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NATIONAL INSTITUTE OF TECHNOLOGYJAMSHEDPUR
B. TECH. (HONS.) COURSE STRUCTURE (w.e.f. 2010 Batch.)
CE704 ELECTIVE – II1). Structural Dynamics and Earthquake Resistant Design2). Embankment Dam Engineering3). Highway Construction and Maintenance4). Solid Waste Management5). Disaster Mitigation and Management
CE803 ELECTIVE – III1). Composite Materials and Structure2). Dynamics of Soils and Foundations3). Pavement Design4). Ground Water Hydraulics5). CAD in Structural Engineering
CE804 ELECTIVE – IV1). Pre-stressed Concrete Design2). Traffic Engineering3). Rock Mechanics4). Air Quality Management5). Safety Engineering Management
NATIONAL INSTITUTE OF TECHNOLOGYJAMSHEDPUR
B. TECH. (HONS.) COURSE STRUCTURE (w.e.f. 2010 Batch.)
02. EL17134 Digital Image Processing 3-1-0 403. GE17135 Industrial Economics 3-0-0 304. EL17120 Digital Signal Processing (Elective –
V)3-1-0 4
05. CS17131 Parallel Algorithms (Elective – VI) 3-1-0 406. EL17211 Digital Image Processing Lab. 0-0-3 207. EL17209 D.S.P. Lab. 0-0-3 208. CS17401 Industrial Training (done in summer) 0-0-3 209. CS17402 Mini Project 0-0-6 4
Total 15-3-15 28
SEMESTER – VIII
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. GE18105 Management Information System 3-0-0 302. GE18106 Sustainable Development 3-1-0 403. CS18135 Advance Computer Architecture 3-1-0 404. CS18137 Real Time System 3-1-0 405. CS18501 Comprehensive Viva Voce 0-0-3 206. CS18502 Project 0-0-15 10
Total 12-3-18 27
Total Credits - 196
ELECTIVES
CS505 ELECTIVE - I 01). Network Security02). Mobile Computing03). Embedded Systems and Control04). Parallel and Distributed Processing05). Multimedia Applications
01. EE501 Computer Architecture & Operating System
3-0-0 3
02. EE502 Electrical Machine – II 3-1-0 403. EE503 Control Systems 3-1-0 404. EE504 Power Systems – II 3-1-0 405. EE505 Instrumentation 3-1-0 406. EE506 Control Systems Lab. 0-0-3 207. EE507 Electrical Machine – II Lab. 0-0-3 208. EE508 Power Systems – II Lab. 0-0-3 2
Total 15-4-9 25
10
SEMESTER – VI
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. EE601 Power Electronics 3-1-0 402. EE602 Microprocessors & Microcontrollers 3-1-0 403. EE603 Elective – I 3-1-0 404. EE604 Elective – II 3-1-0 405. EE605 Microprocessors & Microcontrollers
02. EE702 Digital signals Processing 3-0-0 303. EE703 Communication Systems 3-0-0 304. EE704 Elective - III 3-0-0 305. EE705 Elective - IV 3-0-0 306. EE706 Electronics Systems Design Lab 0-0-3 207. EE707 Power Systems Design Lab. 0-0-3 208. EE708 Minor Project 0-0-6 409. EE709 Industrial Training ------ 2
Total 15-0-12 25
SEMESTER – VIII
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. EE801 Basic Environmental Engineering 3-0-0 302. EE802 Selected Topic in IT 3-1-0 403. EE803 Management Information System 3-0-0 3
11
04. EE804 Elective – V 3-0-0 305. EE805 Major Project 0-0-12 806. EE806 General Proficiency ------ 3
Total 12-0-12 24
Total Credits - 196
ELECTIVES
NATIONAL INSTITUTE OF TECHNOLOGYJAMSHEDPUR
B. TECH. (HONS.) COURSE STRUCTURE (w.e.f. 2010 Batch)
DEPARTMENT OF ELECTRONICS & COMMUNICTION ENGINEERING
01. EC401 Introduction to Soft Skill 2-1-0 302. EC402 Digital Electronics 3-1-0 403. EC403 Analog Communication 3-1-0 404. EC404 Data Structure 3-1-0 405. EC405 Management Information System 3-0-0 306. EC406 Analog Communication Lab. 0-0-3 207. EC407 Digital Electronics Lab. 0-0-3 208. EC408 Data Structure Lab. 0-0-3 2
Total 14-4-9 24
SEMESTER – V
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. EC501 Microprocessor & Interfacing 3-1-0 402. EC502 Digital Communication 3-1-0 403. EC503 Industrial Electronics 3-1-0 404. EC504 Signal & Systems 3-1-0 405. EC505 Electronics Instrumentation & Control 3-0-0 306. EC506 Digital Communication Lab. 0-0-3 207. EC507 Industrial Electronics Lab. 0-0-3 208. EC508 Microprocessor Lab. 0-0-3 2
Total 15-4-9 25
SEMESTER – VI
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. EC601 Data Communication & Networking 3-0-0 302. EC602 VLSI Design 3-1-0 403. EC603 Control System Engineering 3-0-0 304. EC604 Embedded Systems 3-1-0 405. EC605 Elective – I 3-0-0 306. EC606 Control System Lab. 0-0-3 207. EC607 VLSI Lab. 0-0-3 208. EC608 Data Communication & Networking
01. EC701 Digital Signals Processing 3-1-0 402. EC702 Optical Communication 3-1-0 403. EC703 Elective – II 3-1-0 404. EC704 Elective – III 3-0-0 305. EC705 Optical Communication Lab. 0-0-3 206. EC706 Digital Signals Processing Lab. 0-0-3 207. EC707 Industrial Training ------ 208. EC708 Minor Project 0-0-6 4
Total 12-3-12 25
SEMESTER – VIII
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. EC801 Basic Environmental Engineering 3-0-0 302. EC802 RF & Microwave Engineering 3-1-0 403. EC803 Elective – IV 3-0-0 304. EC804 Elective – V 3-0-0 305. EC805 Major Project 0-0-12 806. EC806 General Proficiency ------ 3
Total 12-1-12 24
Total Credits - 196
ELECTIVESEC605 ELECTIVE – I1). Telecommunication Switching System2). Internet Technology3). Architectural Design of Integrated Circuit4). Mobile Communication
03. ME703 Renewable Energy Systems 3-1-0 404. ME704 Elective – II 3-0-0 305. ME705 CAD/CAM Lab. 0-0-3 206. ME706 Renewable Energy Systems Lab. 0-0-3 207. ME707 Industrial Training ------ 208. ME708 Minor Project 0-0-6 4
01. MT401 Mechanical Properties of Materials 3-0-0 302. MT402 X-Ray Diffraction & Electron
Microscopy3-1-0 4
03. MT403 Phase Transformations 3-1-0 404. MT404 Deformation of Materials 3-1-0 405. MT405 Geology & Mineral Beneficiation 3-0-0 306. MT406 X-Ray Diffraction & Electron
Microscopy Lab.0-0-3 2
07. MT407 Material Testing Lab. 0-0-3 208. MT408 Geology & Mineral Beneficiation Lab. 0-0-3 2
Total 15-3-9 24
SEMESTER – V
Sl. No.
Subject Code
Subject Name L-T-P Credits
21
01. MT501 Heat & Mass Transfer 3-1-0 402. MT502 Fuels, Furnaces & Refractories 3-0-0 303. MT503 Iron Making 3-1-0 404. MT504 Characterization of Materials 3-0-0 305. MT505 Extraction of Non-ferrous Metals 3-1-0 406. MT506 Manufacturing Process in Metallurgy
04. MT704 Elective – II 3-0-0 305. MT705 Elective – III 3-0-0 306. MT706 Industrial Training and Tour ------ 207. MT707 Manufacturing Process Lab.
(Foundry & Process)0-0-3 2
08. MT708 Minor Project 0-0-6 4Total 15-1-9 24
22
SEMESTER – VIII
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. MT801 Manufacturing Process in Metallurgy(Joining Powder Metallurgy & Composites)
3-1-0 4
02. MT802 Management Information Systems 3-0-0 303. MT803 Sustainable Development 3-0-0 304. MT804 Elective – IV 3-0-0 305. MT805 Major Project 0-0-12 806. MT806 General Proficiency ------ 3
Total 12-1-12 24
Total Credits - 196
ELECTIVESMT605 ELECTIVE – I1). Hot & Cold Rolling2). Polymer Technology3). Electronic & Magnetic Materials4). Physics of Metals5). Operation Research – I
MT604 ELECTIVE – II1). Secondary Steel Making2). Coating Technology3). Application of Engineering Materials4). Fracture, Fatigue & Failure Analysis5). Operation Research – II
MT804 ELECTIVE – IV1). Energy Management in Metallurgical Industries2). Alternative Methods of Iron & Steel Production3). Engineering Materials4). Pollution Control & Waste Energy Management in Iron & Steel Industries
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5). Production of Metal & Ceramic Powders and their Consolidation6). Process Modeling
NATIONAL INSTITUTE OF TECHNOLOGYJAMSHEDPUR
B. TECH. (HONS.) COURSE STRUCTURE (w.e.f. 2010 Batch)
08. PR308 Mechanics of Solids Lab. 0-0-3 209. PR309 EAA III – NSS ------ ----
Total 18-3-6 25
SEMESTER – IV
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. PR401 Quality Assurance & Reliability 3-1-0 402. PR402 Fluid Machinery 3-1-0 403. PR403 Manufacturing by Shaping & Joining 3-0-0 304. PR404 Theory of Machine 3-1-0 405. PR405 Production Management – I 3-0-0 306. PR406 Foundry & Welding Lab. 0-0-3 207. PR407 Fluid Mechanics & Heat Transfer Lab. 0-0-3 208. PR408 Theory of Machine Lab. 0-0-3 209. PR409 EAA III – NSS ------- ----
Total 15-3-9 24
SEMESTER – V
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. PR501 CAD / CAM 3-0-0 302. PR502 Design of Machine Elements 3-1-0 403. PR503 Machine Tool & Machining 3-1-0 404. PR504 Non Traditional Manufacturing Process 3-0-0 305. PR505 Production Management – II 3-0-0 306. PR506 Design of Production Tooling 3-0-0 307. PR507 Non Traditional Manufacturing Lab. 0-0-3 208. PR508 Design of Machine Elements Lab. 0-0-3 2
Total 18-2-6 24
25
SEMESTER – VI
Sl. No.
Subject Code
Subject Name L-T-P Credits
01. PR601 Quality Production Methods 3-0-0 302. PR602 Machinery Fault Diagnostics and
PR803 ELECTIVE – IV1). Finite Element Methods in Design & Manufacturing2). Emerging Trend in Manufacturing Technology3). Total Quality Management4). Flexible Manufacturing System
Review of Mean Value theorem (Rolle’s theorem, Cauchy’s mean value theorem), Taylor’s and Maclaurin’s theorems with remainders, Indeterminate forms, Concavity and convexity of a curve, points of inflexion. Asymptotes and curvature.
(10 Lectures)
Limit, Continuity and differentiability of functions of several variables, partial derivatives and their geometrical interpretation, differentials, derivatives of composite and implicit functions, derivatives of higher order and their commutativity, Euler’s theorem on homogeneous functions, Harmonic functions. Taylor’s expansion of functions of several variables, maxima and minima of functions of several variables – Lagrange’s methods of multipliers. (12 Lectures)
First order differential equations: Exact linear and Bemoulli’s form, second order differential equations with constant coefficients, Euler’s equations, system of differential equations.
(10 Lectures)
Review of Limit, Continuity, differentiability of functions of complex variable, Analyticity of functions, Cauchy-Riemann equations, Elementary complex functions, Line Integrals, Cauchy’s intergral theorem, Cauchy’s integral formula, Power sense, Taylor’s series, Laurent series, Zeros and singularities, Residue theorem.
(12 Lectures)
Text Books : 1). Higher Engineering Mathematics by Dr. B. S. Grewal2). Differential Calculus by B. C. Das & B. N. Mukherjee3). Integral Calculus by B. C. Das & B. N. Mukherjee
Concept of Vector Spaces, Linear dependence and independence. Sub space, basis linear, transformations, rank and inverse of a matrix, solution of algebraic equations consistency conditions, Eigen values and Eigen vectors, Hermitian and skew Hermitian matrices.
(7 Lectures)
Convergence of improper integrals, test of convergence, Beta and Gamma functions elementary properties, differentiation under the integral sign, differentiation of integrals with variable limits. Leibniz rule, integrals dependent on parameter-application.
(9 Lectures)
Rectification double and triple integrals, computations of surfaces and volumes, changes variables in double integrals – Jacobians of transformations integrals dependent on parameters applications.
(9 Lectures)
Scalar and vector fields, level surfaces, directional derivative, Gradient, Curl, Divergence, Laplacian, line and surface integrals, theorems of Green, Gauss and Stokes.
(9 Lectures)
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Finite differences, Newton’s forward and backward interpolation formulae, control difference interpolation, Lagrange’s interpolation. Trapezoidal rule and Simpsons of 3rd rule of Integration solution of polynomial and transcendental equations bisection method, Newton Rapnson method and Regula falsi method.
(9 Lectures)
Text Books : 1). Higher Engineering Mathematics by Dr. B. S. Grewal2). Differential Calculus by B. C. Das & B. N. Mukherjee3). Integral Calculus by B. C. Das & B. N. Mukherjee
UNIT – IIPolarization : Unpolarized light, Production of plane polarized light, Brewster’s law, Malus law, Double refraction, Production and analysis of various kind of polarized lights.
UNIT – IIIMagnetic properties of matter : Hysteresis, three magnetic vectors, magnetic circuit.Interaction of radiation with matter : Compton effect and pair production (qualitative).Laser : Temporal and spatial coherence, Einstein’s A & B coefficients, He – Ne laser.
UNIT – IVWave Mechanics – I : Failure of classical physics, qualitative review of relevant experiments de Broglie wave, Phase and Group velocities, Davission and Germer experiments, uncertainty principle.
UNIT – VWave Mechanics – II : Wave function and schrodinger equation, probability interpretation, particle in a box, potential barrier and quantum tunneling, qualitative summery of simple harmonic oscillator and Hydrogen atom, occupation probability and examples.
UNIT – IFoundation of Basic Electronics : Voltage source, current source, Thevenin theorem, Norton Theorem, Maximum power transfer theorem, semi conductor.
P. N. Junction Diode: Construction, working, V – I characteristics, diode resistance, current equation, junction capacitance, zener diode, LED, Photo diode.
UNIT – IIDiode Applications: Rectifiers, Circuit diagram, working, analysis, filter circuits, clippers, clampers, zener diode, voltage regulator.
UNIT – IIITransistors: BJT, FET, MOSFET, construction, working, type of configuration, V-I characteristics, transistor parameters, and relation.
UNIT – IVTransistor as an amplifier, load line concept, biasing and stability of transistor circuits – fixed bias, emitter bias, feedback bias, voltage divider bias, bias stabilization, small signal transistor amplifier – Hybrid model, analysis, single stage amplifier.
UNIT – VOperational Amplifier : Introduction, parameters application – inverting, non-inverting, unity follower, integrator differentiator. Introduction to digital circuits : logic gates, flop and memory.
a). Kinetics of chemical reactions: 1st & 2nd order reactions, reversible, consecutive & parallel reactions, steady state approximations chain reactions, photochemical reactions.
b). Refractories: Materials used for Refractories, manufacture, classification, properties & uses.
UNIT – IIIa). Bonding models in Inorganic Chemistry, Molecular Orbital Theory, Valance Bond
Theory & Crystal Field Theory.b). Co-ordination Chemistry : Co-ordination number, chelate effect, Co-ordination
complexes, Example of Bio – Inorganic & metals in biological systems.
UNIT – IVa). Corrosion : types of corrosion, examples, factors affection & prevention techniques
for each, Corrosion, control methods.b). Environmental Chemistry : Water Pollution & Control.
UNIT – Va). Solution Chemistry & Collogative Properties: Real & ideal solutions, Diffusion,
and Osmosis, Osmotic pressure, Lowering of V.P., Elevation of B.P., Depression of F.P., Abnormal M.W., Degree of Association & Dissociation.
b). Polymers: Polymerization & Types and applications.
SEMESTER – I / II
CE105, CS105, EE105, EC105, ME206, MT205 & PR205 ENGLISH FOR COMMUNICATION (3-1-0)
Credits – 4
SECTION A 24 LecturesThe objectives of this course is to train learners in the art of communication through oral and written exercises as well as presentation techniques.
This section will include the following topics:1). Basic Grammatical Concepts - 04 Lectures2). Elementary Theories of Phonetics - 04 Lectures
* Sound of English* Mechanism of sound production* Rules of Phonetics with examples
SECTION B 10 LecturesThe objective of this course is to impart to students a broad spectrum of ideas and values, with special emphasis on their contemporary relevance, to guide them in becoming socially responsible citizens and balanced human beings.For achieving this objective, the following texts comprising essay, poems and stories are prescribed:1). The world is too much with us - William Wordsworth2). The Scientific Point of View - J.B.S. Haldane3). Strange Meeting - Wilfred Owen4). If - Rudyard Kipling
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5). The Necklace - G. D. Maupassant6). Piano - D. H. Lawrence
SECTION C 10 Lectures
The third section of the course will be devoted to the following basic concepts in Communications:1). Nature of Communication2). Types of Communication3). Process of Communication4). Barriers to Communication5). Characteristics of successful Communication6). Informal Communication : Chat, the Grapevine, Rumour, Merits and Limitations
TEXT BOOKS:
1). Bansal, R.K. and J.B. Harrison, Spoken English : Orient Longman, Mumbai.2). Rizvi, M. Ashraf, Effective Technical Communication. Tata McGraw – Hill, New Delhi.3). V. Shahsi Kumar and P.V. Dhamija, A self – Learning Guide to English Conversation.
Tata McGraw Hill.4). John Seely, The Oxford Guide to Writing and Speaking. Oxford University Press.
REFERENCE BOOKS:
1). Tickoo and Shashi Kumar, Writing with a purpose. Oxford University Press.2). Narayanswamy, V.R. Strengthen your writing. Orient Longman3). Hornby, Gatenby and Weikfield, The Oxford Advanced Learner’s Dictionary OUP.4). CIEFL, Enrich your English Communication skills. OUP.
Semiconductor fundamentals, Fermi level, Energy-band diagram, intrinsic and extrinsic semiconductor, carrier concentration, diffusion mechanism, generation recombination and injection of carriers, transient response, physical description of p-n junction, biasing, transition capacitance, junction breakdown space charge effect current-voltage characteristics tunneling current small signal ac analysis.
UNIT – II
BJT action derivation of current components and gain expressions, breakdown voltages, equivalent circuits, frequency response of transistors p-n-p-n devices and JFET physical description and theory of operation, static characteristics small signal analysis equivalent circuit.
UNIT – III
MOS structure, MOS capacitance, CCD and application, flat-band threshold voltage, MOS static characteristic, small signal parameters and equivalent circuit, charge sheet model strong moderate and weak inversion short channel effects, hot carrier effects, scaling laws of MOS transistors LDD MOSFET.
UNIT – IV
NMOS and CMOS IC technology, CMOS latch-up phenomenon, ideal schottky barrier, current voltage characteristics, MIS diode, ohmic contacts, heterojunctions, MESEFET.
UNIT – V
Optical absorption in a semiconductor, photovoltaic effect, solar cell, Photoconductors, PIN photodiode, avalanche photodiode LED, semiconductor lasers, negative conductance in semiconductor, transit time devices, IMPATT TRAPATT, Gunn device, BiCMOS.
UNIT – ISemiconductor devices: Construction, working and V_I characteristics of diode, zener diode, LED, Photodiode, SCR, Diac, Triac and their applications. (7 Lectures)
UNIT – IITransistor : BJT, FET, MOSFET, construction, working, type of configuration, V-I Characteristics, biasing transistor circuits – fixed bias, emitter bias, feedback bias, voltage divider bias, transistor as an amplifier.
UNIT – IVKirchoff’s Laws, Current sources and Voltage source, Mesh Current and Node Voltage Method, Star-Delta transformations, Thevenin,s and superposition theorem.
(11 Lectures)
UNIT - VA.C. fundamentals, Active, reactive and Apparent Power. Basic of Transformers, D.C. machines and Induction motors.
UNIT – IFundamental Principles of Mechanics: Introduction, concept of force, force system, moment of force about a point as well as about a line, concept of equilibrium, free body diagram and engineering applications to common problems.
(9 Lectures)
UNIT – IIApplication of equilibrium equations, concept for solving truss problems. Thin Pressure Shell.
(8 Lectures)
UNIT – IIISimple Stress, Shear Force Diagram (SFD) and Bending Moment Diagram (BMD). (6 Lectures)
UNIT – IVBending Stress, Shear Stress and Torsion of circular shaft. (9 Lectures)
UNIT – VDeflection, Principal Stresses, Mohr’s Circle Method and Combined Stresses. (8 Lectures)
UNIT – IBuilding and Road materials (Brick, Stones, Timber, Cement, Concrete, Steel Structural and reinforcing, glass Asbestos, Plastics), Alternative Building Materials.
UNIT – IIDefinition and important terms used in Building Construction, Types of Buildings, Planning of a house, Orientation & Ventilation of building and use of natural resources in building. Building by laws, Architectural and structural drawings, Plan elevation & section of a building.
UNIT – IIISurvey – Introduction, Types of survey, Chaining, Taping, Corrections, Angle and direction measurements. Type of instruments used in survey / land measurements, principle of leveling.
UNIT – IVWater requirement including fire fighting, drinking water, water treatments, water borne diseases, Terms used in the plumbing systems, Water supply systems, Rain Water harvesting, Tube well recharge.
UNIT – VClassification of roads, Funding, Types of Pavements, One way / two way, double lane roads., NH. SH, Express way, sign used in the road, Introduction of traffic control, Terms used in the road construction.
SEMESTER – I
CE106 BUILDING MATERIALS AND CONSTRUCTIONS (3-0-0)Credits 3
35
UNIT – IManufacture Properties (Physical and Chemical) and classification building stones, lime, bricks and tiles.
(3 Lecture)
Cement, Properties of steel (Structural & reinforcing). (3 Lecture)
Plastics, Glasses and asbestos cement properties and use in civil engineering applications. (3 Lecture)
UNIT – IITimber Classification, Seasoning and Preservation. (4 Lecture)
Use of polymers in concrete and behavior of polymer modified concrete, behaviour of fiber composites an its use in Civil Engineering Application.
(4 Lectures)
UNIT – IIIBuilding Construction functional Planning and Requirement of Buildings and its components Door, Window and stair cases. (8 Lecture)
UNIT – IVMasonry Construction: Stone Masonry and Brick Masonry. (8 Lecture)
UNIT – VConstruction Equipments. (8 Lecture)
SEMESTER – I
EE106 BASIC CIRCUIT THEORY (3-1-0) Credits – 4Review of Kirchhoff’s laws and circuit elements. Current and Voltage sources. Loop and Mesh current method. Nodal Voltage method. Wye / Star-delta transformations. Network theorems (Thevenin’s theorem, superposition theorem, Norton’s theorem, Maximum Power transfer theorem). Applied to DC and AC circuits. Magnetic coupling elements and coupled circuits. Resonance, DC & AC transients analysis of RL, RC and RLC circuits. Sinusoidal steady state, Star-delta connections, line and phase quantities. Phasors. Polyphase circuits. Single phase and three phase power measurements. Balanced unbalanced systems. Symmetrical components. Impedance and admittance loci of RL, RC circuits. Power factor. Active and Reactive power.
36
EE204 FUNDAMENTALS OF ELECTROMECHANICS (3-0-0)Credits – 3
1 Phase & 3 Phase circuits, magnetic circuits, Electromechanical energy conversion principles, Basics of static and rotating electrical machines : transformer operating principle equivalent circuit, OC & SC tests, DC machine construction, operating principle, types, characteristics, 3 Phase Induction Motor-construction, operating principle, equivalent circuit, characteristics, Synchronous Machine-construction, operating principle.
UNIT – 1: Types of errors Gross errors, Systematic errors and Random errors, Probability of errors.
Normal distribution of errors and probable errors, Limiting errors.UNIT – 2: Measurement of resistances: Measurement of low resistance – Kelvin Double Bridge,
Measurement of Medium resistance – Wheat Stone Bridge, Measurement of High resistance Meggan Magnetic Measurements – Measurement of Magnetic Flux. Magnetic measurements. Using Hall effect, Measurement of self inductance, mutual inductance and measurement of capacitance.
UNIT – 3 : A.C. Bridge methods & A.C. Bridges under unbalanced conditions (current measurement)UNIT – 4 : Measurement of Voltage: Potentiometers: Principle of potentiometer, study of
unbalanced conditions, Potentiometer use for the measurement of resistance current and voltage electronic multimeters.
UNIT – 5 : Instruments: Moving coil and moving iron meters, Dynamometer and induction instruments current and voltage transformers, Frequency, Phase and power factor meters, Electronic multimeters, Digital voltmeters. Analog and digital Osciloscopes, Signal and Function generators Counters.
UNIT – 1: Basic concepts: Thermodynamic Systems, Thermodynamic equilibrium, Quasi-static process, Zeroth Law of Thermodynamics, Work and Heat Interactions,
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First Law of Thermodynamics for a Cycle and for a Process, Steady and variable flow processes.
(9 Lecture)UNIT – 2: Second Law of Thermodynamics: Statements, Reversibility, Carnot’s Theorem,
Absolute Temperature Scale, Inequality of Clausius.(8 Lecture)
UNIT – 3: Entropy principle, available energy, Exergy, Availability and irreversibility, Maxwell equation. (8 Lecture)
UNIT – 4: Properties of pure substances, Phase Equilibrium diagrams, Properties of ideal gas and gas mixtures, Psyschometry.
(9 Lecture)UNIT – 5: Power Cycles: Rankine Cycle, Reheat and Regenerative Cycles, Gas Cycle:
UNIT – 1: Thermodynamics: Thermodynamic Systems, Properties and process, Zeroth Law, First Law and Second Law of Thermodynamics, Pure substance, Ideal gas and their properties. (9 Lecture)
UNIT – 2: Steam Power Systems: boilers and steam turbines, Rankine Cycle, Reheat and regeneration. (8 Lecture)
UNIT – 3: Gas Power Systems: I.C. Engines, Otto Cycle, Diesel Cycle, Dual Cycle, Gas Turbine, Brayton Cycle.
(8 Lecture)UNIT – 4: Pumps and Compressors: Reciprocating and Centrifugal pumps and
Compressors. (9 Lecture)
UNIT – 5: Theory of Machines: Four bar mechanisms and their inversions, governors, balancing of masses, Gears.
1). Introduction to Basics of Drawing, Projection of points, line surfaces and solids.2). Section and Development of Solids, Development of Surfaces.3). Orthographic Projections, Isometric Projection.4). Graphics: Use of CAD Softwares to draw plan, Elevation, Section of solids and
different objects and inter – penetration of conic sections.
Introduction to Computer Organization and Operating System. Window and LINUX Computer Networks and internet technology. Internet browsing and internet protocol. Basic concepts of HTML and XML.
Flow charts: Problem solving concepts using C. Primitive data types in C. C expressions. Variables, Assignments; Expressions; Input / Output; Conditional and Branching; Litration; Functions; Recursion; Arrays; pointers.
Numerical Analysis: Solving Linear Equations, Newton Raphson Techniques; Computation of zeros of a function; numerical Integration (Simpson’s Rule); Solving Differential Equations.
Laboratory Components : Suggested assignments. To be conducted on a 3 hour slot. It will be conducted in tandem with the theory course so the topics for problems given in the lab are already initiated in the theory class. The topic taught in the theory course should be appropriately be sequenced for synchronization with the laboratory. A sample sequence of topics and lab classes for the topic are given below:1). Familiarization of a computer and environment and execution of sample programs.2). Expression Evaluation3). Conditional sand branching4). Iteration5). Functions6). Recursion7). Arrays8). Problem Related Numerical Analysis9). HTML Programming
SEMESTER – II
CS204 DATA STRUCTURE (3-1-0)Credits – 4
Introduction to Data Structure : Structures; Introduction to Data – Procedure Encapsulation; Dynamic allocation; Linked Structures; Stacks and Queues; Trees; Graph, Time and Space requirements. (A Programming language like C/C++ may be used as a basis language. The same language must be used for the laboratory).
PROGRAMMING DATA STRUCTURE Laboratory: Suggested assignments, to be conducted in a 3 hours slot. 1). Problem related structure
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2). Problem related pointer3). Problem related searching & sorting4). Problem related stack5). Problem related queue6). Problem related tree7). Problem related graph
UNIT – IIntroduction : Types of materials from structure to property. Crystal Structures: Bravice Lattices, Lattice direction and planes. Crystal Imperfections: Point, line and planer defect.
UNIT – IIDeformation of Materials: Recovery Recrystallization and grain growth, Mechanical properties of materials: Tensile, Impact, Fatigue and Creep of metals.
UNIT – IIIPrinciples of solidification: Nucleation and Growth, Homogeneous and heterogeneous nucleation, Electron theory of Metals: Free electron theory. The zone theory, The dependence of the energies on the wave number, The density of state curves, Conductors and insulators, Semiconductors.
UNIT – IVPhase Diagrams: Phase Rule, Isomorphous, Eutectic, eutectic, peritectic, eutectoid and peritectoid transformation, Fe-cementite diagram; Heat Treatment of Steel: TTT diagram, different heat treatment processes: Annealing, normalizing and hardening, Hardenability.
UNIT – VSelection of Engineering Materials: Common Engineering materials including metals and alloys, Ceramics, Composites.
SEMESTER – III / IV
EE401, EC302, ME301, MT306 & PR302INDUSTRIAL ECONOMICS AND ACCOUNTANCY (3-0-0)
Credits – 3
Engineering Economy: Equivalence, time value, present value and annual equivalent cost, rate of return, replacement analysis, evaluation of public activities, generation and evaluation of alternatives in engineering situations, projects, replacement and inventory.Accounting: Financial Statements, Double entry bookkeeping.Costing: Cost concepts, material, labour and overhead costs, Overhead allocations and absorption; Introduction to job costing, Process costing, Marginal costing, and standard costing, costs for decision making, cost control and cost reduction.Measurement and determinants of market power, market power and public policy;S-C-P Structure; Determinants and Role of Market Structure, Strategic Behavior; Issues in Regulatory Economics, Economics of Information; International Trade.
CE301, CS302, EE303, EC303, ME302, MT301 & PR303
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ENGINEERING MATHEMATICS - III (3-0-0)Credits – 3
Spectra Analysis: Fourier transform, Discrete Fourier Transform: Probability and Statistical Averages; Statistical Method for error analysis, Random Variable and process, Correlation of energy signal, Power and energy spectra density. Information theory and coding, entropy, Shannon fano algorithm, error detection and correction codes (cyclic codes, convolution, codes etc.).
Switching theory; Boolean algebra; logic gates and switching functions; truth tables and switching expressions; Minimization of completely and incompletely specified switching functions – Karanugh map and Quine – Mccluskey method, multiple output minimization, Representation and manipulation functions using BDD’s Combinational Logic Circuits; Decoders, Multiplexers, ROMs and PLAs, Logic Design using Rom and PLAs Integrated circuits: Clocks, Flip-flops, Latches, Counters and Shift Registers, Finite-State machine model, Synthesis of synchronous sequential circuits; minimization and state assignment; Asynchronous sequential circuit synthesis. ASM charts, Representation of sequential circuits using ASM charts, Synthesis of output and next state functions. Data Path partition based design, Fault detection and location; Fault detection in combinational circuits, Homing experiments, Distinguishing experiments machine identification and fault detection experiments in sequential circuits.
SEMESTER – I
CS104, EC104BASIC ELECTRICAL ENGINEERING (3-0-0)
Credits – 3
Electrical Circuits : D.C. Circuits: Voltage and Current Sources, Mesh Current and Nodal Voltage Methods, Delta Star and Star Delta Conversion. Superposition Theorem. Thevenin’s and Norton’s Theorem, Maximum Power Transfer Theorem.A.C. Circuits: Single Phase and Three Phase AC. Phasor Representation. Electrical Circuit Elements – R, L, C, their physical origin based on electromagnetic, and electrostatics; R-L, R-C, R-L-C series circuits, Sinusoidal Steady State: Power factor. Active and Reactive Power, Parallel and Series Parallel Circuits. Delta and Star connections, Line and Phase quantities, Single phase and three phase power measurement.
Electrical Machines: Transformers: Principle of operation, construction, B-H Characteristic of ferromagnetic materials, e.m.f. equation, voltage regulation, Auto Transformers, Polarity test, Three Phase Transformer and their connections.
D.C. Machines: Construction, E.M.F. equation method of excitation, Speed torque characteristic of D.C. Motors (Shunt, Series and Compound). Starters Speed Control.
Induction Motor: Construction and Principle of operation, torque speed characteristics, starters for cage and wound rotor type induction motor, speed control of induction motor.
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SEMESTER – II
CE204ENGINEERING GEOLOGY (3-0-0) Credits – 3
Physical and Structural Geology: Importance of Geology in Civil Engineering, Weathering, Geographical work of wind, River and Ocean, Contours, strike and Dip, outcrop, Unconformity, Joints, folds. Faults- their recognition in the field and engineering importance.
(8 Lectures)Mineralogy: Important physical properties of rock forming minerals. Petrology: Elementary knowledge of rock formation, textures- structures and forms of igneous, Sedimentary and Metamorphic rocks, a general review of the major geological formations of India.
(10 Lectures)Earthquakes - Definitions, Earthquake waves, causes and detection. (8 Lectures)Elementary knowledge of geographical prospecting: Gravity, Magnetic, Seismic and Electrical methods with special reference to foundation and ground water problems.
(6 Lectures)Engineering classification of rocks, rock-quality Designation (RQD) Borring and Logging in rocks, Core recovery, and field Tests (in situ Tests) for rock mass. Engineering behavior of rocks, Load deformation, characteristics of rock materials, Opening on rocks, permeability and seepage, Rock slope stability, Landslides, Rock Bolting.