| sEMESTER II (Common for all Branches) Curriculum |
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 | MA1020 Vector Matrices and Differential Equations II |
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Multiple Integrals: Line Integrals and Surface Integrals; Multiple integrals and their evaluation as iterated integrals; Evaluation of line integrals; Green's theorem; Evaluation of furface integrals; Stokes' and Gauss' theorems.
Matrices: Review of matrix algebra; Rank of matrix; Eigen-values and Eigen-vectors; Diagonalization; Systems of linear equations; Quadric surfaces.
Ordinary Differential Equations: First order equations; Linear equations and systems of linear equations with constant coefficients; Linear differential equations of higher order with constant coefficients; Applications. |
| References: |
1. Thomas G.B., Jr., Calculus and Analytic Geometry, Addison-Wesley, 1968.
2. RSL Srivastava (lIT, Kanpur), Engineering Mathematics, Vol. I, Tata- McGraw Hill, 1980.
3. Piskunov N., Differential and Integral Calculus, Volumes I and II, MIR Publishers, MOSCOW, 1981.
4. Kreyszig E., Advanced Engineering Mathematics, Wiley Eastern Private Ltd., New Delhi, 1985.
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| PH1020 Physics II |
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Electrostatic potential and field due to discrete and continuous charge distributions. Dipole and quadrapole moments. Energy density in an electric field. Dielectric polarization. Conductors and capacitors. Electric displacement vector, dielectric susceptibility.
Biot-Savart's law and Ampere's law in magnetostatics. Magnetic induction due to configurations of current-carrying conductors. Magnetization and surface currents. Energy density in a magnetic field. Magnetic permeability and susceptibility. Force on a charged particle in electric and magnetic fields.
Time-varying fields. Faradays' law of electromagnetic induction. Self and mutual inductance. Resonance and oscillations in electrical circuits. Displacement current. Maxwell's equations in free space and in linear media. Scalar and vector potentials, gauges. Plane electromagnetic waves. Electromagnetic energy density, Pointing vector. Wave guides. |
| References: |
1. E.M. Purcell - Electricity and Magnetism - (Berkeley Physics Course, Vol. 20 (Tata McGraw-Hill)
2. Feyman R.P., Leighton R.B. and Sands M. (Narosa), The Feyman Lectures of Physics, Vol.2.
3. Griffith D.JH., Introduction to Electrodynamics - (Prentice Hall, India)
4. Reitz J.R. et al (Narosa), Foundations of Electromagnetic Theory.
5. Wangsness R.K., Electromagnetic Fields - (Wiley)
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| CY1020 Chemistry II |
| | Equilibrium and Dynamics of Chemical Systems |
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I. Macroscopic properties of systems in equilibrium: The second law, Concepts. Definition of Entropy. Entropy change in the system, surroundings and the universe. The Entropy of phase transitions, irreversible changes. Third law and absolute entropy.
Definition of free energy and spontaneity. Maxwell relations. Gibbs- Helmholtz equation, and van't Hoff equation.
Phase equilibria. Clausius-Clapeyron equation. Phase transitions. Application to one component systems, two component systems (eutectic and compound formation). Solvent extraction and steam distillation.
II. Dynamics of Chemical Processes: Basic concepts. Composite reactions (opposing, parallel and consecutive reactions).
Theories of reaction rates (collision theory and classical transition state theory). Unimolecular reactions.
Chain reactions (stationary and non-stationary).
Enzyme kinetics (MM equation).
III. Electrodics: Types of electrodes, cells, Nernst equation.
Applications to EMF measurements.
Electrochemical energy systems: primary and secondary batteries, fuel cells
Corrosion and its prevention.
IV. Surface Phenomena: Surface energy. Adsorption on solids (Langumuir and BET isotherms). Application to the gas-solid systems. Introduction to surface characterization methods.
References:
1. Gilbert W. Castellan, Physical Chemistry, Third Edition, Narosa, New Delhi, 1995.
2. Atkins P.W., Physical Chemistry, ELBS, Sixth Edition, 1998.
3. Physical Chemistry, G. Barrow, Fifth Edition, McGraw-Hill, London, 1995.
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| ME1100 Thermodynamics |
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Definitions, work, temperature and heat.
The First Law, the pure substance and the First Law applied to flow process.
The Second Law and reversibility. Some corollaries of the Second Law and entropy. Properties of pure substances. Ideal gases, Basic Rankine, Gas Turbine and Vapour Compression cycles.
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| References: |
1. Spalding, D.B. and Cole, E.H., "Engineering Thermodynamics", Edward Arnold (Publishers) Ltd., London, 1976.
2. Gordon J. Van Wylen and Richard E Sonntag, "Fundamentals of Classical Thermodynamics", Wiley Eastern Limited, 1976.
3. Jones, J.B. and Hawkins, G.A. "Engineering Thermodynamics", John Wiley and Sons, 1986.
4. Rao, Y.V.C., "An Introduction to Thermodynamics", Wiley Eastern Limited, 1993.
5. Bhaskaran, K.A. and Venkatesh, A., “Problems in Engineering Thermodynamics", Tata McGraw-Hill Publishing Company Ltd., New Delhi, 1978.
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| AM1100 Engineering Mechanics |
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Equilibrium of rigid bodies,free body diagram,Analysis of beams and trusses, Equilibrium of continuous systems-derivation of relation between shear force and bending moment. Energy conservation in rigid bodies-potential energy and elastic energy.Virtual work in multibody assemblies.
Lumped mass models in Dynamics-Practicle motion in cylindrical coordinates, engineering applications of central force motion. Kinetics of rigid bodies-translation and rotation motion of a rigid body, relative motion with translating and rotating axes and Coriolis acceleration.Kinematics of rigid bodies-3-D properites of sections, angular momentum of rigid bodies and energy relations for rigid bodies.Mechanical vibrations of single degree of freedom systems-free vibration of rigid bodies, general equations of motion and response to forced sinusoidal loading.
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| References: |
1. Beer F.P. and Johnston E.R., Vector Mechanics for Engineers-Volume I -Statics,volumeII -Dynamics, McGraw Hill,New York.
2. Merlam J.L and Kraige L.G., Engineering Mechanics,Volume I-Statics,volume II-dynamics,John Wiley & Sons,New York.
3. Shames L.H.,Engineering Mechanics,Prentice Hall,New Delhi.
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| EE1100 Basic Electrical Engineering |
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DC circuits -AC circuits -True and reactive power in AC circuits.
Electro -Mechanical Energy Conversion -Power Systems.
Opams and their Applications -Basic digital systems - Microprocessors –Computer networking fundamentals.
Principles of communication -Basics of Signal Processing.
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| References: |
1.Vincent Del Toro : Electrical Engineering Fundamentals, Prentice Hall India, 1989.
2. Paul Horowitz & Winfield Hill, The Art of Electronics, Cambridge University Press, 1992.
3. Taub & Schilling, Digital Integrated Electronics, McGraw-Hill, 4. Ralph J Smith, "Circuits Devices and Systems, John Willey & Sons, 1989.
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| OE1020 MATERIALS AND SHIP PRODUCTION PROCESSES |
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Steel plates and sections for ships and offshore structures — different grade and their applications — Materials for propellers, shafts etc. — Titanium and aluminium for underwater application — Introduction to Marine Corrosion and Control — painting.
FRP materials; their application in ship building; design data — Ferro cement and concrete — wood in ship building industry — design data — Fatigue and fracture behaviour of materials
Introduction to ship production processes — shipyard lay out — material flow — material handling equipments — Cutting processes — edge preparation — metal joining processes — welding methods; welding procedure and welder qualification test; weld defects; weld inspection — Hull fabrication and assembly — hull erection — Launching of ships and offshore structures — Ouffitting — Tests and trials |
| References: |
1. Crane FAA and Charles, JA., Selection and use of Engineering materials, Butterworth and Co., Ltd. (1984).
2. Robert Taggart (Ed.), Ship design and construction, published by society of Naval Architecture and Marine Engineers, One World Trade Centre, New York (1980).
3. Dexter S.C., Handbook of oceanographic engineering materials, John Wiley and Sons, New York (1979).
4. Soheneck Jr.H. (Ed.), Introduction to Ocean Engineering, John Wiley & Sons, New York (1975).
5. Robert Taggart, Ship Design and Construction, SNAME, One World Trade Centre, Suite 1369, New York 10048 (1980).
6. Eyres, DI, Ship construction, Heinman, London (1972).
7. Pursey, H.J., Merchant Ship Construction, Especially written for Merchant Navy, Edn.6, Glasgow, Brown, Ferguson (1975).
8. Stokoe, E.A., Embleton William, Reed’s ship construction for marine students, Ed.2, Sunderland, Thomas Reed (1968).
9. Ben ford, Harry (Ed.), Half century of Marine Technology, Butterworths, London (1983).
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| ME1120Engineering Drawing |
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Introduction to Engineering drawing and graphics. Construction of plane curves. Coordinate system-projection of lines and planes. Projection of right regular solids. Section and intersection of solids and development of surfaces.
Computer Aided Drafting:
Systems of projections-principles,conventions and applications of orthographic and isometric projections. Dimensioning principles and conventional representations. |
| References: |
1. Luzadder. W.J., Fundamentals of Engineering Drawing. Prentice Hall India, 1990.
2. French and Vierk., Fundamentals of Engineering Drawing, McGraw Hill, 1996.
3. Narayana.K.L., &Kannaiah,P.E.,Engineering Drawing, Charotar Publishing House, 1998.
4. Venugopal.K., Engineering Drawing. Subash Stores, 2000.
5. Natarajan.K.V., A text book on Engineering Drawing, Classic Prints, 2000.
6. Gopalakrishna.K.R., Engineering Drawing.subash Stores,2000.
7. Bhatt.N.D, Engineering Drawing, New Age International, 2000
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| WS1020 Workshop II |
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Introduction to the usage of tools, instruments and machinery in turning, welding, carpentry and pneumatics and hydraulics.
Turning: Types of lathes and operations. Exercises covering - facing and centering, plain turning, step turning, taper turning.
Welding: Weld joint preparations, exercises in arc and gas welding, soldering and brazing.
Carpentry: Wood sizing, exercises in planing, marking, sawing, chiselling, grooving and fitting.
Pneumatics and Hydraulics: Pneumatics and hydraulic components and circuits, experimental covering -calibration, pneumatics, control valves, cylinders, pumps and motors, hydraulic circuits.
Processing of Plastics: Hand injection moulding, semi-automatic injection moulding, welding of plastics. Fabrication of FRP components.
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| PH1040 Physics Laboratory II |
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| Experiments in Electricity, Magnetism, Optics and Atomic. |
| References: |
1. Smith E.V. - Manual of Experiments in Applied Physics, London, Butterworth, 1970.
2. Workshop B.L., and Flint H.P. -Advanced Practical Physics for Students, Methuen and Co. Ltd. London.
3. Jerrad H.G. and Mc Neil D.B. -Theoretical and Experimental Physics.
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