapoor, S.K.; Human Rights under International Law and Indian Law; Prentice Hall

of India, New Delhi, 2002.

3. Basu, D. D.; Indian Constitution; Oxford University Press, New Delhi, 2002.

4. Frankena, W. K.; Ethics; Prentice Hall of India; New Delhi, 1990.

5. Meron Theodor; Human Rights and International Law Legal Policy Issues, Vol. 1 and

2; Oxford University Press, New Delhi, 2000.

6. Thakar V.; A scientific Outlook on the Integration through Education; Vimal

Prakashan Trust, Ahmedabad, 2009.

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