 | SEMESTER I (Common for all Branches) Curriculum |
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 | MA1010 Elements of Calculus |
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Integral Calculus: Definite integral as the limit of a sum, Properties of definite integrals; Mean Value theorem; Fundamental theorem; Applications.
Sequences and Series: Sequences; Infinite series; Tests for convergence; Alternating series; Functional series; Uniform convergence; Power series and Fourier series.
Functions of Several Variables: Geometric representation; Partial and total increments; Partial derivatives and approximations; Derivatives of composite functions; Directional derivatives, Gradient, Divergence, curl; Taylor's formula; LaGrange multipliers; Optimization problems. |
| 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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| PH1010 Physics I |
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Use of vectors in practical mechanics. Unit vectors in spherical and cylindrical polar coordinates. Conservative vector fields and their potential functions -gravitational and electrostatic examples. Gradient of a scalar field. Equipotentials, states of equilibrium. Work and energy, conservation of energy. Motion in a central force and conservation of angular momentum
Physics concepts in vector fields, Continuity equations and conservation principles for matter, energy and electrical charge. Flux, divergence of a vector. Gauss' theorem, physical applications in gravitation and electrostatics. Irrotational versus rotational vector fields. . Physical significance of circulation, curl of a vector field. Stokes' theorem, physical applications.
Oscillatory motion, Wave motion in one dimension. Wave equation and travelling wave solutions. Wave velocity, group velocity and dispersion. Shallow water waves. Wave equation in three dimensions, spherical waves. |
| References: |
1. Kittel C., Knight W.O. and Ruderman M.A., Mechanics - Berkeley Physics Course, Vol. 1, Tata McGraw-Hill
2. Purcell E.M. Electricity and Magnetism - Berkeley Physics Course, Vol.2, Tata McGraw-Hill
3. Crawford F.S. - Waves and Oscillations, Berkeley Physics Course, Vol. 3, McGraw-Hill
4. Feyman R.P., Leighton R.B. and Sands M. (Narosa) The Feyman Lectures on Physics, Vol.1
5. Feyman R.P., Leighton R.B. and Sands M. (Narosa) The Feyman Lectures on Physics, Vol.2
6. Davis D. (Academic) - Classical Mechanics
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| CY1001 Chemistry I |
| | Microscopic and Macroscopic Structure of Chemical Systems |
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I. Atoms : Bohr model and line spectra : quantization of energy and angular momentum.
The Schrodinger equation – postulates of quantum theory. Understanding of postulates via model problems : particles in one dimensional and two dimensional boxes, particle in a ring and harmonic oscillator.
Hydrogen atom – separation of variables, generation of quantum numbers, probabilities and electron density – one electron density – one electron (hydrogenic) atoms and many electron systems – screening constant and effective nuclear charge.
II. Molecules: Hydrogen molecule ion-linear combination of atomic orbitals and the theory of chemical bonding in H2+ and H2. Overlap, bonding and antibonding orbitals.
Homonuclear and heteronuclear diatomic molecules – orbital diagrams, bond order, bond energy and magnetic properties.
Ionic/Covalent character/dipole moments – HX type molecules. Main group elements – shapes and structure using VSEPR.
Bonding in transition metal complexes- coordination compounds, introduction and crystal field theory. Octahedral, tetrahedral and distorted square planar shapes from octahedral complexes – Stabilization energizes and magnetic properties.
III. Spectroscopy: General features of spectroscopy -interaction of radiation with matter, line broadening different domains of spectroscopy. Basic rotational spectroscopy -energy levels and transition amplitudes.
Vibrations of diatomic molecules -harmonic and Morse oscillator; energy levels and intensities -selection rules.
Franks -Condon principle, electronic absorption spectroscopy, an elementary amount of fluorescence and phosphorescence, dissociation and predissociation. X-ray fluorescence and photoelectron spectroscopy primer.
IV. Solids: Crystalline and non crystalline materials
Close packed structures -ccp and hcp -packing efficiency - examples of metals -octahedral and tetrahedral cavities, radius ratios, ionic solids, NaCI, NiAs, CdCI2, Cdl2, CsCI, ZnS, CaF2 and covalent solids -diamond, graphite and fullerenes.
X-ray diffraction -Bragg's equation -Miller indices -interplanar distance from Miller indices and lattice parameters of cubic, tetragonal and orthorhombic crystal systems, indexing XRD powder patterns of cubic systems.
Band theory of solids -insulators, metals, extrinsic p and n type semiconductors, intrinsic semiconductors, superconductors -examples.
V. Energy and Environment: Energy from nuclear fission and fission; Probability of a nuclear reaction. The fission process and critical mass, Plutonium and power production, Conditions for controlled fusion, Isotopic enrichment.
Chemistry of the Environment: Water-importance of dissolved oxygen in water-determination of oxygen content in water, Air pollution – particulate effect of air pollutants- treatment of water for industrial use. |
| References: |
1. Atkins P.W., Physical Chemistry, Sixth Edition, ELBS, 1998.
2. Cotton F.A., Wilkinson G. and Gaus P.L., Basic Inorganic Chemistry, Third Edition, John-Wiley, 1995.
3. West A.R., Basic Solid State Chemistry, John-Wiley, 1995.
4. Kennedy G., Macias J.W., E.S. & Miller, Nuclear & Radio Chemistry, 4th Edition, Friedlander, J.M. (John Wiley, N.Y) 1985.
5. Baird C, Freeman, W.H. & Company, Environmental Chemistry, N.Y. 1995.
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| ID 1100 Concepts in Engineering Design |
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The purpose of this course is to introduce to the undergraduate student the fundamental principles of Engineering Design which is very important and relevant in the context of to-day’s engineering professionals. The course will be generic to all engineering disciplines and will not require specialized preparation or pre-requisites in any of the individual engineering disciplines.
The first eight lectures will introduce the students to the following aspects of design.
1. Philosophy of Engineering Design.
2. Engineering Design Process.
3. Identification and Analysis of needs.
4. Organization of Design Concept.
5. Design Methods.
6. Considerations in Engineering Design.
7. Design decisions.
8. Development of design.
Case studies from field situations and real products will be used to illustrate these principles. Software support will be provided for self-learning by students. |
| References: |
1. Dandy G. C. and Warner, R.F., "Planning and Design of Engineering Systems" Unwin Hyman, 1989.
2. Eric Laithevaite, (1989), "Invitation to Engineering", Basil Blackwell Inc., Oxford, U.K., 1984.
3. Florman, S.C., "Existential Pleasures of Engineering", St. Martin's Press, New York, 1976.
4. George E.Dieter, "Engineering Design, A Materials and Processing Approach", McGraw Hill International Book Co., (62:744 DIE (148 532), 1983.
5. Henry Petroski, "To Engineer is Human -The Role of Failure in Successful Design", St. Martin Press (62.744.004.6 Pet, 167795), 1985.
6. lITO, "Design Thinking Visual Fundamental+ Human Features", (62:744 ING 106961).
7. Lawrence, P. Grayson, Joseph M. Biedenbac (Eds.), "Engineering Education for 215 century" ASEE, 1980, 62:744 DIE (148532), 1980.
8. Morris Asinow, "Introduction to Design", Prentice Hall, (62:744 ASI 23501), 1962.
9. Nicholas Jequier, (Ed.) "Appropriate Technology, Problems and Promises", (62:330.19 (.ORG) 1976 133727) 1976.
10. Shoup, "Introduction to Engineering Design with Graphics and Design Projects", (62.744.8150)
11. Vijay Gupta and Murthy., P.N., "An Introduction to Engineering Design Method", Tata McGraw Hill Book Co., 62:744 Gup 1980.
12. Wallence, P.J., "Technique of Design, Isaac Pitman & Sons Inc. (62:744 Wal, 9284), Hill, Percy, H., "The Science of Engineering Design", Holt, Reinhart & Winston Inc., (62:744 Hill) 1970.
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| CS110/ME1100 Computational Engineering |
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Compuer Organization - Personal Computing - Distributed Computing - Client/server Computing - Higher Level languages - C Environment - C Standard Library - Structured programming - Selection and repetition structure - Break, exit and Continue Statements - program Control
functions - arrays - printers - structures - Formatted I/O.
Numerical Methods - round off and truncation errors - Approximations - Order of Convergence - non Linear equations - regular falsi; bisection, Newton - Raphson methods - matrices - Gauss eliminations - LU Decomposition - iterative methods for linear systems - interpolation - Case studies illustrating the applicability of these techniques in general Computer Modelling and Simulation - Discrete & Continous approaches - Systems approach to problem solving - Models from various Engineering disciplines - Limitations of simulation. |
| References: |
1. C: How to program, H.M. Deitel, P.J.Deital , Prentice Hall, 1997.
2. Numerical Methods, Software and Analysis, J.R.Rice Mc-Graw Hill, 1993.
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| * INTRODUCTION TO PROFESSION |
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I Offshores Structures for oil and gas: Fixed offshore platforms (jackets, gravity platforms, articulated towers); superstructure & foundation, floating platforms (semi-submersibles, jack-ups, TLPS, FPSOs, pipe laying barges); Mooring, station keeping, berthing systems for floating platforms; towing, launching & installation of platforms, Nearshore structures.
II Marine Vehicles: Oceangoing, ship types, types of small craft,high speed crafts, vehicles for Inland water transport, special ship types, e.g. warships, icebreakers, types of propulsion systems, marine safety regulation, underwater vehicles and submersibles.
III Physical Oceanography: Different types of ocean waves and their importance, ocean currents, ocean circulation, measurement of physical properties of ocean, basin oscillations, Tsunamis, storm surge, ties, Air- sea interaction.
IV Geological Oceanography: Features of ocean boundaries, geomorphology and structures of ocean floor, continental slope and shelf; marine sediments & formation, types, distribution, distribution of marine minerals in the Indian coast; geophysical prospecting for oil bearing state, placer deposits and polymetallic modules. |
| References: |
1. Scheneck Jr.H., Introduction to Ocean Engineering, (ed.) John Wiley & Sons, New York, 1975.
2. David A, Opportunities and uses of the oceans, Ross, Springer-verlag, New York, 1978.
3. Reddy D.V., and Arockiasamy, Offshore Structures, Published by Kreiger, Malabar (F.L), Volume I-II, 1991
4. A Half Century of Maritime Technology 1943-1993, Edited by Harry Benford, 1993, Publisher Society of Naval Architecture and Marine Engineers, Jersey city, New Jersey, 1993.
5. Bhatt, J.J. Oceanography -Exploring the planet ocean, D. Van Nostrand Company, New York, 1978.
6. Cross, M.G. Oceanography -A view of the Earth Engelwood Cliffs, N.J. Prentice Hall, 1972.
7. Ship Design and Construction, edited by Robert Taggart, Published by Society of Naval Architecture and Marine Engineers, One world trade centre, Suite 1369, New York NY 10048, 1980.
8. Ship Design Construction Edited by Amelio M.d. Arcangelo, Published by Society of Naval Architecture and Marine Engineers, 74 Trinity Place, New York NY 10006, 1969.
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| WS1010 Workshop I |
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Introduction to the tools and safety precautions
Fitting: Filing, marking, matching, drilling and tapping.
N.C. Machining: NC lathe operations.
Electrical: Exercises covering PVC wires and connectors, SPT
Switch, Staircase control, Series and parallel circuits, Fluorescent lamp circuit, godown wiring
Electronics: VTVM, printed circuit boards, operational amplifiers, digital gates and switches and battery chargers. |
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| PH1030 Physics Laboratory I |
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| Experiments in Mechanics Properties Materials, Heat, Electromagnetism and Optics. |
| 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.
4. Fretter W.B. -Introduction to Experimental Physics, Blackiee 5. M. Nelkon and J.rlJl. Ogborn -Advanced Level Practical Physics, English Language Book Society, 1955.
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| CY1002 Chemistry Laboratory |
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Volumetric analysis involving acid-base, redox, precipitation and complexometric titrations. Analysis of ores and alloys. Preparation of simple inorganic compounds.
Determinations of molecular weight, distribution coefficient, equilibrium constant, rate constant. Experiments in phase rule. Preparation and properties of simple organic compounds, determination of phenol and formalin. |
| References: |
1. A.I. Vogel, A Text of Quantitative Inorganic Analysis, ELBS, London.
2. Shoemaker D.P. and Garland C.W., Experiments in Physical Chemistry, McGraw Hill, London.
3. Dey B.B. and Seetharaman M.V., Laboratory Manual of Organic Chemistry. |
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