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DRIEMS(Autonomous, Accredited with 'A' grade by NAAC)
Affiliated to Biju Patnaik University of Technology,OdishaApproved by AICTE & ISO 9001:2015 Certified
Kairapari,Kotsahi,Tangi,Cuttack,- 754022, Odisha
DRIEMSAUTONOMOUS ENGINEERING COLLEGE
Syllabus For
B.Tech 1st Year2018-19
1st Semester
Sl. No.
Subject
Code Subject
Contact
Hour
L-T-P
Credit Course
Category
THEORY
2 PHT101/
CYT101
Engineering Physics /
Engineering Chemistry 3-0-0 3 BS
3 CET101 /
MET101
Basic Civil Engineering /
Basic Mechanical
Engineering
3-0-0 3 ES
4 EET101 /
ECT101
Basic Electrical Engineering
/ Basic Electronics
Engineering
3-0-0 3 ES
Non-
Credit MC
SESSIONAL
1 PHS101/
CYS101
Engineering Physics Lab /
Engineering Chemistry Lab 0-0-2 1 BS
2 CES101 /
MES101
Engineering Graphics /
Engineering Workshop 0-0-2 1 ES
3 EES101 /
ECS101
Basic Electrical Engineering
Lab / Basic Electronics
Engineering Lab
0-0-2 1 ES
TOTAL
18
First Year
2nd Semester
Sl. No.
Subject Code
Subject Contact Hour L-T-P
Credit Course
Category
THEORY
2 CYT101/ PHT101
Engineering Chemistry / Engineering Physics
3-0-0 3 BS
3
MET101 / CET101
Basic Mechanical Engineering / Basic Civil Engineering
3-0-0 3 ES
4 ECT101 / EET101
Basic Electronics Engineering / Basic Electrical Engineering
3-0-0 3 ES
SESSIONAL
1 CYS101 / PHS101
Engineering Chemistry Lab / Engineering Physics Lab
0-0-2 1 BS
2 MES101 / CES101
Engineering Workshop / Engineering Graphics
0-0-2 1 ES
3 ECS101 / EES101
Basic Electronics Engineering Lab / Basic Electrical Engineering Lab
0-0-2 1 ES
5. HSS102 Professional Communication Lab
0-0-2 1 HSS
TOTAL
22
MAT101: ENGINEERING MATHEMATICS - I
COURSE
MODULE – I: Calculus (13 Hours)
Asymptotes, curvature, elementary ideas about partial differentiation, homogeneous functions and
Euler's Theorem, Taylor's theorem for functions of two variables, Maxima and Minima for function of
two variables.
MODULE – II: Differential Equations (13 Hours)
First order differential equations, separable equations, homogeneous differential equations, exact
differential equations, equations reducible to exact form, integrating factor, linear differential equations,
Bernoulli's equations, linear differential equations of second order, homogeneous equations with
constant co-efficient, Euler-Cauchy equations, solution by undetermined co-efficient, solution of non-
homogeneous equations by operator method, solutions by variation of parameters, modeling of electric
circuits. Series solutions of differential equations, power series method.
MODULE – III: Linear algebra (14 Hours)
Matrices, classification of matrices, rank of a matrix, vectors, linear independence, dimension and basis,
determinants, solution of system of linear equations by Gauss elimination method., eigen values and
eigen vectors, symmetric and skew-symmetric matrices, orthogonal matrices, complex matrices,
Hermitian and skew-Hermitian matrices, unitary matrices and similarity of matrices, diagonalisation,
transformation of quadratic forms to principal axis.
TEXT BOOKS:
1. Differential Calculus, Shanti Narayan and Dr. P K Mittal, S Chand publishers.
2. Advanced Engineering Mathematics, Erwin Kreyszig, John Wiley & Sons Inc, Tenth Edition.
3. Higher Engineering Mathematics, Prof. B V Raman, Mc-Graw Hill Education
REFERENCES:
1. Engineering Mathematics, Srimanta Pal and Subodh C Bhunia, Oxford University Press
2. Advance Engineering Mathematics, Peter V O'NEIL, Cengage Learning
3. A Course in Ordinary & Partial Differential equations, Sinha J Roy and Padhi S, Kalyani
Publisher
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
CONTENT:
PHT101 :: ENGINEERING PHYSICS
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
CONTENT:
MODULE – I (11 Hours)
Oscillation & Waves: Simple Harmonic Oscillation, damped harmonic oscillation, Forced oscillation,
resonance, coupled oscillation, concept of wave and wave equation.
Optics: Interference: Concept of interference: Bi-prism, Newton's ring, Determination of wavelength of
monochromatic light, Determination of refractive index of transparent liquid, Michelson Interferometer
& measurement of wavelength.
Diffraction: Huygens's principle, Fresnel &Frauhoffer's diffraction, Zone plate.
MODULE – II (12 Hours)
Solid State Physics: Crystalline and amorphous solid, unit cell, Miller Indices, X-ray diffraction and
Bragg's law, Concept of Fermions and Bosons, Maxwell-Boltzmann, Fermi-Dirac and Bose-Einstein
distribution function (only statement and formula), Classification of materials: Conductor,
semiconductor and insulator on the basis of band theory.
Superconductivity: Introduction to superconductivity, Critical magnetic field, Meissner's effect,
Classification of Superconductors (Type-I and Type-II), Properties and applications of Superconductors.
LASER and Fibre Optics: Principle and application: Spontaneous and stimulated emission, population
inversion, Lasing action, He-Ne LASER, Ruby LASER, Application of LASER (Engineering
Applications), Principle of optical fibre, Classification of optical fibres, Numerical aperture, application
of optical fibres.
MODULE – III (14 Hours)
Electromagnetism: Vector calculus: gradient of scalar field, divergence, curl of vector field (Only
Physical significance), Gauss divergence theorem, Stoke's theorem, Green's theorem (Only Statements).
Gauss's law of electrostatics in free space and in a medium (Only statements), Electric displacement (D),
Faraday's law of electromagnetic induction (Only statements), Ampere's circuital law (Only statements),
Displacement current, Modified Ampere's Circuital law, Maxwell's equations for electromagnetic
waves.
Quantum Physics: Need for Quantum physics-Historical overviews, Particle aspects of radiation: Black body radiation, photoelectric effect, Compton scattering, pair production (No derivations), Wave aspect of particles: matter wave, de- Broglie Hypothesis, Heisenberg Uncertainty principle (Statement, Interpretation and examples).
Basic features of Quantum mechanics - Transition from deterministic to probabilistic, wave packets,
States of system- Wave function and its properties, probability density, superposition principle,
observables and operators, Eigen values and expectation values. Schrodinger equation (Time dependent
and time independent).One dimensional motion of free particle, one dimensional potential barrier, one
dimensional potential well.
COURSE
TEXT BOOKS:st
1. Principle of Physics Vol. I & Vol. II,Md. N Khan & S Panigrahi, Cambridge University Press,1
Editionth
2. Concepts of Modern Physics,A Beiser, S. Mahajan, McGraw Hill Education,6 Editionst
3. Engineering Physics,Dattu R Joshi, McGraw Hill Higher Education,1 Edition
4. Engineering Physics, R K Gaur and S C Gupta, DhanpatRai Publications (P) Ltd, 2011
REFERENCES:th
1. Optics,AjoyGhatak, McGraw Hill Education, 5 Editionth
2. Introduction to Electrodynamics, David J Griffiths, Pearson Education Ltd.,4 Edition
3. Advanced Quantum Mechanics, Satya Prakash, KedarNath Ram Nath& Co., 2016th
4. Introduction to Solid State Physics,CKittel, Willey India Pvt. Ltd.,7 Edition,
5. Physics-I and Physics-II for engineering degree students, B. B. Swain and P. K. Jena, KitabMahal
6. Quantum Mechanics, John L. Powel & Bernd Craseman, Dover Publications, 2015
PHS101 :: ENGINEERING PHYSICS LAB
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT:
1. Determination of Young's modulus by Searle's method.
2. Determination of Surface tension by capillary rise method.
3. Determination of acceleration due to gravity by Bar/Katter's pendulum.
4. Determination of unknown resistance of a wire using Meter Bridge.
5. Determination of wavelength of light by Newton's ring apparatus.
6. Determination of grating element of a diffraction grating.
7. Determination of wavelength of laser source by diffraction grating method.
8. Study of RC Circuit.
9. Plotting of characteristic curve of a PN junction diode.
10. Plotting of input and output characteristic curves of BJT.
11. Determination of wavelength of light by Michelson Interferometer.
12. Study of Hall Effect.
13. Determination of Young's Modulus by bending of beam.
14. Determination of wave length of LASER light using ultrasonic diffraction method.
15. Characteristic study of optical fibre.
REFERENCES:st
1. A Manual of Practical Engineering Physics, A S Vasudeva, S Chand Publication, 1 Edition.
2. Engineering Physics: Theory and Practical, A K Katiyar & C K Pandey, Wiley, 2015
3. A Text Book of Engineering Physics Practical, Dr. Ruby Das, C.S. Robinson, Rajesh Kumar & nd
Prashant Kumar Sahu, Laxmi Publication, 2 Edition.
CYT101 :: ENGINEERING CHEMISTRY
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
MODULE – I (12 Hours)
Quantum Chemistry and Spectroscopy:
Quantum Chemistry: Failure of Classical mechanics, Maxwell's theory of radiation, Black body
Radiation, Planck's quantum theory, Photoelectric effect, Dual nature of Matter, de Broglie's Equation,
Heisenberg's Uncertainty Principle, Schrodinger's wave Equation(Derivation not required) Significance
of wave Function, Eigen values, Eigen Functions, Particle in one dimensional box and its application to
conjugated system.
Spectroscopy: Beer Lambert's Law, Principles of UV-Visible Molecular Absorption Spectroscopy,
Types of transitions, Concept of Chromophore and Auxochrome, Rotational and Vibrational
Spectroscopy-Principles and application to diatomic molecules.
MODULE – II (12 Hours)
Thermodynamics,Phase rule and Chemical kinetics:
Thermodynamics: Free energy and Entropy, Estimation of free energy and Entropy
Phase rule: Definition of Terms: Phase, Component, Degree of freedom, Phase rule equation,, Phase
diagram of one component system–water and Sulphur system, Condensed phase rule, Phase diagram of
two component system–Eutectic Bi-Cd system.
Chemical kinetics: Steady state approximation, Parallel, Opposing and Consecutive reactions,
Catalysis, Types, Kinetics of enzyme catalysis (Michaeli's Menten mechanism)
MODULE – III (12 Hours)
Water Chemistry and Corrosion
Water Chemistry: Hardness of water,Scale and Sludge in Boilers,Softening Methods,Calculations,
Caustic embrittlement in Boilers,Chemical analysis of water
Corrosion: Electrochemical theory of corrosion, galvanic series, Types of corrosion; Differential metal
corrosion, Differential aeration corrosion (Pitting and water line corrosion), Stress corrosion ,Factors
affecting Metal coatings – Galvanizing and Timing, Corrosion inhibitors, Cathodic protection.
TEXT BOOKS:st
1. Text Book in Applied Chemistry by A. N. Acharya and B. Samantaray, Pearson India,1 editionth
2. Fundamentals of Molecular & Spectroscopy by C.N.Banwell, Tata McGraw Hill Education,4
Editionth
3. Engineering Chemistry, Jain and Jain, Dhanpat Rai Publiation,16 Editionst4. B.Tech Chemistry,Kar etal ,Vol.I & II , KalyaniPublishers,1 edition
5. Quantum Chemistry by Ira N. Levine, Pearson, 7th Edition.nd6. Molecular Spectroscopy, Ira N. Levine, John Wiley and Sons,2 edition
7. Modern Spectroscopy – A Molecular Approach, by Donald Mc Quarrie and John st Simon,published by University Science Books,1 edition
CYS101 : ENGINEERING CHEMISTRY LAB
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT:
1. Determination of amount of hydroxide and carbonate in water sample.
2. Estimation of Hardness of water sample.
3. Estimation of calcium in limestone.
4. Determination of percentage of available chlorine in a sample of bleaching powder.
5. Preparation of Aspirin or Benzoic acid.
6. Determination of acid value of oil.
7. Preparation of buffer solution and determination of pH of a buffer solution.
8. Standardization of KMnO using sodium oxalate.4
9. Determination of ferrous iron in Mohr's salt by using potassium permanganate solution.
10. Determination of partition coefficients of iodine between benzene and water.
11. Determination of rate constant of acid catalyzed hydrolysis reaction.
12. Determination of concentration of a coloured substance by spectrophotometer.
13. Determination of dissolved oxygen in a sample of water.
14. Determination of kinematic Viscosity of lubricating oil by Red Wood viscometer.
15. Determination of Flash point of given oil by Pensky-Marten's flash point apparatus.
REFERENCES:
3. Engineering Practical Chemistry, Dr. M R Senapati , Laxmi Publication,1st edition
st4. B.Tech Practical Chemistry,P.K.Kar etal,Kalyani Publisher,1 edition.
th1. Vogel's qualitative inorganic Analysis, G Svehla and B Sivasankar, Pearson publishers, 7 editionst2. Engineering Chemistry: Includes Laboratory Experiments Dr. S Vairam, Wiley Publishers, 1
Edition,
CET101 :: BASIC CIVIL ENGINEERING
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
MODULE – I (14 Hours)
Mechanics: Concurrent forces on a plane – Composition and resolution of forces and equilibrium of
concurrent coplanar forces, Method of projections, Methods of moment, Friction. Parallel forces in a
plane- Two parallel forces, General case of parallel forces, Center of parallel forces in a plane and center of
gravity- centroids of composite plane figure and curves, distributed parallel forces in a plane. General
case of forces in a plane - composition of forces in a plane and equilibrium of forces in a plane.
Mechanics: Concurrent forces on a plane – Composition and resolution of forces and equilibrium of
concurrent coplanar forces, Method of projections, Methods of moment, Friction. Parallel forces in a
plane- Two parallel forces, General case of parallel forces, Center of parallel forces in a plane and center of
gravity- centroids of composite plane figure and curves, distributed parallel forces in a plane. General
case of forces in a plane - composition of forces in a plane and equilibrium of forces in a plane.
Moments of Inertia: Plane figure with respect to an axis in its plane and perpendicular to the plane -
parallel axis theorem, Moment of Inertia of material bodies.
MODULE – II (13 Hours)
Plane trusses: Method of joints and method of sections.
Rectilinear Translation: Kinematics
Principles of Dynamics:D'Alembert's Principles, Momentum and Impulse, Work and Energy- impact.
Surveying: Introduction to land surveying, Linear and angular measurementsModern equipments , Total
Station, Introduction to GIS.
MODULE – III (10 Hours)
Building Material and Building Construction:
Bricks: Brick as a construction material, types of Bricks and their properties as per ISI.
Stone: Classification and characteristics and uses.
Cement:Quality of mixing water, workability, vibration of concrete, Introduction to Concrete Mix.
Concrete: Quality of mixing water, Workability, vibration of concrete, concrete mix design, Grade and
strength of Concrete.
Building Components and their basic requirements.Introduction to different building components
like Foundation, Brick masonry, Mortar, Stone masonry, Floors Staircase, Roof, Plastering, Distempering
and Painting.
Basic of Traffic Engineering, Signals, safety.
TEXT BOOKS:
1. Engineering Mechanics, S Timoshenko, D H Young and J V Rao, McGraw Hill Education,2017
2. Basic Civil Engineering, SatheeshGopi, Pearson Publication, 2009
3. Building Construction, Sushil Kumar, Standard Publishers Distributors,2015
4. Surveying and Levelling, R Subramanian, Oxford University Press, 2012
REFERENCES:
1. Engineering Mechanics (Fourth Edition), K L Kumar &Veenu Kumar, McGraw Hill Education,
2010
2. Engineering Materials, S C Rangwala, Charotar Publishing House, 43rd Edition : 2017 (Reprint)
3. Building Material and Construction, G C Sahu&Joygopal Jena, McGraw Hill Education, 2015
4. Surveying Vol-1, RAgor, Khanna Publishers, 1987
5. Basic Civil Engineering, M S Palanichamy, McGraw Hill Education, 2017
CES101 :: ENGINEERING GRAPHICS
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 2
COURSE CONTENT:
1. Introduction: Drawing Instruments and their uses, BIS conventions, Lettering, Dimensioning line
Conventions.
2. Orthographic Projections Introduction, Definitions - Planes of projection, reference line and
conventions employed, Projections of points in all the four quadrants, Projections of straight lines
(located in First quadrant/first angle only),True and apparent lengths, True and apparent inclinations
to reference planes.
3. Orthographic Projections of Plane Surfaces (First Angle Projection Only) Introduction,
Definitions–projections of plane surfaces–triangle, square, rectangle, rhombus, pentagon, hexagon
and circle, planes in different positions by change of position method only.
4. Projections of Solids (First Angle Projection Only) Introduction, Definitions – Projections of right
regular tetrahedron, hexahedron (cube), prisms, pyramids, cylinders and cones in different positions.
5. Sections and Development of Lateral Surfaces of Solids Introduction, Section planes, Sections,
Section views, Sectional views, Apparent shapes and True shapes of Sections of right regular prisms,
pyramids, cylinders and cones resting with base on HP.
6. Isometric Projection (Using Isometric Scale Only) Introduction, Isometric scale, Isometric projection
of simple plane figures, Isometric projection of tetrahedron, hexahedron(cube), right regular prisms,
pyramids, cylinders, cones, spheres, cut spheres.
7. AUTO CAD, layout of the software, Co-ordinate system and reference planes. Selection of drawing
size and scale. Commands and creation of Lines, Co-ordinate points, axes, poly-lines, square,
rectangle, polygons, splines, circles, ellipse, text, move, copy, off-set, mirror, rotate.
REFERENCES:
5. Computer Aided Engineering Drawing , Mylappanahalli Hanumaiah Annaiah,new age thpublishers, edition 4 , reprint-2015
1. Engineering Drawing, Dhananjay A Jolhe, Tata McGraw Hill, 2007.
2. Engineering Drawing, M.B. Shah and B.C. Rana, pearson Education, Eds.2, 2009.
3. Engineering Drawing and Graphics, K. Venugopal, New Age International(P) Ltd., publishers,
2000.
4. Engineering Drawing, N.D. Bhatt and V.M. Panchal, Charotar Publishinghouse, 2005.
MET101: BASIC MECHANICAL ENGINEERING
TEACHING SCHEME: 3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENTS:
MODULE – I (14 Hours)
Thermodynamics: Introductions, Systems, Properties, processes, State, Cycle, Specific volume,
Internal energy, Enthalpy, Zeroth Law, First law and Second Law of Thermodynamics, Entropy,
Properties of ideal gas, Simple Numericals.
Application of Thermodynamics: Air compressors, Steam Power Plant, Refrigerator and Heat pump,
I.C. Engines-two stroke and four stroke engines (Brief Description of different components of above
mentioned systems and working principles with Schematic diagram only)
Introduction to Fluid Mechanics and Fluid Power: Fluid properties, Pascal's law, Bernoulli's theorem,
Simple Numerical. Introduction to hydraulic turbines and pumps (Working Principles with Schematic
diagrams.)
MODULE – II (10 Hours)
Mechanics of Solids: Simple stress and strain, Classification of loads, Material properties, Stress strain
curve, Hooke's law, Elongation of a body due to force on it, Elongation of a body due to self weight,
Linear and lateral strain, volumetric strain, Relationship between elastic constants, Simple Numericals
Engineering Materials: Classification of engineering materials, Types of cast iron, Steel, Aluminum,
Plastics.
MODULE – III (12 Hours)
Fasteners and Power transmission devices: Nut, Bolt, Screw, Rivets, Belt, Rope, Gear Trains (Basics,
applications).
Lifting machines: Simple wheel and axle, differential wheel and axle, Worm and worm wheel, Pulley,
Simple screw jack, Differential screw jack, Simple Numericals.
TEXT BOOKS:nd
1. Basic Mechanical Engineering, Pravin Kumar, Pearson Publication, 2 Edition, 2016.rd
2. Text book of Elements of Mechanical Engineering, S T Murthy, Universities Press, 3 Edition 2011.rd
3. Basics of Mechanical Engineering, D S Kumar, Kataria& Sons publication, 3 Edition, 2015.
REFERENCES:nd
1. Engineering Thermodynamics, P Chattopadhaya, Oxford University Press, 2 Edition, 2016.nd
2. Basic and applied Thermodynamics, P K Nag, McGraw Hill Education, 2 Edition, 2017.st
3. Elements of Mechanical Engineering, J K Kittur& G D Gokak, Willey India, 1 Edition, 2017.st
4. Basic Mechanical Engineering, Basant Agrawal & C M Agrawal, Willey India, 1 Edition, 2008
5. Basic Mechanical Engineering, D Mishra, P K Parida & S S Sahoo, India Tech Publishing Company, st
1 Edition, 2016.
6. Basic Mechanical Engineering, S. Ramachandran, Dr. A Anderson & Bikas Kumar Thakur, AirwalkstPublication, 1 Edition,2016.
7. Thermodynamics: An engineering approach, Yunus A Cengel, Michel A Boles McGraw Hill\thPublisher 2006 5 Edition.
MES101: ENGINEERING WORKSHOP
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE DETAILS:
Introduction to workshop practices and safety measures.
Fitting Practice: Use of various hand tools in fitting, preparing a male and female joint of Mild Steel or
making a paper weight of mild steel
Welding Practice: Basics of Gas welding & Electric Arc welding, Preparing a welding joint such as a
Lap joint or a Butt joint or a T-joint by using Electric Arc welding.
Machining Practice: Basics of a lathe, Shaper and milling machine (Schematic diagram and their
Application)
I. Preparing a threaded Stepped cylindrical Job by Turning and Thread-cutting in lathe.
ii. Preparing a cubical shaped job by Shaping and milling machine.
TEXT BOOKS:th
1. Elements of Workshop Technology, Vol. I & Vol. II, HajraChoudhary, Khanna Publishers, 13
Edition, 2010.th
2. A Course in Workshop Technology, B S Raghuwanshi, Dhanpat Rai & Co. Publication, 9
Edition, 2003.
REFERENCES:th
1. Workshop Technology, WAJ Chapman, Viva Books, 4 Edition, 2001.rd
2. Workshop Manual, Kannaiah& Narayana, Scitech, 3 Edition, 2008.
ELT101 :: BASIC ELECTRICAL ENGINEERING
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
]
MODULE – I (14 Hours)
Circuit laws: Fundamentals of electrical circuit,Ohm's law, Kirchoff's laws, series and parallel
connections, analysis of circuits using Node voltage, mesh current, superposition, Thevenin and Norton
Theorems to solve simple circuits with dc excitation.
Single phase circuit :Single phase emf generation, Representation of sinusoidal waveforms, average,
effective, peak and rms values, j operator, Rectangular and polar representation of phasors, realpower,
reactive power, apparent power, power factor. Analysis of single-phase ac circuitsconsisting of R, L, C,
RL, RC, RLC combinations (series and parallel).
Three phase circuit: Three phase emf generation, Delta-star and star-delta conversions, voltage and
current relations in star and delta connections.solution of the three phase circuits with balanced voltage
and balanced load conditions, phasor diagram, measurement of power in three phase circuits.
MODULE – II (13 Hours)
Transient Analysis: Writing differential equations for circuits, DC steady state solutions of circuits,
Transient response of second-order circuits.
Magnetic Circuits: MMF, flux, reluctance, inductance. Review of Ampere Law, Biot Savart's Law.
Magnetic field, BH characteristics, Hysteresis & Eddy current losses, series and parallel magnetic
circuits.
Transformers (Single Phase): Construction, operation and performance testing.
Induction Motors (Three Phase): Basic Principles, Rotating Magnetic Field, Equivalent circuit, Phasor
diagram, Torque-Speed Characteristics
MODULE – III (10 Hours)
Basics of DC machines: EMF Equation, Torque Equation, Methods of Excitation
Measuring Devices: Working Principle of PMMC & MI type of Instruments. Generating systems:
Introduction to Thermal, Hydel, Nuclear & Renewable Energy sources.
TEXT BOOKS:
1. Principles and Applications of Electrical Engineering, Giorgio Rizzoni, McGraw Hill Education
2. Electrical and Electronic Technology, Edward Hughes (revised by Ian McKenzie Smith), Pearson th
Education Limited, 10 Edition.
REFERENCES:
1. Advanced Electrical Technology, H Cotton, CBS Publishers, 7th Edition. nd
2. Basic Electrical Engineering, C L Wadhwa, New Age International Publishers, 2 Edition. th
3. Problems in Electrical Engineering, S Parker Smith, Asia Publications, 10 Edition.
ELS101 :: BASIC ELECTRICAL ENGINEERING LAB
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT : (Any 8 Experiments)
1. To study the constructional & operational features for Voltmeter, Ammeter, Wattmeter,
Instrument transformer, Multi-Meter and Rheostat.
2. Connection and measurement of power consumption of a fluorescent lamp.
3. Measurement of armature and field resistances of a DC compound machine.
4. Starting and speed control of a DC shunt motor by
a. Field flux control method,
b. Armature voltage control method.
5. Connection and testing of a single-phase energy meter.
6. Starting of three-phase induction motor by star-delta starter.
7. Determination of magnetization/open circuit characteristics (OCC) of DC shunt generator.
8. Calculation of current, voltage and power in series R-L-C circuit excited by single-phase AC
supply and calculation of power factor.
9. Measurement of power in 3-phase circuits using two wattmeters.
10. Study of single-phase induction motors/fan motors.
REFERENCES:
1. Laboratory Manual for Electrical Machines, D. P. Kothari & B. S. Umre, I K International nd
Publishing House Pvt. Ltd , 2 Edition.
Experimentation and Viva-Voce on Electrical Machines, V. N. Mittal & A. Mittal, Standard Publishers nd
Distributors, 2 Edition.
`
ECT101 :: BASIC ELECTRONICS ENGINEERING
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
MODULE – I (14 Hours)
Introduction to Electronics: Signals, Frequency spectrum of signals, Analog and digital signals,
Amplifiers, Digital logic inverters.
Semiconductor Diodes: Introduction, Physical operation of p-n junction diodes, Characteristics of p-n
junction diodes, Zener diode, Rectifier circuits (half-wave, full-wave, bridge and peak rectifiers), Diode
clipper and clamper circuits, Light emitting diodes.
Bipolar Junction Transistors (BJTs): Simplified structure and physical operation of n-p-n and p-n-p
transistors in the active region, Current-voltage characteristics of BJT, BJT as an amplifier and as a
switch,BJT Circuits at DC, Biasing in BJT amplifier circuits, Simplified hybrid model and its application
to single stage BJT amplifiers (Common-Emitter, Common-Base and Common-Collector
configurations).
MODULE – II (12 Hours)
Operational Amplifier (Op-Amp): The ideal Op-Amp, Inverting and non-inverting configurations,
Difference amplifier, CMRR, Application of Op-Amp (Instrumentation amplifier, Summing amplifier,
Integrator and Differentiator)
Feedback Amplifiers and Oscillators: General feedback structure, Properties and advantages of
negative feedback, Basic principles of sinusoidal oscillators, The Barkhausen criterion, Op-Amp
Oscillator circuits (Wien-Bridge oscillator, RC phase-shift oscillator and Crystal oscillator).
Electronic Instruments: Basic principle of Oscilloscope, Function of the sweep generator, Block
diagrams of oscilloscope, Simple CRO, Measurement of frequency and phase by Lissajous method,
Application of oscilloscope for measurement of voltage, period and frequency, Block diagram of
standard signal generator, AF sine and square wave generator, and Function generator.
MODULE – III (11 Hours)
Digital Electronic Principles: Introduction, Binary digits, Logic levels and Digital waveforms,
Introduction to basic logic operation, Number system, Decimal numbers, Binary numbers, Decimal-to-
Binary conversion, Simple binary arithmetic.
Logic Gates and Boolean Algebra: The inverter, The AND, OR, NAND NOR, Exclusive-OR and
Exclusive-NOR gate, Boolean operations and expressions, Laws and Rules of Boolean algebra,
DeMorgan's theorem, Boolean analysis of logic circuits, Standard forms of Boolean expressions,
Boolean expression and truth table.
Combinational Logic and Their Functions: Basic combinational logic circuits, Implementation of
combinational logic, Universal properties of NAND and NOR gates, Basic adders, Multiplexers and
Demultiplexers.
TEXT BOOKS:
1. Microelectronic Circuits, Adel S Sedra and Kenneth C Smith, Oxford University Press, Fifth
Edition, 2004.
2. Digital Fundamentals, Thomas L. Floyd and R P Jain, Pearson Education, Eighth Edition, 2005.
3. Electronic Instrumentation, H.S. Kalsi, Tata McGraw-Hill Education Pvt. Ltd., Third Edition,
2010.
REFERENCES BOOKS:
1. Electronic Devices, Thomas L. Floyd, Pearson Education, Seventh Edition, 2003.
2. Electronic Devices and Circuit Theory, Robert L Boylestad and Louis Nashelsky Pearson
Education, Ninth Edition, 2005.
4. Electronics Principles, Albert Malvono and David J Bates, McGraw Hill Education, 7th Edition,
2006.
ECS101 :: BASIC ELECTRONICS ENGINEERING LAB
TEACHING SCHEME: 0-0-3 (L-T-P) CREDIT: 2
COURSE CONTENT:
1. Familiarization of electronic components, devices and Testing of semiconductor diodes and
transistors.
2. Study and use of Oscilloscope, signal generator to view waveforms and measure amplitude and
frequency of a given waveform.
3. V-I characteristics of semiconductor diode and determining its DC and AC resistance.
4. Studies on half-wave rectifier circuits without and with capacitor filter.
5. Studies on full-wave rectifier circuits without and with capacitor filter.
6. V-I characteristic of an n-p-n transistor and determination of its operating point.
7. Studies on Op-Amp as Inverting and non-inverting configurations.
8. Studies on Op-Amp as integrating and differentiating configurations
9. Studies on Logic gates and its truth table verification.
10. Studies and experiments using MUX, DEMUX ICs.
REFERENCES:
1. Printed Circuit Boards: Design, Fabrication, and Assembly, Raghbir Singh Khandpur, McGraw st
Hill Education, 1 Edition, 2005.
2. Laboratory Manual for Electronic Devices and Circuit Theory, Robert L. Boylestad, Louis th
Nashelsky, Franz J. Monssen , Pearson Publication, 11 edition.
HST101 :: COMMUNICATIVE ENGLISH
TEACHING SCHEME:2-1-0 (L-T-P) CREDIT: 2
COURSE CONTENT:
MODULE – I (10 Hours)
Communication Fundamentals: Nature Importance and Process of Communication, Types of
Communication, Forms of Communication, Information Gap Principle, Business and General
Communication.
Listening Skill: Importance of Listening, Listening and Hearing, Types of Listening, Listening Habit,
Effective Listening Skill, Barriers to Effective Listening, Role of Listening for an Effective Leader,
Listening and Note Making, Effect of Listening on Decision Making Process, Non Verbal Cues on
Listening.
MODULE – II (10 Hours)
Reading Skill: Reading as a Communicative Process and Skill, Types of Reading, Local and Global
Comprehension in Reading, Inferential Reading, Skimming and Scanning, Note Making as part of
Reading, Reader as a Decoder.
MODULE – III (12 Hours)
Writing Skill: Fundamentals of Effective writing, Techniques of writing, Strategies of writing,
Expansion of Idea, précis and summary for mastering comprehension skill, Note Making, Article writing
and Editing.
Speaking Skill: Non-verbal and Verbal Communication, Types of Sentence, Tense, Conditionals,
Modals, Subject-Verb agreement, Concord, Preposition, Common Error in English, Vowel & Consonant,
IPA symbols, transcription, Syllable Division, Trace and Intonation.
‘
TEXT BOOKS:
1. Communication skills, Meenakshi Raman and Sharma, Oxford press, Third Edition 2017th
2. Business correspondence and report writing, Sharma and Krishna Mohan, Tata McGraw-Hill , 5
edition,2017
3. An introduction to professional English and soft skill, Dr. Bikram Das Cambridge Press, 2009
4. Business communication and communicative Englis, Swati Samantaray, Sultan Chand
Publication, 2008
REFERENCES:th
1. Effective technical Communication,M.Asraf Rijvi, Tata Mc Graw Hill, 5 edition2014
2. Technical writing for effective communication for non native speakers of English,Thomas
N.Huckin, Tata Mc Graw Hill, 2004
HSS101 :: COMMUNICATIVE ENGLISH LAB
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT:
1. Communication Fundamentals.
2. Technical Writing.
3. Grammar.
4. Vocabulary.
5. Article Writing.
REFERENCES:
1. Model business letters,Emails and other business documents ,Shirley Teylors,Pearson
publications,2012th
2. Effective technical Communication,M.Asraf Rijvi, Tata Mc Graw Hill, 5 edition2014
3. Technical writing for effective communication for non native speakers of English,Thomas
N.Huckin, Tata Mc Graw Hill,2004
CYT102 :: ENVIRONMENTAL STUDIES
‘
TEACHING SCHEME: 2-0-0 (L-T-P) M a n d a t o r y C o u r s e
COURSE CONTENT:
MODULE – I (12 Hours)
Ecological Concepts: Ecological concept, Biotic components, Ecosystem processes like energy flow,
food chain, food web. Water cycle, Oxygen cycle and Nitrogen cycle. Environmental gradients and
tolerance level of environment factors. Basics of Indian Environmental laws, Atmospheric chemistry and
temperature profile. Soil pollution and its remedies, Origin and procedure of EIA, Environmental
auditing.
MODULE – II (12 Hours)
Water and Waste water treatment: Water quality standard and parameters, Sources of water pollution,
Water treatments-pre, primary, secondary and advanced water treatment process. BOD and COD of
waste water-pre, primary and secondary treatment of waste water, Reactor configuration, Anaerobic
digestion, Methane production.
MODULE – III (12 Hours)
Air pollution: Sources of air pollution, Criteria & Non criteria pollutants, Acid deposition mechanism,
Global climate change-greenhouse gases, Industrial air emission control, Flue gas desulphurization, NOX
removal, fugitive emission.
Noise Pollution: Sources, properties, standard, measurement and control.
Solid waste: Sources, Integrated solid waste management, Hazardous waste-sources and management.
TEXT BOOKS:st
1. Text books on Environmental Studies, Shashi Chawala, , Mcgraw Hill India,1 editionst
2. Environmental Engineering, Gerard Kiely, McGraw Higher Education, 1 edition th
3. Environmental Chemistry, A K Dey, New Age International Publishers,9 edition.rd
4. Environmental Studies, R Rajagopalan, Oxford University Press,3 editionrd
5. Environmental Science &Engineering by Dr. S. K. Dhameja, Kataria and Sons,3 editonst
6. Text books on Environmental Studies, Shashi Chawala, , Mcgraw Hill India,1 editionth
7. Environmental Studies Dr R.G.Desai, Himalaya publishing house,4 edition
MAT102: ENGINEERING MATHEMATICS-II
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
MODULE – I: Laplace Transforms (12 Hours)
Laplace transforms, First shifting property, Gamma function, inverse Laplace transforms, Laplace
transform of derivatives and integrals, Convolution theorem, unit step function and second shifting
property, unit impulse function, solution of differential and integral equations using Laplace transforms.
MODULE – II: Fourier series (13 Hours)
Fourier series expansion of 2 and arbitrary periodic functions, expansion of even and odd functions, half
range expansion, Fourier Integral and Fourier transforms.
MODULE – III: Vector Calculus (15 Hours)
Vector and scalar functions, directional derivatives, curves, tangents, arc length, gradient, divergence,
curl and their properties.
Line integrals, double integrals, Green's theorem, surface integrals, volume integrals, Gauss divergence
theorem and Stokes' theorem.
TEXT BOOKS:
1. Advanced Engineering Mathematics, 10th Edition,E. Kreyszig, John Willey & Sons Inc.
2. Higher Engineering Mathematics, Prof. B V Raman, McGraw Hill Education
REFERENCES:
1. Engineering Mathematics, Srimanta Pal and Subodh C Bhunia, Oxford University Press
2. Advance Engineering Mathematics, Peter V O'NEIL, Cengage Learning
3. Ordinary and Partial Differential equations, J Sihna Ray and S Padhy, Kalyani Publishers
CST101 :: COMPUTER PROGRAMMING
TEACHING SCHEME:3-0-0 (L-T-P) CREDIT: 3
COURSE CONTENT:
MODULE – I (12 Hours)
Introduction to Computers: Computer System, Computing Environments, Computer Languages,
Creating and running programs, Software Development Method, Algorithms, Pseudo code, flow charts.
Introduction to C Language: Identifiers, Basic data types, Variables, Constants, Input/Output,
Operators. Expressions, Precedence and Associatively, Expression Evaluation, Type conversions, Bit
wise operators, Statements.
Statements: if and switch statements, Repetition statements – while, for, do-while statements, Loop
program examples, other statements related to looping – break, continue, go to, Simple C Programming
examples.
MODULE – II (14 Hours)
Designing Structured Programs: Functions basics, user defined functions, inter function
communication, Scope, Storage classes-auto, register, static, extern, type qualifiers, Recursion- recursive
functions, Preprocessor commands.
Arrays and Strings: Concepts, using arrays in C, array applications, two – dimensional arrays,
multidimensional arrays, passing array to a function. C Strings, String Input/Output functions, arrays of
strings, string manipulation functions.
Pointers: Introduction (Basic Concepts), Pointers for inter-function communication, pointers to
pointers, pointer to array, dynamic memory allocation functions, array of pointers, pointers to void,
pointers to functions, command –line arguments.
MODULE – III (10 Hours)
Derived types: Structures – Declaration, definition and initialization of structures, accessing structures,
nested structures, arrays of structures, structures and functions, pointers to structures, self referential
structures, unions, typedef, bit fields, enumerated types.
Input and Output: Concept of a file, streams, standard input / output functions, formatted input / output
functions, text files and binary files, file input / output operations, file status functions (error handling).
TEXT BOOKS:rd
1. Programming with C (Schaum's Outlines Series), Byron Gottfried, McGraw Hill Education, 3
Edition.th
2. Programming in ANSI C, E. Balagurusamy, McGraw Hill Education, 7 Edition
REFERENCES:nd
1. The C Programming Language, Brian W Kernighan & Dennis M Ritchie, Prentice Hall of India, 2
Edition.
th2. Let us C, Yashavant Kanetkar, BPB Publications, 8 Edition.
th3. C: The Complete Reference, Herbert Schildt, McGraw Hill Publication, 4 Edition.
CSS101 :: COMPUTER PROGRAMMING LAB.
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT:
Section 1:
1. Write a C program to find the Surface Area & Volume of Sphere.
2. Write a C Program to swap the two variables with & without the use of third variable.
3. Write a C Program to check a number is even or odd.
4. Write a C Program to compute the largest of 3 numbers using ternary operator.
Section 2:
1. Write a C program to find the roots of a quadratic equation.
2. Write a C program, which takes two integer operands and one operator from the user, performs the
operation and then prints the result. (Consider the operators +,-,*, /, % and use Switch Statement)
3. Write a C Program to check an entered character is a vowel or consonant.
4. Write a C Program to compute the sum of digits of a positive integer.
5. Write a C Program to print the reverse of a number.
Section 3:
1. Fibonacci sequence is defined as follows: the first and second terms in the sequence are 0 and 1.
Subsequent terms are found by adding the preceding two terms in the sequence. Write a C
program to generate the first n terms of the sequence.
2. Write a C program to find the factorial of a given integer.
3. Write a C program to find the GCD (greatest common divisor) of two given integers.
4. Write a C program to generate all the prime numbers between 1 and n, where n is a value supplied
by the user.
Section 4:
1. Write a C program to generate Pascal's triangle.
2. Write a C program to construct a pyramid of numbers.
3. Write a C Program to compute the sum of a sine & cosine series.
Section 5: y
1. Write a C Program to evaluate the power function x .
2. Write a Recursive function for the Fibonacci series.
3. 2's complement of a number is obtained by scanning it from right to left and complementing all
the bits after the first appearance of a 1. Thus 2's complement of 11100 is 00100. Write a C
program to find the 2's complement of a binary number.
4. Write a C program to convert a Roman numeral to its decimal equivalent.
Section 6:
1. Write a C program to find both the largest and smallest number in a list of integers.
2. Write a C Program to sort a list of numbers.
3. Write a C Program to compute the standard deviation of a set of integers.
Section 7:
1. Write a C Program to compute the determinant of a matrix.
2. Write a C program that uses functions to perform the following: i) Addition of Two Matrices ii)
Multiplication of Two Matrices
Section 8:
1. Write a C program that uses functions to perform the following operations: i) To insert a sub-
string in to a given main string from a given position. ii) To delete n Characters from a given
position in a given string.
2. Write a C program to determine if the given string is a palindrome or not
3. Write a C program that displays the position or index in the string S where the string T begins, or -
1 if S doesn't contain T.
4. Write a C program to count the lines, words and characters in a given text.
Section 9:
1. Write a C program that uses functions to perform the following operations:
i. Reading a complex number
ii. Writing a complex number
iii. Addition of two complex numbers
iv. Multiplication of two complex numbers (Note: represent complex number using a
structure.)
Section 10:
1. Write a C program which copies one file to another.
2. Write a C program to reverse the first n characters in a file. (Note: The file name and n are
specified on the command line.)
3. Write a C program to merge two files into a third file (i.e., the contents of the first file followed by
those of the second are put in the third file)
REFERENCES: th th
1. Programming in ANSI C, 7 Edition, E. Balagurusamy, McGraw Hill Education, 7 Edition
2. The C Programming Language, Brian W Kernighan & Dennis M Ritchie, Prentice Hall of India, nd
2 Edition
HST102 :: PROFESSIONAL COMMUNICATION
TEACHING SCHEME: 2-1-0 (L-T-P) CREDIT : 2
COURSE CONTENT:
MODULE – I (12 Hours)
Managerial Communication: Seven C'S of Effective Communication, Basic Principles of Business
Correspondence, Kinds of Business Letter, Common Components of Business Letter, Writing Effective
Memo, Notice, Circular and Paragraph, Meeting: Planning a meeting, meeting process, agenda, minutes
and meeting terminology, Presentation: Difference between business presentation and speech, planning
of presentation, introduction to a presentation, main body, conclusion and effective slide presentation.
MODULE – II (13 Hours)
Business Report & Proposal: Persuasive Style in Writing, Difference between report & proposal,
formats of a business report, steps in writing a report, format of a proposal, proposal layout.
MODULE – III (10 Hours)
E-Communication: Communication in the Internet age, Understanding the internet and its relevance in
the corporate world, Writing an email, text messaging, instant messaging and chat, video conferencing,
intranet, social networking, Positive & negative impact of technology enabled communication.
Basics of Employability Skill: Difference between Communication Skill and Soft Skill, Elements of
Human, Communication, Function of Language, Importance of Business Language, Essentials of a
Business Conversation, Conversation Management, Effective use of Verbal & Non-verbal cues in
conversation, Group Discussion, Business and Social Etiquettes, Importance of personality for
performance, Significant personality traits suitable to the work place.
Interview Skill: Preparation of CV, Writing a Cover Letter, Fundamental principles of interview, Types
& stages of interview, General preparation for an interview, Types of interview questions.
TEXT BOOKS:
1. Communication skills, Meenakshi Raman and Sharma, Oxford press, Third Edition 2017th
2. Business correspondence and report writing, Sharma and Krishna Mohan, Tata McGraw-Hill , 5
edition,2017
3. An introduction to professional English and soft skill, Dr. Bikram Das Cambridge Press, 2009
4. Business communication and communicative Englis, Swati Samantaray, Sultan Chand
Publication, 2008
REFERENCES:th
1. Effective technical Communication,M.Asraf Rijvi, Tata Mc Graw Hill, 5 edition2014
2. Technical writing for effective communication for non native speakers of English,Thomas
N.Huckin, Tata Mc Graw Hill, 2004
HSS102 :: PROFESSIONAL COMMUNICATION LAB.
TEACHING SCHEME: 0-0-2 (L-T-P) CREDIT: 1
COURSE CONTENT:
1. Managerial Communication.
2. Business Report & Proposal.
3. Basics of Employability Skill.
4. Interview Skill.
REFERENCES:
1. Model business letters,Emails and other business documents ,Shirley Teylors,Pearson
publications,2012th
2. Effective technical Communication,M.Asraf Rijvi, Tata Mc Graw Hill, 5 edition2014.
3. Technical writing for effective communication for non native speakers of English, Thomas N.
Huckin, Tata Mc Graw Hill,2004