67th ACM 30.07.

2022

13. Courses of Study and Scheme of Assessment

BE ELECTRICAL AND ELECTRONICS ENGINEERING (2023 REGULATIONS)
(Minimum No. of credits to be earned: 164)
Course Hours / Week Maximum Marks
S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
I SEMESTER
THEORY
1 23E101 Calculus and its Applications 3 1 0 4 40 60 100 BS
2 23E102 Electrical Engineering Materials 3 0 0 3 40 60 100 BS
3 23E103 Applied Chemistry 3 0 0 3 40 60 100 BS
Basics of Mechanical
4 23E104 2 2 0 4 40 60 100 ES
Engineering Practices
5 23G105 English Language Proficiency 3 1 0 4 40 60 100 HS
PRACTICALS
6 23E110 Basics Sciences Laboratory 0 0 4 2 60 40 100 BS
7 23E111 Engineering Graphics 0 0 4 2 60 40 100 ES
MANDATORY COURSES
8 23IP15 Induction Programme 0 0 0 0 - - - MC
Total 26 hrs 14 4 8 22 320 380 700

Course Hours / Week Maximum Marks

S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
II SEMESTER
THEORY
Complex Variables and
1. 23E201 3 1 0 4 40 60 100 BS
Transforms
2. 23E202 Electric Circuits and Networks 3 1 0 4 40 60 100 ES
3. 23E203 Electromagnetic Theory 3 1 0 4 40 60 100 ES
4. 23E204 Semiconductor Devices 3 0 0 3 40 60 100 BS
5. 23E205 Programming in C Language 3 0 0 3 40 60 100 ES
PRACTICALS
6. 23G__ Language Elective 0 0 4 2 60 40 100 HS
7. 23E211 Circuits and Devices Laboratory 0 0 4 2 60 40 100 ES
MANDATORY COURSES
8. 23Q213 Foundations of Problem Solving 0 0 2 0 60 40 100 MC
9. 23E215 Activity Point Programme -1 - - - Grade - - - MC
Total 28 hrs 15 3 10 22 380 420 800

CAT - Category; BS - Basic Science; HS - Humanities and Social Sciences; ES - Engineering Sciences;
PC - Professional Core; PE - Professional Elective; OE - Open Elective; EEC - Employability Enhancement Course;
MC – Mandatory Course

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Course Hours / Week Maximum Marks

S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
III SEMESTER
THEORY
Matrix Theory and Numerical
1 23E301 3 1 0 4 40 60 100 BS
Methods
2 23O302 Engineering Economics 3 1 0 4 40 60 100 HS
3 23E303 Measurements and Instrumentation 3 0 0 3 40 60 100 ES
4 23E304 DC Machines and Transformers 3 0 0 3 40 60 100 PC
5 23E305 Electronic Circuits 3 1 0 4 40 60 100 ES
PRACTICALS
DC Machines and Transformers
6 23E310 0 0 4 2 60 40 100 PC
Laboratory
7 23E311 Electronic Circuits Laboratory 0 0 4 2 60 40 100 ES
8 23Q313 Building Communication Skills 0 0 2 1 60 40 100 EEC
MANDATORY COURSES
9 23K314 Environmental Science 2 0 0 0 50 50 100 MC
10 23E315 Activity Point Programme - 2 - - - Grade - - - MC
Total 30 hrs 17 3 10 23 430 470 900

Course Hours / Week Maximum Marks

S. No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
IV SEMESTER
THEORY
Probability, Stochastic Processes
1 23E401 3 1 0 4 40 60 100 BS
and Statistics
Generation, Transmission, and
2 23E402 3 0 0 3 40 60 100 PC
Distribution
3 23E403 Digital Electronics 3 1 0 4 40 60 100 PC
4 23E404 Linear Integrated Circuits 3 0 0 3 40 60 100 PC
Induction and Synchronous
5 23E405 3 1 0 4 40 60 100 PC
Machines
PRACTICALS
Induction and Synchronous
6 23E410 0 0 4 2 60 40 100 PC
Machines Laboratory
Digital Electronics and LIC
7 23E411 0 0 4 2 60 40 100 PC
Laboratory
8 23Q413 Problem Solving 0 0 2 1 60 40 100 EEC
MANDATORY COURSES
9 23O414 Indian Constitution 2 0 0 0 - - - MC
10 23E415 Activity Point Programme - 3 - - - Grade - - - MC
Total 30 hrs 17 3 10 23 380 420 800

CAT - Category; BS - Basic Science; HS - Humanities and Social Sciences; ES - Engineering Sciences;
PC - Professional Core; PE - Professional Elective; OE - Open Elective; EEC - Employability Enhancement Course;
MC – Mandatory Course

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Course Hours / Week Maximum Marks

S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
V SEMESTER
THEORY
1 23E501 Control Systems 3 1 0 4 40 60 100 PC
Power Electronics and
2 23E502 3 1 0 4 40 60 100 PC
Applications
Microprocessor and
3 23E503 3 0 0 3 40 60 100 PC
Microcontrollers
4 23E504 Digital Signal Processing 3 1 0 4 40 60 100 PC
5 23E____ Professional Elective I 3 0 0 3 40 60 100 PE
PRACTICALS
Power Electronics and
6 23E510 0 0 4 2 60 40 100 PC
Applications Laboratory
Microprocessor and
7 23E511 0 0 4 2 60 40 100 PC
Microcontrollers Laboratory
Instrumentation and Control
8 23E512 0 0 2 1 60 40 100 PC
Laboratory
9 23Q513 Aptitude Skills 0 0 2 1 60 40 100 EEC
MANDATORY COURSES
10 23E515 Activity Point Programme * - 4 - - - Grade - - - MC
Total 30 hrs 15 3 12 24 440 460 900

Maximum
Course Hours / Week
S.No Course Title Credits Marks CAT
Code
Lecture Tutorial Practical CA FE Total
VI SEMESTER
THEORY
1 23E601 Power System Analysis 3 1 0 4 40 60 100 PC
2 23E602 Electric Drives and Control 3 0 0 3 40 60 100 PC
3 23E603 Data Structures using C++ 2 2 0 4 40 60 100 EEC
4 23O___ Open Elective I 3 0 0 3 40 60 100 OE
5 23E___ Professional Elective II 3 0 0 3 40 60 100 PE
PRACTICALS
Electric Drives and Control
6 23E610 0 0 2 1 60 40 100 PC
Laboratory
7 23E620 Innovation Practices 0 0 2 1 60 40 100 EEC
Enhancing Problem Solving
8 23Q613 0 0 2 1 60 40 100 EEC
Ability with Code
MANDATORY COURSES
9 23E615 Activity Point Programme - 5 - - - Grade - - - MC
Total 23 hrs 14 3 6 20 380 420 800

CAT - Category; BS - Basic Science; HS - Humanities and Social Sciences; ES - Engineering Sciences;
PC - Professional Core; PE - Professional Elective; OE - Open Elective; EEC - Employability Enhancement Course;
MC – Mandatory Course

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Course Hours / Week Maximum Marks

S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
VII SEMESTER
THEORY
Power System Protection
1 23E701 3 1 0 4 40 60 100 PC
and Switchgear
2 23E702 Electrical Machine Design 3 1 0 4 40 60 100 PC
3 23E____ Professional Elective III 3 0 0 3 40 60 100 PE
4 23E____ Professional Elective IV 3 0 0 3 40 60 100 PE
5 23O____ Open Elective II 3 0 0 3 40 60 100 OE
PRACTICALS
Power System
6 23E710 0 0 2 1 60 40 100 PC
Laboratory
7 23E720 Project Work I 0 0 4 2 60 40 100 EEC
Total 23 hrs 15 2 6 20 320 380 700

Course Hours / Week Maximum Marks

S.No Course Title Credits CAT
Code Lecture Tutorial Practical CA FE Total
VIII SEMESTER
THEORY
1 23E_____ Professional Elective V 3 0 0 3 40 60 100 PE
2 23E____ Professional Elective VI 3 0 0 3 40 60 100 PE
3 23E820 Project Work II 0 0 8 4 40 60 100 EEC
Total 14 hrs 6 0 8 10 120 180 300

CAT - Category; BS - Basic Science; HS - Humanities and Social Sciences; ES - Engineering Sciences;
PC - Professional Core; PE - Professional Elective; OE - Open Elective; EEC - Employability Enhancement Course;
MC – Mandatory Course

Elective Course on Employability Enhancement

 23____ Enhancing Problem Solving Ability with Code
 23____ Enhancing Arithmetic Problem Solving

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Summary of Credit Distribution

BE ELECTRICAL AND ELECTRONICS ENGINEERING

Credits Per Semester

Course Total
S.No
Category Credits
1 2 3 4 5 6 7 8

1 HS 4 2 4 - - - - - 10

2 BS 12 7 4 4 - - - - 27

3 ES 6 13 9 - - - - - 28

4 PC - - 5 18 20 8 9 - 60

5 PE - - - - 3 3 6 6 18

6 OE - - - - - 3 3 - 6

7 EEC - - 1 1 1 6 2 4 15

8 MC - - - - - - - - -

TOTAL 22 22 23 23 24 20 20 10 164

CAT - Category; BS - Basic Science; HS - Humanities and Social Sciences; ES - Engineering Sciences;
PC - Professional Core; PE - Professional Elective; OE - Open Elective; EEC - Employability Enhancement Course;
MC – Mandatory Course.

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SEMESTER I

23E101 CALCULUS AND ITS APPLICATIONS

3104
DIFFERENTIAL CALCULUS: Functions of two variables, limits and continuity, partial derivatives, chain rule, extreme values
and saddle points, Lagrange multipliers, Taylor’s formula for two variables. (9+3)

INTEGRAL CALCULUS: Double and iterated integrals over rectangles, double integrals over general regions, Fubini‘s
theorem, area and volume by double integration, reversing the order of integration, double integrals in polar form. (9+3)

FIRST ORDER ORDINARY DIFFERENTIAL EQUATIONS: Basic concepts, separable differential equations, exact differential
equations, integrating factors, linear differential equations, modeling - mixing problems, Newton‘s law of cooling, decay and
growth problems. (9+3)

SECOND ORDER LINEAR DIFFERENTIAL EQUATIONS: Homogeneous linear equations of second order, homogeneous
linear ODEs with constant coefficients, Euler–Cauchy equations, solution by variation of parameters, free oscillations mass
spring systems, electric circuits. (9+3)

VECTOR CALCULUS: Gradient and directional derivative of a scalar field, divergence and curl of a vector field. Integration in
vector field – line integrals, path independence of line integrals, Green's theorem in the plane, divergence theorem of Gauss
and Stokes‘ theorem (9+3)

Total L: 45 +T: 15 = 60

TEXT BOOKS
1. J. Hass, C. Heil, Maurice D.W “’Thomas’ Calculus”, Pearson Education, New Delhi, 2018.
2. Erwin Kreyszig, “Advanced Engineering Mathematics”, Wiley India, New Delhi, 2018.

REFERENCES
1. H. Anton, I. Bivens, S. Davis, “Calculus”, John Wiley and Sons, USA, 2016.
2. Wylie C R and Barrett L C, “Advanced Engineering Mathematics”, Tata McGraw-Hill, New Delhi, 2019.
3. Michael D. G, “Foundations of Applied Mathematics”, Dover Publications, INC, New York, 2013.
4. Gilbert Strang, “Calculus”, Wellesley Cambridge Press, USA, 2017.

23E102 ELECTRICAL ENGINEERING MATERIALS

3003
ELECTROMAGNETISM: Review of definitions of fundamental terms. Permeability. Forces due to currents. Uniform and non-
uniform magnetic fields. Static and time-varying magnetic fields. Electromagnetic induction. Expression for induced emf.
Electric fields definition of fundamental terms. Dielectric constant, Permittivity. Dielectric displacement. Gauss
theorem. Electromagnetic waves. Propagation of electromagnetic waves through isotropic media. Maxwell's equations and
interpretation of Maxwell's equations. (9)

QUANTUM MECHANICS: Wave particle duality, de Broglie waves- Heisenberg’s uncertainty principle. Wave function-
normalization. The wave equation. Schrodinger’s equation of motion: Time dependent form, steady-state form. Particle in a box.
Quantum Tunneling and applications: Zener diode and Tunnel diode. (9)

ELECTRICAL PROPERTIES: Conducting materials-quantum free electron theory -Fermi Dirac Statistics-Band theory of solids-
the density of states. Dielectrics-types of polarization-measurement of dielectric permittivity-Loss Factor-Dielectric loss
mechanisms. (9)

PHYSICS OF SEMICONDUCTORS: P type and N type semiconductors-the effective mass. Electrical conductivity in P type and
N type semiconductors. P-N junction, rectifier equation. Hall effect and its applications. Hetero junction-Quantum well, wire,
dots- Optical properties of Semiconductors: LD, LED, Photo diode. Introduction to MEMS. (9)

MAGNETIC PROPERTIES: Types of magnetic materials-domain theory-hysteresis- hard and soft magnetic materials-
Applications-eddy current brakes, regenerative braking. Magnetic lenses, Magnetostriction. Superconductivity –Meissner’s
effect- Josephson junction, SQUID magnetometer, applications. (9)

Total L: 45
TEXTBOOKS:
1. William D CallisterJr, “Materials Science and Engineering-An Introduction”, John Wiley and Sons Inc., 10th Edition,
NewYork, 2018.
2. Arthur Beiser“ Concepts of Modern Physics” Tata McgrawHill, India , 2017
3. Richard Wolfson, “Essential University Physics”., Vols 1 and 2. Pearson Education, Singapore, 2021

REFERENCES:
1. Rolf E. Hummel, Electronic Properties of Materials, Springer, 2013
2. Van Vlack, “Elements of Material Science and Engineering”, Pearson Education India, 2008.
3. Sze S.M, Physics of Semiconductor Devices, John Wiley and Sons, USA, 4th Edition, 2021.

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23E103 APPLIED CHEMISTRY

3 0 0 3
ELECTROCHEMISTRY: Electrode potential – standard and reference electrodes, Nernst equation, emf series – applications.
Galvanic and concentration cells. Applications of potential measurements - redox titration, sensors – ion-selective electrodes –
glass electrode - pH measurement, potentiometric gas sensing – oxygen sensor, dissolved CO2 sensor - Conductance
measurements – applications – conductometric titrations. (9)

BATTERIES AND FUEL CELLS: Batteries- types - battery characteristics-fabrication and working of zinc-carbon and lithium
primary cells, lead- acid, Ni-metal-hydride and lithium ion batteries. Advanced and speciality batteries,supercapacitors. Fuel
cells: Classification, working principle and components of proton exchange membrane, direct methanol, solid oxide, and
molten carbonate fuel cells. Hydrogen as a fuel-production and storage. (9)

CORROSION: Atmospheric corrosion- oxidation – Pilling –Bedworth rule. Electrochemical corrosion – galvanic and differential
aeration corrosion.soil corrosion. Rate of corrosion - factors influencing corrosion. Corrosion control –protective coatings -
metallic coatings – galvanising, tinning, chemical conversion coatings– anodising,phosphating, chromating. Paints–
constituents and their functions. Vitrious enamel coatings. Cathodic protection - sacrificial anode and impressed current
methods. Corrosion in electronic components - vapour phase inhibitors, dehumidifier gels. Corrosion issues in power
transmission and distribution. (9)

POLYMERS:Mechanisms of polymerisation reactions – chain and condensation, copolymers, degree of polymerisation,

polydispersity, topologies - amorphous and crystalline states. Thermal properties - thermoplastics and thermosetting plastics,
mechanical properties, electrical properties– conducting polymers – charge transport, doping and applications, insulating
polymers - dielectric breakdown – aging of polymers - protective and functional additives. Modification of properties of polymers
– composites – types of fillers. Photoresists – chemistry, types, application in microchip fabrication – overview. Adhesives –
chemical types, application methods, factors influencing adhesion, applications in electronic packaging. (9)

CHEMICAL PROCESSES AND MATERIALS FOR ELECTRONICS AND ELECTRICALENGINEERING:Ultrapure water for
electronics industry – specification, water purification – ion exchange, reverse osmosis, continuous electrodeionisation.PCB
fabrication – electroless and electroplating of copper and nickel – formation of copper track on plastic board. Electroforming of
nickel - fabrication of CD stampers. Soldering alloys – phase diagrams, lead free alloys.Oils for insulation and lubrication–-
chemical constitution, characterisation of oils – kinematic viscosity, water content, neutralisation value, flash and fire point,
cloud and pour point, oxidation stability, electric properties - breakdown voltage, dielectric constant, dissipation factor. Grease
– preparation, types and properties. (9)
Total L: 45
TEXT BOOKS:
1. ShashiChawla,.”A Textbook of Engineering Chemistry”,:Dhanpat Rai and Co., 2005.
2. Derek Pletcher and Frank C. Walsh. “Industrial Electrochemistry”, Chapman and Hall, 1993.

REFERENCES:
1. CowieJ.M.G,ValeriaArrighi "Polymers: Chemistry and Physics of modern materials", CRC Press, 2007.
2. Florinel-Gabriel Banica, “Chemical Sensors and Biosensors – Fundamentals and Applications”, John Wiley & Sons Ltd,
2012.
3. Peter Van Zant "Microchip Fabrication: A Practical Guide to Semiconductor Processing", McGraw Hill, 2014.
4. Ravindraarora, Wolfgang mosch, “High Voltage Electrical Insulation Engineering”, John Wiley and Sons Ltd., 2011.

23E104 BASICS OF MECHANICAL ENGINEERING PRACTICES

2204
BASIC MANUFACTURING PROCESSES : Carpentry, Fitting, Lathe, Welding, Smithy, Foundry and Sheet Metal-Basic tools,
applications and practices; Overview of manufacturing processes-Introduction to metal casting process, bulk deformation
processes, powder metallurgy and plastic processing. (6+6)

POWER TRANSMISSION: Types of drives, construction and operation of belt drives, flat and V belts, rope drive, chain drive;
Gear drives - spur, helical, bevel, worm and worm wheel, rack and pinion; Gear trains - simple and compound gear trains.
(6+6)

BASIC CONCEPTS OFTHERMODYNAMICSANDFLUID MECHANICS: Thermodynamics: System, property, state and equilibrium,
process and cycle, work, heat and other forms of energy, Zerothlaw and application, first law of thermodynamics-
application to closed and open systems, second law of thermodynamics-Clausius and Kelvin-Planck statements; Fluid
mechanics: Properties of fluids, measurement of pressure using manometers, flow measurement using orifice,
venturimeter, nozzle meters and pitottubes. (6+6)

INTERNAL COMBUSTION ENGINES AND AIR COMPRESSORS: Engines: Classification of IC engines, construction and
working principle of petrol and diesel engines, four stroke and two stroke cycles, comparison of four stroke and two stroke
engines, petrol, diesel and duel engines, Electrical vehicle; Air compressors: Classification, constructional details and
working principle-axial flow, reciprocating andcentrifugalcompressors. (6 + 6)

PUMPS, TURBINES, REFRIGERATION AND AIR-CONDITIONING: Pumps: Basic concepts of centrifugal and reciprocating
pumps - constructional details and working principle; Turbines: Principle and working of Pelton wheel, Francis and Kaplan
turbine; Refrigeration and air conditioning: Principle and working of vapour compression and absorption systems, layout of
typical domestic refrigerator; window and split type room airconditioners. (6 + 6)

Total L:30 + P:30 = 60

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TEXT BOOKS:
1. Kalpakjian. S "Manufacturing Engineering and Technology", Pearson Education India Edition.,2013
2. Venugopal K, Prabhu Raja V and Sree Kanjana G "Basic Mechanical Engineering", Anuradha Publications.,
Chennai,2014

REFERENCES:
1. Jayagopal L S and Rudramoorthy R "Elements of Civil & Mechanical Engineering", Vikas Publishing House Pvt. Ltd.,
2003
2. Kumar D S "Fluid Mechanics and Fluid Power Engineering", Kataria S K and Sons, New Delhi, 2010
3. Ganesan .V "Internal Combustion Engines", Tata McGraw Hill, 2007

23G105 ENGLISH LANGUAGE PROFICIENCY

3104
VOCABULARY: Etymology-prefixes and suffixes–synonyms–antonyms–guessing meanings from context–word formation-
single-word substitutes-different forms of a word–phrasal verbs–collocations. (9+3)

LISTENING AND SPEAKING: Understanding listening – listening techniques - introducing oneself and others –seeking and
sharing information– description-conversation skills–extempore speaking– speech practice in varied formal contexts. (9+3)

GRAMMAR: Wh-questions–Yes/no questions–parts of speech–articles–prepositions–gerunds–conjunctions-degrees of

comparison–tenses– modal verbs– adverbs - direct and indirect questions. (9+3)

READING: Reading strategies: skimming and scanning, predicting–reading comprehension: techniques – practice reading.
(9+3)

WRITING: Discourse markers – dialogue writing - completing sentences – jumbled sentences –paragraph writing –writing
compare & contrast paragraphs – Letter writing. (9+3)

Total L: 45 +15 = 60
TEXTBOOKS:
1. Shoba K.N.and Lourdes Joavani Rayen,“Communicative English”, Cambridge University press,Cambridge,2021.
2. Raymond Murphy,“Intermediate English Grammar”, Cambridge University Press, New Delhi,2020.

REFERENCES:
1. Raymond Murphy, “English Grammar in Use”, Cambridge University Press, New Delhi, 2020.
2. Sudharshana N P and Savitha C, “English for Engineers”, Cambridge University Press, New York, 2018.
3. Anne Laws, "Writing Skills", Orient Black Swan, Hyderabad, 2011.
4. Helen Naylor with Raymond Murphy, “Essential English Grammar”, Cambridge University Press, New Delhi, 2019.

23E110 BASIC SCIENCE LABORATORY

0042
Physics (Any eight experiments)
1. Determination of Young’s Modulus of a wooden bar – Cantilever method
2. Determination of Hysteresis loss of a ferromagnetic material
3. Determination of resistivity of metal and alloy using Carey Foster bridge
4. Determination of Temperature Coefficient of Resistance of metallic wire using post office box
5. Study of reverse bias characteristics of Germanium diode and determination of its band gap
6. Thermistor: Measurement of temperature and band gap
7. Hall effect set up - Determination of Hall coefficient
8. Study of characteristics of Photo Diode
9. Determine the thickness of the film by Mach Zehnder Interferometer.
10. Determine the excitation potential of argon using the Franck Hertz method

Demonstration:
1. Determine the number of turns & radius of the coil and magnetic field of ‘Helmholtz’ coil using Biot-Savart’s Law –
apparatus
2. Find the Hall voltage, Hall coefficient, mobility & charge density of the given ‘Ge’ crystal using Hall apparatus.
3. Determine e/m (charge to mass ratio) of the electron by Thomson’s method.
4. Determine the charge of an electron by Millikan’s oil drop method.
5. Determine the Planck’s constant using Photo Electric method.
6. Determine the wavelength of the laser source by Michelson Interferometer.
7. Find the finesse and free spectral region of the Etalon.
8. Analyze the mercury spectrum and find wavelength using polynomial equation.
9. Determine the refractive index of given specimen using Brewster’s angle apparatus.

REFERENCES:
1. Department of Physics,” Physics laboratory observation”, 2022.
2. Jerry D Wilson; Cecilia A Hernandez Hall, “Physics laboratory experiments”, Boston, MA : Cengage Learning, 2016.

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Chemistry (Any eight experiments):

1. Potentiometric estimation of ferrous iron.
2. Conductometric estimation of a mixture of strong and weak acids.
3. Preparation of a chloride ion sensor and ascertaining Nerstian response by construction ofcalibration curve.
4. Designing a battery and determination of its characteristics.
5. Construction of phase diagram of a simple eutectic system.
6. Electroplating of copper and Nickel and determination of coulombic efficiency.
7. Demineralisation of water using ion-exchange resins and determination of water quality - pH,TDS and conductivity.
8. Determination of total hardness of water by EDTA method.
9. Determination of kinematic viscosity and acid value of a lubricating oil.
10. Demonstration of different forms of metallic corrosion using ferroxyl indicator test anddetermination of rate of galvanic
corrosion using zero-resistance ammeter.

Total P: 60
REFERENCE:
1. Laboratory Manual Prepared by the Department.

23E111 ENGINEERING GRAPHICS

0042
INTRODUCTION: (12)
1) Lettering practice
2) practice for usage of geometrical Instruments
3) Dimensioning practice as per BIS conventions
4) Geometrical construction
5) Construction of curves used in engineering practice(Ellipse, hyperbola and cycloids). (6)

ORTHOGRAPHIC PROJECTION:
1) Methods of first angle and third angle projections of pictorial views
2) Projection of simple engineering components and missing view exercises

THEORY OF PROJECTION: (12)

1) Projection of points and lines
2) Projection of planes
3) Projection of solids

DEVELOPMENT OF SURFACES: (12)

1) Development of lateral surfaces of regular solids (Prisms and cones)
2) Projection of frustum and truncated solids and simple engineering sheet-metal components

ISOMETRIC PROJECTION : (12)

1) Isometric Projection of Lines and plane figures,
2) Isometric Projection of solids, and sectioned solids

COMPUTER AIDED DRAFTING-AutoCAD (6)

1) Auto CAD commands
2) Drafting settings
3) Dimensioning and text
4) Geometrical constructions

Total P: 60

TEXT BOOKS:
1. Venugopal K, Prabhu Raja V, "Engineering Graphics", New Age International Publishers., New Delhi, 2018, Fifteenth Multi
color edition.
2. K.V. Natarajan, "Engineering Graphics", Dhanalakshmi Publications, Chennai, 2018.

REFERENCES:
1. K C John, "Engineering Graphics for Degree", PHI learning private limited., 2009
2. Bureau of Indian Standards, "Engineering Drawing Practices for Schools and Colleges SP 46-2003", BIS., New Delhi,
2004.
3. Kulkarni, D. M. , Rastogi, A. P. , Sarkar, A. K., Engineering Graphics with AutoCAD, PHI Publication, New Delhi, 2009.

23IP15 INDUCTION PROGRAMME

0000
As per AICTE guidelines

168