3rd Semester All

3rd Semester

CIVIL Engineering

Sl. No.

Course No.

Subject Periods Evaluation Scheme

Theory L T P Sessional Exam ESE Subject Total

Credit

TA CT Total

1 MA 301 Mathematics-III. 3 1 30 20 50 100 150 42 CE 312 Theory of Structures-I. 3 1 30 20 50 100 150 43 CE 313 Engineering Surveying. 3 1 30 20 50 100 150 44 CE 314 Basic Fluid Mechanics. 3 1 30 20 50 100 150 45 CE 315 Construction Practices and

Building Drawing.3 1 30 20 50 100 150 4

6 EE 316 & ME 317

Electrical and Mechanical Engineering.

4 0 3 30 20 50 100 150 4

Practicals/Drawing/Design7 CE 313 L Engineering Surveying. 3 30 20 50 50 28 CE 314 L Basic Fluid Mechanics. 3 30 20 50 50 29 CE 315 L Construction Practices and

Building Drawing.3 30 20 50 50 2

10 EE 316 L & ME 317 L

Electrical and Mechanical Engineering.

3 30 20 50 50 2

11 CE 318 General Proficiency 50 50 2Total 19 5 15

Total Marks: 1150 Total Periods: 36 Total Credits: 34

General Proficiency: (Common to all branches): In general Proficiency students will be assessed based on a presentation on some technical topic on his/her communication skill. Creativity and general awareness. The assessment will be done by a representative committee consisting of representatives of various departments apart from the department concerned.

MA 301: MATHEMATICS-III (Common to all Branches)Theory-100 marks.; Sessional- 50 marks.

Time- 3 Hrs.Unit-I: Linear Algebra: 40 Marks.: Some Special types of matrices such as symmetric and skew-symmetric, hermitian and skew-hermitian, idempotent, nilpotent, involuntary, orthogonal, unitary and their properties; Triangular and echelon form, pivot elements; Trace, Differentiation and integration of matrices; Inverse of a matrix, Theorems on inverse, elementary operations and elementary matrices, equivalent matrices, computation of inverse by elementary transformations, reduction of matrices to triangular from and normal from; partitioning, inverse by partitioning, rank of a matrix, evaluation of rank, Theorems on rank.; Vector spaces and subspaces, linear independence, basis and dimension, row space, column space, null space, row rank, column rank, equality of row rank, column rank and rank of a matrix. ; Solution of a system of non-homogeneous linear equations, solution of a system of homogeneous linear equations, Consistency of a system of linear equations.; Orthogonally: Inner product, orthogonal vectors, orthogonal metrics and Gram-Schmidt orthogonalization.; Eigen values and Eigen vectors and their properties, Cayler-Hamilton’s theorem, Reduction of a matrix to diagonal from, necessary and sufficient condition for diagonalization.

Unit-II: Statistics: 40 Marks: Probability, probability distributions and characteristics: Dispersion skewness and kurtosis, random experiments and sample space, definitions of probability, Laws of probability, Baye’s theorem, random variable, Probability distribution of a discrete random variable, Mean and Variance of a discrete random variable, Probability distribution of a continuous random variable, Expectation and moments, Binomial distribution, Poisson distribution, Normal distribution.Elementary sampling theory: Sampling with and without replacement, Sampling distribution of mean, proportion, sum and difference. Central limit theorem and its significance.Statistical estimation theory: Biased and un-biased estimates, efficient estimate, point & interval estimate. Confidence limits for the estimates of mean, proportion, difference and sum.Statistical decision theory: Statistical hypothesis, Null hypothesis, Test of significance involving normal distribution.

Unit-III: Laplace transformation: 20 Marks : Laplace transformation of elementary functions, inverse Laplace transform, Linearity, Laplace transforms of derivatives and integrals, shifting Theorems, Laplace transform of unit step function, Direc-delta function, Differentiation and integration of transforms, convolution, Application to differential equations.Text/Reference:1. Advanced Engineering Mathematics. : Peter V O’ Neil. : Wiley Eastern Ltd.2. Advanced Engineering Mathematics. : Jain & Iyenger. : Narosa.3. Higher Engineering Mathematics. : B. S. Grewal. : Laxmi Publication.4. Linear Algebra & its applications. : Gilbert Strang. : Thomson Books.5. Probability & Statistics. : Murray R. Spiegel.: Schaum’s outline series, Mc Graw Hill.

CE 312: THEORY OF STRUCTURES-ITheory-100 marks.; Sessional- 50 marks.

Time- 3 Hrs.

1. Bending Moment and shear force diagrams for statically determinate beams :Analytical and graphical methods, maximum bending moment and shear force, point of contraflexure.2. Analysis of statically determinate structures :Trusses, frames, cables and 3-hinged arches, method of joints, section and graphical method.3. Work and Energy Principle :Strain Energy Expression, Principle of virtual work, Maxwell’s Reciprocal Theorem, Maxwell-Betti’s Theorem, Unit load method. 4. Slope and Deflection :Relation between Curvature, slope and deflection. Deflection of statically determinate beams-Castigliane’s theorem 1, Macaulay’s method, moment area method, Deflection of statically determinate perfect frame.

5. Columns :Empirical formula, Rankine’s formula, Concentric and eccentric load. Columns with initial curvature. Equivalent eccentricity, Beam column.6. Indeterminacy of structures :Static and kinematic indeterminacy. Analysis of truss with single degree of indeterminacy. Lack of fit, change of temperature.

CE 313:ENGINEERING SURVEYINGTheory-100 marks.; Sessional- 50 marks.; Practical- 50 marks.

Time- 3 Hrs.Leveling: Classification- Profile & Cross-section, Fly leveling, Reciprocal leveling, Trigonometric leveling, Procise leveling. Errors in leveling and accuracy.Plane Table Surveying: Equipments & accessories, Methods of locating details- Radiation, Intersection and Resection. Advantages & Disadvantages.Theodolite: Measurement of horizontalangle- method of repetition and reiteration, various types of theodolites-20 //

vernier, Micro-optic and Electronic. Introduction to Total station.Traversing by Theodolite- closed traverse, computation of independent coordinates-gale’s Traverse Table.Tacheometry: Basic systems of tacheometric measurement, Principles of stadia and Tangential method with staff vertical, derivation of formulae and numerical problems.Horizontal and Vertical Curves: Characteristics of different types- Elements of Circular and Transition curves, Methods of setting out of simple circular and combined curves.Contouring: Characteristics of contours, Various method.Computation of Area and Volume: Units and conversion factor, Area by Mid-ordinate, Average-ordinate, Trapezoidal and Simpson’s Rule, Formulae for circulation of Cross-Sectional Area, Formulae for calculation of volume. Numerical problems.Field Astronomy: Definition of terms- Astronomical coordinate systems- Astronomical triangle- Star at elongation, Star at culmination, Star at horizon, Circumpolar stars, Determination of azimuth, latitude and longitude. Napier’s rules of Circular parts.

CE 313 L: ENGINEERING SURVEYING (PRACTICAL)Practical- 50 marks.; Time- 3 Hrs.

To range a line more than one chain length and recording the details in a field book.; Closed compass traversing to plot the existing layout of a building/ built-up area.; Profile and Cross-sectional leveling with Dumps/Level.; Fly leveling with tilling level.; Trigonometric leveling.; Plane table traversing.; Three-pt-problem.; Direct Contouring using Indian Tangent Clinometer.; Indirect contouring by the method of grids.; Measurement of horizontal and vertical angles with theodolite.

CE 314: BASIC FLUID MECHANICSTheory-100 marks.; Sessional- 50 marks.; Practical- 50 marks.

Time- 3 Hrs.Introduction:Fluid- definition, types, physical properties.Fluid Statics: ydrostatic law, pressure, density, height relationship, manometer, pressure on plane, curved and submerged surfaces, Centre of pressure, Buoyancy, Equilibrium of floating bodies, metacentre. Fluid mass subjected to accelerations.Fluid Kinematics:Types and states of motion- steady and unsteady, uniform and nonuniform, laminar and turbulent flow, compressible and incompressible flows, one, two & three dimensional flows, streamlines, streak lines and path lines, stream tube, stream function and velocity potential, flow net and its drawing, Free and forced vortexes.Fluid Dynamics:Continuity equation, Euler’s equation, Bernoulis equation- application. Total energy. Momentum equation, Energy equation. Flow Through Openings:Orifices, Mouthpieces, Co-efficient of contraction, velocity and discharge, Nozzles, Flow under sluice gate.Notches and Weirs:Rectangular, triangular and trapezoidal notches and weirs, Franci’s formula with end contraction, suppressed weir, Cippoletic weir, submerged weir, broad crested weir.Flow Through Pipes:Loss of head due to friction, bend and elbows, sudden enlargement, sudden centraction, obsoletion and at entrance. Darcy Weisbach formula, coefficient of friction, flow through compound pipes. Siphon.Flow Measurement:Venturi meter, orifice meter, Nozzle meter, pitot tube, current meter.Dimensional and Model Analysis:Rayleigh’s method, Buckingham’s pi-theorem, important dimensionless peremeter and their significance. Application of dimensional analysis to fluid flow problems. Geometric, Kinematics and dynamic similarities, scale ratio, velocity, force, discharge speed and power of prototype, Distorted model.Flow in Open Channels:Channel section- Wetted perimeter, hydraulic radius, slope; Chezy’s and Manning’s formula, Economic section.

CE 314L: BASIC FLUID MECHANICS

1. Determination of coefficient of triangular notch.2. Determination of friction factor in pipe flow cases.3. Verification of Bernoulli’s theorem.4. Determination of coefficient of Orifice.5. Reynold’s experiment for laminar and turbulent flow.

CE 315 CONSTRUCTION PRACTICES AND BUILDING DRAWINGTheory-100 marks.; essional- 50 marks.

Practical- 50 marks.Time- 3 Hrs.

1. Planning: Survey-Layout-Investigation for different types of building orientation of building surface water drainage system, water supply, electrification, sewage disposal- road alignment, preparation of schemes etc.

2. Functional requirement of a building: Basic requirements – strength and stability, comfort and convenience resistance to moisture penetration, fire safety (NSC classification) thermal insulation, day lighting and ventilation, sound insulation, security against burglary, protection against vermins or termites.

3. Building components: Their basic requirements, foundation, plinth, floor, super structure, walls, apiers, beams, columns, lintels, doors, windows, ventilations, shedes, shades, celling, roofs, steps, stairs, finishes and utility fixtures.

4. Foundation: Classification-types, places of use, isolated, wall footing, combined footing, grillage foundation, raft foundation, pile foundation, type and application, basements buoyancy raft, caissons, cylinders, shafts.Construction- setting out excavation, timbering, Shorring and bracing, dewatering.

5. Masonary works: Brick masonary and stone masonary construction, cavity walls partition walls types of bonds, reinforced brick masonary.

6. Temporary supporting structures: Shuttering and scaffolding, for footing, column, beam, slab etc.

7. Cement concrete works: Plain cement concrete, reinforced cement concrete steel work in R.C.C. 8. Flooring: Requirements, types of flooring method of lying skid resistance floor, industrial floor,

NEO construction practices. 9. Staircases: Types of stairs, material, orientation simple geometric calculations, rams, elevators,

escalators, lift.10. Roofs: Types of roof, selection of roofs. 11. Doors, windows, ventilators: Types, materials specification, modular concept, construction

practices. 12. Prefabrication: Standardization, mechanization industrialization modular co-oration, joins,

comparison with Insitu construction.13. Plant and equipments: Concrete mixer, vibrator, pump sets.

CE 315L: CONSTRUCTION PRACTICES AND BUILDING DRAWINGMarks- 50.

Time- 4 Hrs.

BUILDING DRAWING PRACTICAL: -

1. Introduction: - Purpose of drawing, Requirements, Different types, Symbols for materials, installation & fixtures.

2. Building Components: - Foundation, Masonary, Trusses, Stairs.3. Building Drawing: - Plan, Elevation and Section of- Single Storeyed, Multi Storeyed (flat roof &

sloped roof) buildings.4. Introduction to use Softwares: - (Auto-cad, 3D-Max, 3D-Home Architect) in Building Drawing.

EE 316: ELECTRICAL ENGINEERINGTheory- 50 marks.; Sessional- 25 marks.

Time- 3 Hrs.1. Introduction to basic electric machines: working principles of rotating electric machines (motors

and generator) and transformer. Types of motors and their application. 2. House Wiring: Details of wiring for different types of buildings, estimation and valuation.3. Introduction to transducers, their classification and uses.4. Introduction to Oscilloscope and Transistor amplifier.

ME 317: MECHANICAL ENGINEERINGTheory- 50 marks.; Sessional- 50 marks.

Time- 3 Hrs.Unit 1: - 10 hours (Only a treatment in outline is required for each topic and no coverage in depth is required- no mathematical problems).

Energy: - Definition, types, sources- traditional and non-traditional, application, merits and demerits of each type of non-conventional energy. - 2 hrs.

Utilization Conventional Energy: - Power Plants.

- Steam power plants: layout, components with block diagram- 1 hr.- Diagrammatic description of boiler and its mounting & accessories- 1 hr.- Diagrammatic description of turbine, condenser with working principles- 1 hr.- I.C. engines: principle & working of petrol & diesel engine & Comparison- 1 hr.- Principles of gas turbine & nuclear plants- 1 hr.- Principles and working of a refrigerators and air conditioner- 1 hr.- Lift mechanism- 1 hr.

Unit 2: 9 hours (Brief description, principles, relevant formula without deduction, simple mathematical problems)

Mechanical power transmission systems:

- Gears – types, velocity ratio, simple problems – 2hrs. - Belt and rope drive; types, equation for torque h.p. transmitted width of belts, simple problems – 2 hrs.

Essential components:

- Governor & flywheel – description, simple problems- 2 hrs. - Mechanical unbalance –2hrs. - Mechanical aspects of a pomp – 1hr.

Unit 3:5 hours (principles with diagrams only)

Production processes:

- Casting: moulding, advantages & disadvantages defects – 2hrs. - Forging: types principles – 1hr. - Welding; types advantages & disadvantages, applications – 2hr.

Textbooks:

Unit 1& 2: - Basic mechanical Engineering – By T.S. Rajan – Wiley Eastern.

Unit 3: - Theory of machine – by Jagadish Lal – metropolitan Books Ltd. New Delhi.

Laboratory: - Lab demonstration of

a. Boiler – mounting & accessories. b. I.C. Engines, Steam Engines. c. Refrigerators & air conditioner. d. Governor, gear, belt & rope drive, flywheels. e. Pump. f. Covered in W.P. I & II.

Mechanical Engineering

3RD Semester BE(ME)SL.No Cours

e NoSUBJECT PERIOD EVALUATION SCHEME

Theory L T P

Sessional Exam.

TA CT Total

ESE Subject Total

Credit

1 MA 301 Mathematics – III 3 1 0 30

20

50 100 150 4

2 EE 303 Electro Technology – I 3 1 0 30

20

50 100 150 4

3 ME 305 Basic Thermodynamics 3 1 0 30

20

50 100 150 4

4 ME 322 Theory of Machine 3 1 0 30

20

50 100 150 4

5 ME 323 Engineering Graphics – III

1 0 3 30

20

50 100 150 4

6 ME 324 Workshop Theory – I 3 1 0 30

20

50 100 150 4

7 ME 325 General Proficiency 50 50 2Practical/ Drawing/Design

8 EE 303L Electro Technology – I 0 0

3 30

20

50 50 2

9 ME 322L Theory of Machines 0 0

3 30

20

50 50 2

10

ME 323L Engineering Graphics – III

0 0

3 30

20

50 50 2

11

ME 324L Workshop Theory – I 0 0

3 30

20

50 50 2

Total 16

8 12

1150

Total marks : 1150 Total Periods: 36 Total Credits : 34TA : Teachers Assessment CT: Class test ESE : End Semester examination

MA 301: MATHEMATICS-III (Common to all Branches)Refer syllabus for CE

EE 303: Electro Technology-I ( Common to ME, IPE & CHE) L – T - P

(3 – 1 – 2)Theory Marks =100; Sessional Marks = 50

Laboratory Marks = 50

1. D C Machines:Basic Constructional features, E M F equation of D C generator, Elementary Idea of DC machine winding-winding pitch, Lap and Wave windings. Types of generators. Characteristics of DC generator-the OCC and the load characteristics. The shunt generator-condition for voltage builds up. Load characteristics. Losses in a DC generator, Efficiency, Applications, Compound generatorsWorking principle of DC motor. Back EMF, Calculation of torque and power. Types of DC motors. Characteristics curves. Losses and Efficiency. Speed equation. Method of speed control. Method of starting. The 3 point, 4 point starter (calculations of the star resistors not required)

2. Transformer:Physical description of transformer. Elementary theory of the ideal transformer, EMF equation, Voltage and current transformation ratio. No load and load phasor diagrams. Transformer reactance and impedances. Equivalent resistance & reactance. Simplified equivalent circuit, open and short ckt tests. Losses and efficiency. Condition for maximum efficiency. All day efficiency. Voltage regulation. Star and delta connection in 3-ph transformer. The auto transformer, basic working principle.

3. Induction motor:Constructional features of 3-ph induction motor-principle of rotating magnetic field(mathematical treatment not required)Principle of operation of the 3-ph induction motor speed. Rotor emf, current and rotor cu loss, Torque, Starting torque .Maximum torque. Condition for maximum torque. Torque slip curves. Necessity of a starter. Methods of starting of squirrel cage and the slip-ring induction motors.Introduction to single phase induction motor. Nature of a field and torque produced in single phase induction motors (details of double revolving field not required).Types of motors-split phase, capacitors motors.

4. A.C. Synchronous machines:Principle of operation of alternators. Constructional features of cylindrical generators and salient pole generators, EMF equation, Armature reaction. Synchronous impedance. Regulation of alternators, determination by synchronous impedance method.Principle of operation of the synchronous motor, Synchronous motor on no load, Synchronous motor on load, Behaviour of the Synchronous motor with change of excitation-V curves. Starting methods of Synchronous Motor. Application of Synchronous motor.

6. Measuring Instruments:

Dynamometer type wattmeter. Induction type wattmeter. Single phase induction type energy meter. Errors and compensations.

Books:1. Langsdrof : ‘Theory of Alternating Current Machines’ Tata McGraw Hill2. Kingsley, Fitzereld : Electric Machinery ( McGraw Hill)3. Say : Preformance and Design of Alternating Current Machine.4. Guru, B.S., and Huseyin R. Hiziroglu, Electric Machinery and Transformers, Oxford University Press5. Kothari D.P., and Nagrath, I.J., ‘Electrical Machines’, Tata McGraw Hill6. Electrical Measurements and Measuring Instruments – A.K. Shawney (Dhanpat Rai)

ME 305: BASIC THERMODYNAMICS(3-1-0) (for ME, IP, EE, ET, INS)

Theory: 100 Sessional: 50 Time: 3hours

System and Continuum: Intensive and Extensive properties – Thermodynamic state, pressure, energy, work and heat – process and cycle – Macroscopic and Microscopic points of view – Kinetic theory of gases.Laws of thermodynamics: Zeroth law – Concept of equilibrium – Principles of thermometry – Fixed points.First law of thermodynamics and its application to open and closed systems – Concept of internal energy – Steady flow energy equation – Processes of closed systems.Second law of thermodynamics – Various statements – Carnot cycle – Irreversible and Irreversible processes – Thermodynamic efficiency and temperature scales – Concept of entropy – Entropy changes in various processes.Properties of steam: Latent heat – Saturation pressure and temperature – Dryness fraction – Degree of superheat – Total heat; Rankine cycles.Air standard cycles: Otto, Diesel – Principles of working and description of two and four stroke SI and CI engines – Representations of processes on T-S and p-v diagrams.Fuels and Combustions: Classification of fuels; HCV, LCV, Bomb Calorimeter, Boy’s gas calorimeter; Combustion of fuels; Minimum air required (by weight and by volume); Conversion of volumetric analysis into weight analysis and vice verse; excess air and Orsat apparatus. Books:

1. Engineering thermodynamics by P K Nag, Tata McGraw Hill Publication2. Fundamentals of Thermodynamics by Cengel and Boles, Tata McGraw Hill Publication3. Fundamentals of Engineering Thermodynamics by E. Rathakrishnan, PHI

ME322: THEORY OF MACHINES 3-1-3) (for ME,IPE)

Theory: 100, Sessional: 50, Laboratory: 50, Time: 3hrs

1. Kinematics: Link, Pair, chain, mechanism and inversions. Simple mechanism (description only), Slider crank, four bar, straight line steering. Simple velocity and acceleration diagrams, 2. Strain energy, Virtual work, Introduction to vector approach.3. Governor: Watt and porter governors. Spring controlled centrifugal governor – Hartnell, Hartung, Wilson –Hartnell, Inertia governors. Stability, Effects of friction, Isochronism, Hunting, effort and power.4. Flywheel: Fluctuations of energy, Co-efficient of fluctuation of energy and speed, function of flywheel.5. Brake and Clutch: Working principles only. Simple problems illustrating use of above.6.Belt and Rope Drive: Relations for torque, maximum power transmission, length of open cross belting slip, crowning of pulley.7. Gear and Gear train: Nomenclature, types – simple, compound , epicyclic gear train including reverted gear train. Simple description of automobile gear train.

Laboratory: Six experiments covering the syllabus.Books: 1.Theory of Machines by J. Lal , Metropolitan Books Ltd.

2. Theory of Machines and Mechanisms(3rd edition) by J.J.Uicker, Jr;G.R.Pennock & J.E.Shigley, Oxford University Press.

3. Theory of Machines by V.P.Singh, 4. Theory of Machines by A. Shariff

ME 323: ENGINEERING GRAPHICS – III (1-0-6) (for ME,IPE)

Full marks: 100, Sessional: 50, Laboratory: 50, Time; 3hours

SCREW THREAD & SCREWED FASTENER: Profiles of various threads; Representations of various kinds of threads; Different types of nuts and bolts; Locking devices for nuts.RIVETTED JOINTS: Different types of Laps and Butt joints; Rivetted joints of plates at right angles.KEYS, JOINTS & COUPLINGS: Different types of keys; cutter joints; knuckle joints; muff coupling; flange coupling; universal couplings.

PULLEYS: Stop pulley and V-belt pulley.PIPE JOINTS: Flanged joint; Hydraulic joints.GEARINGS: Construction and representation of involute teeth profile and nomenclature.ASSEMBLY DRAWING: Engine parts: 1) Piston, 2) stuffing box, 3) Cross-head 4) Connecting and connecting ends 5) Eccentric.Valves: 1)Stop valve, 2) Feed check valves 3) Blow off cock 4) Non-return valve.Bearings: 1) Thrust bearing 2) Pedestral bearingComputer aided drafting, Introduction to autocad – solid modeling, Computer graphics. Detailed workshop drawing: Pipe vice, Chuck, Tail stock of lather screw jack; different symbols in workshop drawing.Books: 1. Machine drawing – N D Bhatt.

ME: 324 Workshop Theory – I (3-1-3) (for ME only)

Theory: 100, Sessional: 50, Laboratory: 50, Time: 3hrs.

Unit- I

Single point cutting tools – Reference planes – System of axes. Tool specifications – ASA, ORS, MRS and NRS systems. Conversion of tool angles, Selection of tool angles. Tool materials and fabrication, Cutting Fluids.

Unit –II

Lathe- Functions, Classification and Specification- Different parts- Drive mechanisms speed and feed- Taper turning- Gear cutting- Machining time calculation. Lathe Accessories and Attachments.

Unit-III

Shaper – Functions, Classification and Specification – Different part of a shaper – Quick return and feed mechanisms – Shaper operations – Cutting speed and Machining time calculations.

Unit-IV

Planer - Functions, Classification and Specification – Difference between shaper and planer – Table drives and feed mechanism – Planer operations – Machining time.

Unit-V

Drilling machines – Classification – specifications – Parts of an Upright drilling machine – spindle drive mechanisms – tool and work holding devices. Types of drills and twist drill nomenclature, Drill size and designation of drills. Deep hole drilling operation. Machining time. Introduction to reaming – reaming tools – reaming allowances. Introduction to tapping – Tap drill size.

Unit-VI

Pattern making and sand casting – Pattern materials – Types – Pattern allowances. Coreprints. Moulding sand – ingredients – classification – sand additives – properties of moulding sand – sand preparation and testing. Green sand mould preparation. Cores and core making – Types of cores.

Unit-VII

Welding and related processes – Types of welding. Gas welding – Gas flame – welding techniques – welding equipment. Arc welding – Principle – equipments – Polarity – Electrodes- Arc welding methods – MIG, TIG, Atomic Hydrogen Arc and Plasma Arc welding. Resistance welding – Principle – Methods. Oxygen and Arc Cutting. Welding methods of – Carbon steel, Stainless steel, Cast iron, Aluminium and Copper. Inspection and testing of welds. Soldering and Brazing.

Books:1. Elements of Workshop Technology (Vol. I & II) – S.K. Hajra Coudhury and A.K. Hajra Coudhury.2. A course in Workshop Technology (Vol. I & II) – B.S. Raghuwanshi3. Manufacturing Technology – P.N. Rao – Tata McGraw Hill4. Workshop Technology-I – P.K. Sapra and R.K. Kapur- Vikas Publishing5. Elements of Manufacturing Processes – B.S. Nagendra Parashar and R.K. Mittal – PHI.6. Introduction to machining Science – G.K. Lal, New Age International Limited

Electrical Enginering

Electrical Engineering

Sl. No.

Course No.



Credit

TA CT Total

1 MA 301 Mathematics -III 3 1 30 20 50 100 150 42 EE 341 Network Analysis 3 1 30 20 50 100 150 43 EE 342 Electrical Engineering

Materials & Devices3 1 30 20 50 100 150 4

4 EE 343 Advanced Computer Programming

3 1 30 20 50 100 150 4

5 ME 302 Engineering Mechanics -II 3 1 30 20 50 100 150 46 ME 305 Basic Thermodynamics 3 1 30 20 50 100 150 4Practicals/Drawing/Design7 EE 345 Electrical Engineering Drawing 3 30 20 50 50 28 EE 343 Advanced Computer

Programming3 30 20 50 50 2

9 ME 302 Engineering Mechanics -II 3 30 20 50 50 210 ME 305 Basic Thermodynamics 3 30 20 50 50 211 EE344 General Proficiency 50 50 2Total 18 6 12


MA 301: Mathematics-III

ME302: ENGINEERING MECHANICS – II (3-1-3) (for EE, INS, CH)

Theory: 100 Sessional: 50 Laboratory: 50 Time: 3hours

1. Kinematics: Link, Pair, chain mechanism and inversions. Simple mechanism (description only), Crank slider, four bar, st. line, steering. Simple velocity and acceleration diagrams.

2. Machine elements: a) Governor : functions, type expressions for height of watt and porter governors.b) Flywheel : Fluctuations of energy, Co-efficient of fluctuation of energy and speed, function of flywheel.c) Brake and Clutch : Working principles only. Simple problems illustrating use of above.3. Balancing : Simple problems of rotary, primary unbalance, graphical solution.4. Transmission of Rotary drive:

a) Belt and Rope Drive: Relations for torque, maximum power transmission, length of open cross belting slip, crowing of pulley.

b) Gear train: Nomenclature , types – simple, compound , epicyclic gear train including reverted gear train. Simple description of automobile gear train.

Laboratory: Six experiments covering the syllabus.

Books: 1.Theory of Machines by J. Lal , Metropolitan Books Ltd.

2. Theory of Machines and Mechanisms(3rd edition) by J.J.Uicker, Jr;G.R.Pennock & J.E.Shigley, Oxford University Press.

3. Theory of Machines by V.P.Singh, 4. Theory of Machines by A. Shariff

EE 341: Network Analysis (3-1-0) ( For EE and INS)Theory Marks = 100; Sessional Marks = 50

Time = 3 hours1. Elements of electric circuits : The resistor: Practical engineering devices. Solid & wire frame of common resistive materials, carbon film and metal film resistors. Heat dissipating area (wattage), tolerance and temperature stability of resistors. Mathematical models, the capacitor: Comparison of properties of different traditional & modern dielectric materials (e.g. paper, ceramic, polystyrene polycarbonates etc.) Short description of electrolytic capacitor- wet & solid dielectrics, solid tantalum & aluminum capacitors, Mathematical models, the inductors: Mutual inductance, Properties of core materials. Brief studies of iron & ferrite cores, Mathematical models (only assignments).2. Transient phenomenon: Forcing functions-impulse, step and ramp functions Study and solution of simple circuits undergoing transient disturbances, A.C. transients, Time domain equations and solutions by Lap lace transforms.3. Network topology : Elementary graph theory as applied to electrical networks. Matrices of graph: Incidence matrix, circuit matrix, cut set matrix. Advanced techniques of equation formulation for numerical solutions.4. Matrix methods for the solution of circuit equations : Solution of network equations by matrix methods. Methods suitable for simulating electric circuits on digital computers.5. Network theorems : Millman’s theorem, Reciprocity theorem, Compensation & Tellegen’s theorems…etc. Analysis of coupled circuits. The dot rule & equivalent conductivity coupled forms of magnetically coupled circuits.6. Two port Network : General principles, ABCD, Z, Y and hybrid parameters, Analysis of networks in tandem. Transmission lines. Lumped and distributed models. Characteristic impedance, Wave propagation constant, Reflection and terminations, attenuation and phase constants.7. Introduction to Network Synthesis : Foster and Cour forms of realization of network for given driving point impedance functionBOOKS:1. Gerald L. Sinsoutg ‘A user’s guide to selecting Electronic components’ John Wiley2. W. H. Hayt Jr. & J.E. Kemmerly ‘Engineering Circuit analysis’ Tata Mcgrow Hill3. J.A. Edwinster ‘Electric Circuit’-. Tata Mcgrow Hill4. Donald A. Calahan ‘Computer aided Network Design’, Tata Mcgraw Hill5. Soni & Gupta ‘A course in Electric Circuit Analysis’ —Khanna publishers6. Kurja Kose, ‘Circuit Theory-Continious & Discrete time Systems, elements of network synthesis, PHI7. V.Valkeberg, ‘Network Analysis’ PHI

EE 342: Electrical Engineering Material & Devices (EE And INS) (3-1-0)Theory Marks =100; Sessional Marks = 50

Time = 3 hours1. Structure of solids : Crystalline state of solids, systems & classes, unit cell and space lattice, BCC, DC

structure, Bragg’s law, Miller indices, Crystal imperfections, grain boundaries.2. Dielectrics : (I): Properties of static field. Static dielectric constant, polarization, dielectric constant of

mono atomic gases & poly atomic molecules, internal fields in solids & liquids, ferroelectric materials, spontaneous polarization, piezo electricity.

(II) Properties in alternating fields: Frequency dependence of electronic, ionic polarizability, complex dielectric constant, dielectric loss, dipolar relaxation, breakdown in dielectrics. General properties of common dielectrics (Electrical, mechanical chemical and thermal). Gaseous dielectrics, liquid insulating materials, solid insulating materials, films.

3. Magnetic properties of materials: Magnetization, origin of permanent magnetic dipole moment, classification of Magnetic of materials, dia, para, ferro, antiferro & ferromagnetism, magnetic anisotropy, magnetostriction, soft & hard magnetic materials for electrical applications.

4. Conductors : Electron gas model of a metal, Relaxation time, collision time, mean free path, electron scattering & resistivity, heating effect of current, thermal conductivity, superconductivity, electrical conducting materials (Cu, Al) & their application. Mechanical properties like corrosion, solid curability, contact resistance.

5. Semiconductors and Devices: Density of carriers in intrinsic semiconductor & in n-type & p-type semiconductor, conductivity, Hall effect, drift & diffusion current, Einstein relation.

6. Semiconductor Device Fabrication:Books:

1. Dekker A.J. ‘Electrical Engineering Materials -PHI2. Seth & Gupta ‘A course in Electrical Engineering Material’ — Dahnpat Rai & Sons3. Rajput A.K. ‘Electrical Engineering Materials’ New age international4. C.S. Indulkar & S. Thiruvengadam ‘Electrical Engineering Materials’.5. S.K. Bhattacharya ‘Electrical & Electronic Engineering Materials and Components’ Kahnna

Publishers.

EE 343: Advanced Computer Programming (EE And INS) (3 – 1 – 3)Theory Marks =100; Sessional Marks = 50; Laboratory Marks = 50

Time = 3 hours

1. Introduction to Linux: Components and versions, description of files and directories, file operations, general line commands, Batch files, configuring the system, administrative mode of operation.

2. Review of 1st semester IC course: Control structure, decision control structure, case control structure.

3. File operations: Opening a file, File opening modes, Closing a file, Reading data from a file, writing data to a file, EOF.

4. Functions: What is function, passing values between functions, call by value, call by reference,

5. Arrays and pointers : Array definition, array initialization, bound checking, passing an array element to a function, passing an entire array to a function, 2-dimenational array, 3-dimentional array, pointer definition, array of pointers.

6. Structures: Use of structure, Declaration of a structure, accessing structure elements, Storing of structure elements. Array of structures.

7. Strings: Definitions, Standard library string functions strlen(), strcpy(), strcat(), strcmp(), 2-dimentinal array of characters.

8. Introduction to Object Oriented Programming: Books:

1. Yashavant Kanetkar, ‘Let Us C’, BPB Publications2. Yashavant Kanetkar , Let Us C++ , BPB Publications3. E. Balaguruswamy, ‘Programming in C’ , Tata MC Grow Hill4. Gotterfried, ‘Programming in C’, Tata MC Grow Hill5. Rajaraman, ‘Computer Programming in C’, PHI6. Somasekharan, ‘Computer Programming in C’, PHI

EE 345: ELECTRICAL ENGINEERING DRAWING, ESTIMATING AND COSTING (0-0-3) (Note: There is no university examination for this course. Final assessment will be done through an internal examination at the end of the semester)Max Mark: 50 (Sessional); Pass Marks: Part I: Electrical Engineering Drawing

1. Standard symbols used in Electrical and Electronics Engineering. (Sheet No.1) 2. Insulators used in power transmission and distribution systems. (Sheet No.2)3. (i) Different types of underground cables and overhead conductors used in power transmission and

distribution systems.(only X-sectional view). (ii) Various transmission and distribution towers. (Sheet No.3)

4. Different parts of Electrical Machines and Transformers. (Sheet No.4)5. Single line diagram of generating stations, substations and interconnected power systems.

(Sheet No.5) 6. Simple house wiring diagram. (Sheet No.6)

7. Different types of Electric Earthing (Sheet No.7)

Part II: Electrical Estimating and Costing

8. Types of wiring systems, wiring materials and other accessories.9. Estimating and costing of

a. electrical installations b. lighting and power circuits of residential building and small industries c. HT and LT overhead lines

References:1. Electrical Design, Estimating and Costing – K. B. Raina and S. K. Bhattacharya2. Electrical Wiring, Estimating and Costing – S. L. Uppal3. Electrical Drawing and Estimation – C. R. Dargan4. General Electrical Drawing –Surjit Singh5. Electrical Engineering Drawing – K. L. Narang6. Electrical Installation, Estimating and Costing – J. B. Gupta

Chemical engineering

Sl. No.

Course No.



Credit

TA CT Total

1 MA301 Mathematics-III 3 1 30 20 50 100 150 42 ME 302 Engg. Mechanics-II 3 1 30 20 50 100 150 43 EE 303 Electro Technology-I 3 1 30 20 50 100 150 44 CH 384 Fundamentals of Chemical

Engineering3 1 30 20 50 100 150 4

5 CH 385 Material Sc & Cor. Engg 3 1 30 20 50 100 150 46 CH 386 Chemical Process Industries 3 1 30 20 50 100 150 4Practicals/Drawing/Design7 CH387 Chemical Engg. Drawing 3 30 20 50 50 28 ME 302L Engg Mech-II Lab 3 30 20 50 50 29 EE 303 L Electro Technology-I Lab 3 30 20 50 50 210 CH 386 L Che Process Industries Lab 3 30 20 50 50 211 CH 387 General Proficiency 50 50 2Total 18 6 12


TA: teachers assessment CT: Class Test ESE: End Sem Exam

MA 301: MATHEMATICS-III (Common to all Branches)

EE 303: Electro Technology-I (ME & CHE)

CH 384: Fundamentals of Chemical Engineering (3 – 1 – 0)Theory : 100 marks; Sessional : 50 marks

Time : 3 HrsIntroduction to Chemical Engineering: Definition, Origins and Development of the Chemical Process Industry. The Present Day Chemical Industry. The systematic Analysis of Chemical processes. Representation of a Chemical Process in terms of Flow sheet. Functions of a Chemical Engineer. Professional and General Aspects of. Chemical Engineering.

Brief description of important Chemical Industries in terms of Unit Operations and Unit Processes. Measuring Techniques, Devices and Control in Process Industries. Pollution and its Abatement. Numerical Methods: Different types of graph papers, statistical analysis of data, curve fitting, sorting of data, interpolation, Numerical integration, numerical differentiationSTOICHIOMETRY: Introduction- Units and Dimensions - stochiometric principles-composition relations, density and specific gravity. IDEAL GASES AND VAPOR PRESSURE: Behaviors of Ideal gases -kinetic theory of gases - application of ideal gas law- gaseous mixtures - volume changes with change in composition. Vapor pressure- effect of Temperature on vapor pressure-vapor pressure plots-vapor pressure of immiscible liquids-solutions. HUMIDITY AND SOLUBILITY: Humidity - saturation - vaporization - condensation - wet and dry bulb thermometry Solubility and Crystallization-Dissolution -solubility of gases.

TEXTBOOKS:1. O.A.Hougen, K. M. Watson and R. A. Ragatz,"Chemical Process Principles", Vol-I,CBS Publishers and Distributors, New Delhi, 1995. 2. D. Himmelblau, '"Basic Principles and Calculations in Chemical Engineering", 5th Edn.,Prentice Hall of India Ltd.,N.Delhi,1994.3. K V Narayanan and B Lakshmikutty, Stoichiometry and Process Calculations, , PHI 4. B.I.Bhatt and S.M.Vora, "Stoichiometry", Tata McGraw Hill Publishers Ltd., New Delhi, 1996.5. V.Venkataramani and N.Anantharaman,"Process Calculations",Prentice Hall of India Ltd.,N.Delhi,2003. 6. Pallb Ghosh , Numerical methods with Computer Programs in C++, , PHI

CH386: CHEMICAL PROCESS INDUSTRIES(3 – 1 – 2)

Time : 3 Hrs; Theory : 100 marks; Sessional : 50 marks; Practical : 50 marks

1. Chlor-alkali Industries: Manufacture of Soda ash, Manufacture of caustic soda and chlorine - common salt. Sulphur and Sulphuric acid, manufacture of hydrochloric acid .

2.Types and Manufacture of Portland cement, manufacture of glasses and special glasses, Ceramics, Refractories.

3. Nitrogen Fertilizers, Phosphetic Fertilizers, Potassium Fertilizers

4. Production and processing of Pulp, production of different papers.

5. Oils and fats of vegetable and animal origin, processing of oils and fats, fatty acid and fatty alcohol production, hydrogenation. Essential oils. Manufacture of soaps, glycerin and detergents.

6. Functionality concept of polymerization. Types and methods of polymerization, production of polyoefines, polystyrene, polyvinyl esters, acrylic plastic, p-f, u-f, m-f, resins epoxy resins, alkyd resins, brief idea on moulding, and properties of plastic. Different types of rubber, Valcanizations products of SBR. Nylon, polyester, acrylic cellulose fibres (Rayon & cellulose acetate)

PRACTICALS1. Oil analysis :-

(a) Determination of iodine value.(b) Determination of saponification value.(c) Determination of fatty acid.

2. Soap analysis :-(a) Moisture content determination.(b) Free fatty acid determination.

3. Analysis of Water and Cement.

BOOKS

1. Outlines of Chemical Technology by Dryden.2. Chemical Technology by Sukla & Pandey.3. Chemical Process Industries by Shreve.4. Polymer Science and Technology, Fried, 2nd Ed, Prentice Hall

CH 385: Material Science & Corrosion Engineering

L – T – P3 – 1 – 0

Time : 3 HrsTheory : 100 marksSessional : 50 marks

1. ATOMIC BONDING: Class of engineering materials - engineering requirement of materials - selection of materials - level of structure - structure of atoms and molecules - bonding in solids - types of bonds and their energies. 2. STRUCTURE AND IMPERFECTIONS IN MATERIALS: Crystal structure: Crystal geometry, structure of solids, methods of determining structures. Imperfections in crystals - types of imperfection. Point imperfection, diffusion in solids - Fick's law, self diffusion.

3. PROPERTIES AND CORROSION OF MATERIAL: Electrical and magnetic properties of materials- Chemical, thermal and technological properties of materials - corrosion, theories of corrosion - control and prevention of corrosion.

4. METALS: Engineering materials - ferrous metals - Iron and steel, Iron-carbon equilibrium diagram. Non ferrous metals and alloys - Aluminium, copper, zinc, lead, nickel and their alloys with special reference to the application in chemical industries.

5. NON METALS: Inorganic materials : Ceramics, glass and refractories - organic materials : wood, plastics and rubber with special reference to the application in chemical industries.

TEXT BOOKS: 1. Montana, Corrosion engineering, McGraw Hill

2. V Raghavan, Materials Science and Engineering, 5th ed, Prentice Hall India

3.Lawrence H.Van Vlack, "Elements of Material Science and Engineering",1971.

4. S.K. Hajra Choudhury, "Material Science and Processes",1st Edn.,1977.India Book Distribution Co.,Calcutta.

REFERENCE: 1. Manas Chanda, "Science of Engineering Materials", Vol. 1st Edn.,1979,McMillan Co.,India Ltd.

2. A K Bhargava, Engineering Materials-Polymers, ceramics and composites, Prentice Hall India

CH 387 : CHEMICAL ENGINEERING DRAWING (SESSIONAL)

L – T – P0 – 0 – 3

Sessional : 50 marks.Total Practicals : 42 Hrs.

Fastenings and other simple parts such as Bolts, Nuts, Rivets, Rivetted joints, Screw Threads, Locking Devices, Couplings.

Assembly and detailed drawing of simple machine parts such as stuffing box, glands, pipe fittings – such as gate valves, glove valves, plugcock, relief valves etc.

Constructional details and free hand sketching of various Chemical Engg. Equipments such as valves, pipe fitting, pumps, reaction vessels, evaporator body, distillation columns, jacketed vessels, heat exchangers etc.

NOTE : Half of the sessional marks (25) will be based on the class work including attendance and the other half (25) will be based on an examination held internally at the end of the session.

Electronics and Telecommunication Engineering:

Sl. No.

Course No.



Credit

TA CT Total

1 MA301 Mathematics-III 3 1 30 20 50 100 150 42 CS 372 Advanced Computing 3 1 30 20 50 100 150 43 ET 363 Network Theory-I 3 1 30 20 50 100 150 44 ET 364 Electronic Devices 3 1 30 20 50 100 150 45 EE 345 Electrical Engg Materials 3 1 30 20 50 100 150 46 ME 305 Basic Thermodynamics 3 1 30 20 50 100 150 4Practicals/Drawing/Design7 ET 364L Electronic Devices 3 30 20 50 50 28 ET 363L Network Theory-I 3 30 20 50 50 29 CS 372L Advanced Computing 3 30 20 50 50 210 ET 367 Mini Project 3 30 20 50 50 211 ET 368 General Proficiency 50 50 2Total 18 6 12


ET 363 Network Theory-I

Theory: 100 Sessional: 50 Time: 3 hours

Ohm’s law and Kirchoff’s laws:Application of the laws to circuit analysis; Mesh and Nodal method for formulation of network equations; Matrix methods of solving loop and node equations.

Sinusoidal Voltages and Currents:Representation in frequency domain; The phasor concept; Impedance, Admittance and their phasor diagram, Steady state response.

Network Theorems:Star and Delta conversion, Thevenin’s and Norton’s Theorem, Superposition and Maximum power transfer Theorem, Compensation Theorem, Reciprocity Theorem, Telegan’s Theorem.

Fourier Analysis of Periodic Waveforms:Trigonometric and exponential series, Line spectrum, Analysis of common waveforms, Symmetry, R.M.S. value.

Two port Network:General principles; Z,Y and hybrid parameters, ABCD parameters, Network in tandem.

Transient Phenomena:Forcing functions--- impulse, step and ramp waveforms, solution of simple circuits using Laplace Theorem.

Coupled Circuits:Resonance- Series and parallel; Q factor; Analytical procedure for solving coupled circuits, Mutual Inductance, Co efficient of coupling; single tuned and double tuned circuits, Effects of over coupling and selectivity curves; Ideal transformer.

ET 364 Electronic DevicesTheory: 100; Sessional: 50

Time: 3 hours

Conductors, Insulators and semiconductors: Effect of temperature on the conduction of electricity. Charge carriers in metals. The “bond” model of silicon charge carriers in semiconductors. Impurities and the effect of doping. n-type and p-type materials. Carrier generation, recombination and excess carriers. Transport of carriers by drift and diffusion.

, DP and diffusion length. Built-in electric field.

P-N Junction:Graded and Abrupt junction approximations. Forward and reversed biased diodes. Injection of carriers. Analysis of the passage of current through a p-n junction. Asymmetrically doped junction. Rectification of a.c. as an example of application.

The Bipolar Junction Transistor:Construction. The currents in a BJT and their relationship. Analysis of IC - VCE

characteristics. The Ebers-Moll equations. The Early effect and a dc model for the BJT. Biasing and the analysis of a simple amplifier.

Small Signal Model:Small Signal Model of the BJT. The hybrid model. Introduction to the Charge controlled model (Gummel-Poon). High frequency model.

The MOSFET:Construction. Analysis of ID – VDS characteristics. A dc model. Small Signal Model. High frequency model.Text Books/references:

1. P.E. Gray and C.L. Searle-Electronic principles. John Wiley and Sons.2. S.M. Sze- Physics of Semiconductor Devices. Willey Eastern.

CS 372 Advanced ComputingTheory: 100; Sessional: 50

Time: 3 hoursConcepts of Pointers; Pointer types- their uses - dynamic memory allocation techniques - garbage collection - singly linked list - generic pointers. Files ; Files, opening- closing reading and writing- File attributes, File management Basics of Object Oriented Programming(OOP) ; Introduction to OOP- difference between OOP and procedure oriented programming – Classes, Objects and Methods – Overview of Inheritance and Polymorphism.Object Oriented Design ; Trends in software design- Notation of objects- Hybrid design method- Separation of responsibilities – Responsibility driven design- design phases and tools- step by step design – Grady Booch approach.Data abstraction ;Class definition – Control access to other functions – Different types of constructors – Destructors – Objects and classes – Dynamic creations and destructions of objects.Inheritance ; Derived classes – Syntax of derived classes – access to the base class - overloading inherited member functions – Multiple inheritance – Virtual base class virtual function and Polymorphism: Static and dynamic bindings – Virtual functions.

Polymorphism ;Overloading functions and operators- Run time polymorphism – Overloading new and delete operators.Generic classes in C++/JAVA ; Necessities of templates – Generic class using Macros – Class templates – Function templates – Advance templates. Exception Handing in C++.Benefits of exception handling – Troubles with standard C functions(setjmp amd long jmp) – Proposed Exception handling mechanism for C++.

Text Books and References:1. Object Oriented Programming by Barkataki, PHI2. Object Oriented Programming with C++ by E. Balaguruswamy, TMH.3. Object Oriented Programming in Turbo C++ by R. Lafore, Galgotia, New Delhi4. Object Oriented Analysis and Design with applications by Grady Booch, Benjamin/Cummings

Publishing.5. thinking in C- including Object Oriented Programming with C++ by P.B. Mahapatra, Wheeler

Publishing

EE 345 Electrical Engineering MaterialsTheory: 100; Sessional: 50

Time: 3 hours

Structure of solids Crystalline state of solids, systems and classes, Unit cell and space lattice, BCC, DC structure, Bragg’s Law, Miller indices, Crystal imperfections, Grain boundaries

Dielectrics(i)Properties of static field: Static dielectric constant , polarization , dielectric constant of monoatomic gases and polyatomic molecules, internal fields in solids and liquids, ferro electric materials, spontaneous polarization, piezo electricity.(ii) Properties in alternating fields: Frequency dependence of electronic , ionic, polarizability, complex dielectric constant, dielectric loss, dipolar relaxation, break down in dielectrucs. General properties of common dieletrics( Electrical, Mechanical, Chemical and Thermal). Gaseous dielectrics, liquid insulating materials, solid insulating materials, films.

Magnetic properties of materialsMagnetization, Origin of permanent magnetic dipole movement, classification of magnetic materials, Dia, para, ferro, antiferro and ferri magnetism, magnetic anisotropy, magnetostriction soft and hard magnetic materials for electrical applications.

ConductorsElectron gas model of a metal , Relaxation time, collision time, mean free path, electron scattering and resistivity, heating effect of current, thermal conductivity, superconductivity, electrical conducting materials(Cu, Al) and their application. Mechanical properties like corrosion, solid crability, contact resistance.

SemiconductorDensity of carriers and intrinsic semiconductor and in N-type and P-type semiconductor, conductivity, Hall effect, drift and diffusion current, Einstein Relation.

Books:

1 Electrical engineering material by Dekker A. J(PHI)2 A course in Electrical engineering material by Seth and Gupta

Computer Science and Engineering:Sl. No.

Course No.



Credit

TA CT Total

1 MA301 Mathematics-III 3 1 30 20 50 100 150 42 CS372 Advanced Computing 3 1 30 20 50 100 150 43 ET 363 Network Theory-I 3 1 30 20 50 100 150 44 ET 364 Electronic Devices 3 1 30 20 50 100 150 45 EE 345 Electrical Engg Materials 3 1 30 20 50 100 150 46 MA 376 Discrete Mathematics 3 1 30 20 50 100 150 4Practicals/Drawing/Design7 ET 364L Electronic Devices 3 30 20 50 50 28 ET 363L Network Theory-I 3 30 20 50 50 29 CS 372L Advanced Computing 3 30 20 50 50 210 ET 367 Mini Project 3 30 20 50 50 211 CS 378 General Proficiency 50 50 2Total 18 6 12

Total Marks: 1150 Total Periods: 36 Total Credits: 34TA: teachers assessment CT: Class Test ESE: End Semester Exam

MA301 Mathematics IIIET 363 Network Theory-IET 364 Electronic DevicesCS 372 Advanced Computing

EE 345 Electrical Engineering Material Theory: 100; Sessional: 50

Time: 3 hoursStructure of solids :Crystalline state of solids, systems and classes, Unit cell and space lattice, BCC, DC structure, Bragg’s Law, Miller indices, Crystal imperfections, Grain boundaries

Dielectrics:(i)Properties of static field: Static dielectric constant , polarization , dielectric constant of monoatomic gases and polyatomic molecules, internal fields in solids and liquids, ferro electric materials, spontaneous polarization, piezo electricity.(ii) Properties in alternating fields: Frequency dependence of electronic , ionic, polarizability, complex dielectric constant, dielectric loss, dipolar relaxation, break down in dielectrucs. General properties of common dieletrics( Electrical, Mechanical, Chemical and Thermal). Gaseous dielectrics, liquid insulating materials, solid insulating materials, films.

Magnetic properties of materials:Magnetization, Origin of permanent magnetic dipole movement, classification of magnetic materials, Dia, para, ferro, antiferro and ferri magnetism, magnetic anisotropy, magnetostriction soft and hard magnetic materials for electrical applications.

Conductors:Electron gas model of a metal , Relaxation time, collision time, mean free path, electron scattering and resistivity, heating effect of current, thermal conductivity, superconductivity, electrical conducting materials(Cu, Al) and their application. Mechanical properties like corrosion, solid crability, contact resistance.

Semiconductor: Density of carriers and intrinsic semiconductor and in N-type and P-type semiconductor, conductivity, Hall effect, drift and diffusion current, Einstein Relation.

Books:Electrical engineering material by Dekker A. J(PHI)A course in Electrical engineering material by Seth and Gupta

MA 376 Discrete MathematicsTheory: 100; Sessional: 50

Time: 3 hours

Set theory: Sets, Functions, Relations, Partial Oroers, LatticesCombinations: Permutations, Combinations, Partitions, Stirling numbers.Recurrences: Surhmations, Generating Functions, Asymp[totic.Graph Theory: Paths, Trees, Matchings, Colorability, Planarity.A brief introduction to Algebra Structures: Homomorphism, Groups, Rings etc.Proposition Logic : Well- formed formulas, Tautologies, Equivalence, Normal Forms.A brief introduction to Predicate Logic: Predicate, puantifiers, predicate formula etc.Textbooks & references:

1. Tremblay, J.P. and Mathur, R.P. , Discrete Mathematics with Applications to Computer Science. Mc Graw Hill International Edition, 1989.

2. Liu, C.L. Elements of Discrete Mathematics Mc Graw Hill International Edition, 1986.3. Graham, R.L., Knuth, D.E. and Patashnik, O. Concrete Mathematics, 2/e Addison Wesley, 19944. Gersteing, J.L Mathematics Structures for Computer Science. 2/e Computer Science Press. 1983.5. Grassman, W.K. and Tremblay, J.P. Logic and Discrete Mathematics: A Computer Science Perspective,

Prentice Hall, 1996.

Instrumentation Engineering

Sl. No.

Course No.



Credit

TA CT Total

1 MA 301 Mathematics -III 3 1 30 20 50 100 150 42 EE 341 Network Analysis 3 1 30 20 50 100 150 43 EE 342 Electrical Engineering

Materials3 1 30 20 50 100 150 4


3 1 30 20 50 100 150 4

5 ME 302 Engineering Mechanics -II 3 1 30 20 50 100 150 46 ME 305 Basic Thermodynamics 3 1 30 20 50 100 150 4Practicals/Drawing/Design7 IE 351 Instrumentation Engineering

Drawing3 30 20 50 50 2


3 30 20 50 50 2

9 ME 302 Engineering Mechanics -II 3 30 20 50 50 210 ME 305 Basic Thermodynamics 3 30 20 50 50 211 IE 351 General Proficiency 50 50 2Total 18 6 12


MA 301: MATHEMATICS-III (Common to all Branches)ME302: ENGINEERING MECHANICS – II (3-1-3) (for EE, INS, CH)

ME 305 Basic Thermodynamics (ME, IE, IPE, EE. ET)EE 341: Network Analysis (3-1-0)

EE 342: Electrical Engineering Material & Devices (3-1-0)EE 343: Advanced Computer Programming (3 – 1 – 3)

IE 352: Instrumentation Engineering Drawing (0-0-3)Max Marks: 50 (Sessional)

Pass Marks: 18

1) Basic Components:- Power Sources, Resistors, Capacitors, Inductors, Switches, Connectors, Diode, Transistors, Thyristors, Integrated Circuits.

2) Measuring Instruments:- MI, PMMC, Hot-Wire, Induction Type & Electrostatic type Instruments, Analog Multimeter

3) System Components:- Resistive Potentiometers, strain gauge, LVDT, RVDT, Load-cell, Tachometers, Synchros, Stepper Motor, Seismic Sensors.

4) Basics of Control System:- Symbols, Open loop, Closed-loop systems block diagram.

5) Analytical & Industrial Instruments: - Humidity & Moisture sensors, Spectrometers, Pressure sensors, Flow Meters, Temperature Sensors.

6)Process Instruments & Biomedical Equipments: - Hydraulic & Pneumatic valves-pitot, flapper, slide & two stage valves, ECG, EMG, EEG, Pacemaker, Sphygmomanometer.

Reference Books:1) Industrial Instrumentation by D. Patranabis, TataMcgraw.

Industrial and Production Engineering

SL.No

Course No

SUBJECT PERIOD EVALUATION SCHEME

Theory L T P

Sessional/Exam.

TA CT Total

ESE

Subject Total

Credit

1 MA 301 Mathematics – III

3 1 0 30 20 50 100 150 4

2 EE 303 Electro Technology - I

3 1 0 30 20 50 100 150 4

3 ME 305 Basic Thermodynamics

3 1 0 30 20 50 100 150 4

4 ME 322 Theory of Machine

3 1 0 30 20 50 100 150 4

5 ME 323 Engineering Graphics – III

1 3 0 30 20 50 100 150 4

6 IP 334 Manufacturing Process – I

3 1 0 30 20 50 100 150 4

7 IP 335 General Proficiency

50 50 2

Practical/ Drawing/Design

8 EE 303L Electro Technology - I

0 0

3 30 20 50 50 2

9 ME 322L Theory of Machines

0 0

3 30 20 50 50 2

10

ME 323L Engineering Graphics – III

0 0

3 30 20 50 50 2

11

IP 334L Manufacturing Process - I

0 0

3 30 20 50 50 2

Total 16

8

12

1150

Total marks : 1150 Total Periods: 36 Total Credits : 34

TA : Teachers Assessment CT: Class test ESE : End Semester examination

MATHEMATICS-III7. EE 303: Electro Technology-I (ME,IPE, & CHE)

ME 305: BASIC THERMODYNAMICS (3-1-0) (for ME, IP, EE, ET, INS,CH)

IP 334 : MANUFACTURING PROCESS – I [ 3-1-3 ] Theory-100marks Sessional-50marks Lab./ Practical-50 marks Time 3 Hrs

Unit I: General Introduction Introduction to the subject – Classification (only) of manufacturing processes – Concept of of manufacturing -- Manufacturing system.General maintenance of workshop -- Cleaning and Lubrication -- safety in the workshop -- precautions against accidents -- workshop lighting.Unit II : Introduction to Metrology Standards of measurement, sub-division of standards -- line and end standard : rules and slip gauges -- use of vernier calliper, micrometer calliper, height and depth gauges. Wire gauge, radius gauge, thread gauge, feeler gauge, bore gauge, straight edges -- uses.Bevel protector and combination set : sine bar and angle gauges spirit level, clinometers, dial indicators -- surface plate and V-block : Definition of flatness and waviness of surface.Unit III : Limits, Fits and Tolerances. Introductory concept of limits of size and its representation. Types of Fits -- Tolerances -- I.S. code for grades of tolerance and fit -- Hole basis and shift basis system.Concept of Inter-changeability -- selective Assembly.Unit IV : Sand Moulding. Introduction -- hand tools and basic equipments. Preparation of simple sand mould -- core making and types : Pattern making -- materials, types and allowances – Moulding process. Moulding sand and additives -- sand characteristics and testing.Unit V : Smithying Introduction -- hand tools and equipments in hand forging -- Smith’s forge or hearth : anvil, swage block, Hammers and its classification, tongs, Chiessels, Hardie and gauges, Punches and drifts, Fullers, swages, flattes, Set hammers, blowers. Simple hand forging operations -- Forgeability.Unit VI : Bench Work and fitting Tools and instruments -- files, scrapers, chisels, hack saws. Single scribing block of surface gauge and Universal surface gauge -- punches and hammers, Callipers, dividers.Processes -- marking, clipping sawing, filling, draw filing, drilling tapping and dieing. Do and donots in filing.Unit VII : Welding Introduction -- advantages and limitations -- welding process and application : pressure and fusion welding : Gas, arc and resistance welding -- Equipments used in gas welding : Oxy-acetylene gas cutting -- weldability of metals and alloys.Soldering and brazing.Unit VIII : Single point cutting tools Nomenclature and tools signature -- Tool geometry and effects of toold angles -- Tool sharpening -- Tool materials.Unit IX : Metal cutting Elements of metal cutting -- chip formation and types of chip : chip breakers -- cutting fluid -- machinability. Tool life : Taylor’s equation -- Tool wear, types and mechanism.

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