COURSE CONTENTS::DEPARTMENTAL COURSES CE 102 Engineering Mechanics 2 1 0 6 Equivalent Force Systems: Basic concepts of force-couple systems, planar force systems; parallel force systems; simplest equivalent for general force system - "wrench", distributed force systems. (4 lectures, 2 tutorials). Equations of Statics and its Applications: Simple frictionless rigid body assemblies; two-force members; machines; trusses; cables; rigid body assemblies including friction. (10 lectures, 5 tutorials). Virtual Work and Potential Energy Principles: Application of these principles as replacement of equations of statics for real life problems. (3 lectures, 1 tutorial). Vibrations: Equations of motion for single degree-of-freedom systems and rigid body assemblies; free vibration (simple harmonic oscillator); concepts of damping and critical damping; damped free vibration; equations of motion for harmonic excitation; transient and steady state vibrations; illustration of MDOF systems concepts with two degree-of-freedom systems. (8 lectures, 4 tutorials). Texts/References Shames I.H., Engineering Mechanics, Prentice Hall, New Delhi, 1997 Beer, F.P. and Johnston, ? Mechanics for Engineers, McGraw Hill, New Delhi 1987. CE 152 Construction Engineering 2 1 0 6 Systems approach for planning building project, Mathematical models, Optimisation, Building bye-laws and Codes; Foundations - shallow and deep foundations; wall, floor and roof systems; introduction to PERT/CPM economy in construction. Texts / References: National Building Code of India, Indian Standards Institution, New Delhi, 1970. B.C. Punmia, Building Construction, Sambha and Co., New Delhi, 1986. B. Sengupta and H. Guha, Construction ;Management and Planning, Tata McGraw Hill, New Delhi, 1995. Pilcher : Principles of Construction Management, McGraw Hill, 1981. CE 201 Solid Mechanics 3 1 0 8 Prerequisite: CE 102 (Exposure). Rigid and deformable solids; Method of sections for evaluating internal forces in bodies - review of free body diagrams; Axial force, shear and bending moment diagrams; Concept of stress, normal and shear stress; Concept of strain , normal and shear strains; Constitutive relations, Hook?s law; Axially loaded members force and deflections; Bending and shearing stresses in beams of symmetrical cross-section concept of shear flow; Inelastic bending of beam; Torsion of circular shafts; Stress in cylindrical and spherical shells; Combined stress; principals of superposition and its limitations; Transformation of plane stress and strain, principal stress and strains, Mohr?s circle, strain methods; Bending deflection of simple beams by direct integration methods; Buckling of compression methods. Texts / References: S.M.A. Kazioni, Solid Mechanics, 1st revised ed., Tata McGraw Hill, New Delhi, 1988. E.P. Popoo, Introduction to Mechanics of Solids, Prentice Hill of India, New Delhi, 1973. S.H. Crandall, N.C. Dahl and T.V. Lardner, Mechanics of Solids: An Introduction, McGraw Hill International, Tokyo, 1994. CE 202 Structural Mechanics I 2 1 0 6 Prerequisite: CE 201 (Exposure). Analysis of Statically Determinate Structures Determination of forces in trusses, frames, arches, and cables; Principle of virtual work; Energy Principle; Maxwell?s and Betti's laws; Computation of Displacements - moment area method, conjugate beam method, virtual work methods; Influence Lines - Equilibrium methods, Muller Breslau principle; concepts of flexibility and stiffness. Introduction to statically Indeterminate Structures: Concept of state indeterminacy-determination of static redundancy; concept of compatibility conditions; applications to axially loaded members; single beams, Texts/References: H.H. West, Fundamentals of Structural Analysis, John Wiley, New York, 1993. C.H. Norns, J.B. Wilbur, and S. Utku, Elementary Structural Analysis, 3rd McGraw-Hill International, Tokyo, 1976. C.S. Reddy, Basic Structural Analysis, 2nd ed. Tata McGraw Hill, New Delhi, 1996. CE 204 Geodesy I 2 1 0 6 Design data surveys: Control surveys- horizontal and vertical; Topographic Mapping; route surveys. Traversing-compass, theodolite and plane table; Levelling-spirit and trigonometrical; Tacheometry and subtense measurements; Areas and Volumes; Setting out works. Texts / References B.C. Punmia, A.K. Jain and A.K. Jain, Surveying, Vol. 1 and II, Laxmi Publications (P) Ltd., New Delhi, 1996. K.R. Arora, Surveying, vol. I and II, Standard Book House, Delhi, 1998. R.E. Davis, F.s. Foote and J.w. Kelly, Surveying; Theory and Practice, McGraw Hill Book Company, New York, 1966. D. Clark and J. Clendinning, Plane and Geodetic Surveying, Vol. I and II, Constable and Company, London, 1958. CE 205 Fluid Mechanics I 2 1 0 6 Definition, properties and classifications of fluids. Kinematics of fluid flow. Generalized continuity equation. Irrotational motion and solutions to Laplace equation. Dynamics of fluid flow. Euler and Bernoulli?s theorems. Impulse momentum theory and applications. Flow of fluids in closed conduits. Laminar and turbulent flows in the light of boundary layer concepts. Darcy-Weisbach equation, Moody's diagram. Minor losses. Drag on immersed bodies, concepts of separation, drag force, circulation and lift force. Dimensional Analysis, Model Similitude, theory and applications. Texts/References R.A. Granger, Fluid Mechanics, Holt Reinhart and Winstaw, 1985. V.L. Streeter E.B. and Wylie, Fluid Mechanics, McGraw Hill Book Co., 1983. R.L. Daugherthy, J.B. Franzini, E.J. Finnermore; Fluid Mechanics; with Engineering Application, McGraw Hill, International Ed: 1989. LP.N. Modi, S.M. Seth, Hydraulics and Fluid Mechanics; Standard Book House, New Delhi CE 206 Fluid Mechanics II 2 1 0 6 Prerequisite: CE 205 (Exposure). Introduction to Navier-Stokes equations. Exact solutions for simple cases of flow, plane Poiseuilee flow. Couette flow. Hydro-dynamics of lubrications problems. Problems of flow through porous media. Application of boundary layer theory to concepts of flow separation phenomena, circulation and lift. Aerofoil characteristics. Network theory as applied to pipe grids, unsteady flow in close conduits. Functions of a surge chamber. Texts / References: R.A. Granger, Fluid Mechanics, Holt Reinhart and Winstaw, 1985. V.L. Streeter and EB Wylie, Fluid Mechanics, McGraw Hill Book Co., 1983. R.L. Daugherthy, J.B. Franzini, E.J. Finnemore, "Fluid Mechanics with Engineering Applications", McGraw Hill, International Ed: 1989. Herman Schlichting: Boundary Layer Theory: McGraw Hill, 1979. CE 220 Water and Wastewater Engineering 2 1 0 6 Essentials of water, Quantity of water, Domestic water standards; Sources of water and their yield, population forecast, Design period; Intakes, pumping and Transportation of water; Water distribution systems and analysis; Appurtenances of water transport and distribution systems. Essentials of waste water engineering, Quantities of Waste water and storm water, waste water characteristics; Water and waste water plumbing systems, Waste water collection systems, Design of Sewerage systems, Pumping of waste water; Unit operations; Processes of water treatment, sedimentation and flocculation; slow and rapid sand filters; chlorination and other disinfecting methods; primary and secondary waste water treatment, activated sludge trickling filters, sludge digestion, drying and disposal. Text / References: G.M. Fair, J.C. Geyer, D.A. Okan, Elements of Water Supply and Wastewater Disposal, John Wiley and Sons Inc., 1971. Terence, J.. McGhee Water Supply and Sewerage, McGraw Hill Book Co., 1991. M.J. Hammer, Water and Waste Water Technology, John Wiley and Sons, New York, 1986. CPHEEO: Manual on water supply and treatment, Ministry of Urban Development, 1991. CPHEEO: Manual on Sewerage and Sewage Treatment, Ministry of Works and Housing, New Delhi, 1980. CE 211 Solid Mechanics Lab. 0 0 3 3 Experiment on axial tension of mild steel and cast iron; compression on concrete; bending of beams; buckling of columns. Experiments on shear centre; continuous and interconnected beams; unsymmetrical bending of angle sections; buckling of columns of various cross-section and end conditions. Texts / References David, Troxell, Inspection and Testing of Engineering Materials, Wskocil. CE 213 Fluid Mechanics Lab I 0 0 1.5 1.5 Study Experiments: Ideal fluid motion past a two dimensional circular cylinder by means of an electrical analog; study of boundary layer growth in a wind tunnel. Drag on a circular cylinder, Minor transition losses in pipes. Determination of friction factor of pipes. Flow measurement by Orifices, venturimeter and notches; computations of various coefficients involving jet flow through orifice. Demonstration experiments. Bernoulli apparatus, Reynolds apparatus, Magnus effect. Texts/References: Lamox W.r., Laboratory work in Hydraulics, Granada Publishers, London, 1979. S. Narasimhan, Fluid Mechanics Laboratory A, Manual for Experiment, Curriculum Development Programme, I.I.T. Bombay, 1982. CE 215 Civil Engg. Drawing 0 1 3 5 Drawing of various details of residential buildings, framed buildings in steel and concrete. Industrial and laboratory buildings. Principles of planning. Relation of frame work details, floors and roofing systems, masonry, load bearing and non-load bearing walls. Working drawings of buildings. Quantity surveying and estimating. Specifications and analysis of rates. Texts/References B.N. Dutta, Estimating and Costing, Tagor Palli, Lucknow, 1991. P.L. Basin, Quantity Surveying, S. Chand and Company, Delhi. G.H. Cooper, Building Construction and Estimating, McGraw-Hill, 1971. CE 216 Geodesy Lab. I 0 0 3 3 Horizontal control-compass, plane table and theodolite traversing; plotting traverses and mapping details; vertical control-spirit levelling, tacheometry and trigonometric levelling; curve setting. CE 218 Fluid Mechanics Lab II 0 0 1.5 1.5 Application of Hele-Shaw Model to compute dam seepage. Deformation of fluid viscosity for Hagen Poiseuille flow conditions. Electric analog for the pipe solution networks. Flow net studies around circular cylinder. Verification of Darcy's law. Texts/ References: Lamox W.R. Laboratory Work in Hydraulics Granada Publishers, London 1979. S. Narasimhan (Ed.) Engineering Fluid Mechanics Vol. II, Orient Longmans Ltd., New Delhi, 1973. V.L. Streeter, E.B. Wylie, Fluid Mechanics, McGraw Hill, 1985. ES 251 Environmental Engineering Science 2 1 0 6 Environmental Chemistry, Environmental systems, Behaviour and control of air and water pollutants, Hazardous and solid waste pollution of groundwater and soils, Ecology and environmental microbiology, Environmental impact assessment, Cleaner production, Conservation of resources, Recycling and recovery of energy, Policy and legislation for environmental protection. Texts/References: Davis M.L. & Cornwell D.A. Introduction to Environmental Engineering, Mc GrawHill, 1991. Peary H.S., Rowe D.R. and Tchobanoglous G. Environmental Engineering, Mc GrawHill, 1995. CE 301 Fluid Mechanics III 2 1 0 6 Open channel flow. Energy, momentum and pressure correction factors of momentum and energy equations. Specific force. Properties of critical flow. Uniform flow, its properties, design of channels for uniform flow. Gradually varied flow theory, profile computation and use in design of channels. Rapidly varied flow, flow over spillways, hydraulic jump, its location, control and stabilization. Unsteady flow, basic equations, uniformly progressive flow, velocity of flood wave discharge for unsteady flow, flood routing (reservoir and stream flow). Texts/References V.T. Chow, Open Channel Hydraulics, McGraw Hill, 1975. K.G. Rangaraju, flow in Open Channels, Tata McGraw Hill Publication Co. Ltd., New Delhi, 1993. K.Subramanya, Flow in Open Channels, Tata McGraw Hill Publication co. Ltd. New Delhi, 1992. R.H. French, Open Channel Hydraulics, McGraw Hill Book Co., New York 1986. CE 302 Geodesy II 2 1 0 6 Prerequisite: CE 204 (Exposure) Geodetic surveying; triangulation and precise levelling, theory of errors; method of least squares, adjustment of surveying observations; precision and accuracy evaluation; electronic measurements in surveying; field astronomy fundamentals. Spherical trigonometry, determination of terrestrial co-ordinates and Azimuth. Texts/References G.L. Hosmer, Geodesy, John Wiley & sons, New York, 1946. B.C. Punmia, A.K. Jain and A.K. Jain, Surveying, Vol. II and III, Laxmi Publications(P) Ltd., New Delhi, 1997. K.R. Arora, Surveying, Vol. II and III, Standard Book House, Delhi, 1998. J.B. Mackie, The Elements of Astronomy for surveyors, Charles Griffin and Company Ltd., High Wycombe, England, 1985. C.D. Burnside, Electromagnetic Distance Measurement, Crosby Lockwood and Son Ltd., London, 1971. CE 312 Geodesy Lab II 0 0 1.5 1.5 Based on CE 302 CE 303 Soil Mechanics I 2 1 0 6 Origin, evaluation and classification of soils, soil water statics, surface tension, capillary attraction. Effective stress, consistency, flow through soils, flow nets. Laboratory and field compaction, stresses in soil, contact pressure, consolidation, settlement of compressible layers. Strength and stress-strain characteristics. Shear strength of granular and cohesive soils. Failure theories. Texts/References R.F. Craig, Soil Mechanics, ELBS & Van Nostrand, 4th Edition, 1987. R.B. Peck, W.E. Hanson and T.H. Thornburn, Foundation Engineering, John Wiley, 1963. V.N.S. Murthy, Soil Mechanics and Foundation Engineering, Vol.1, Saikripa Technical Consultants, Bangalore, 1991. CE 304 Soil Mechanics II 2 1 0 6 Prerequisite: CE 303 (Exposure) Surface and subsurface investigations. Boring and sampling. Fieldtests, introduction to airphoto interpretation. Theories of earth pressure and retaining walls excavation, bracing, stability of slopes. Earth and rock fill dams. Bearing capacity of soils. Design and construction of shallow footings, rafts, pile foundations, caisson and coffer dams, anchored bulkheads. Texts/References R.F. Craig, Soil Mechanics, ELBS & Van Nestrand, 4th Edition, 1987, R.B. Peck, W.E. Hanson and T.H. Thornburn, Foundation /Engineering, John Wiley, 1963. V.N.S. Murthy, Soil Mechanics and Foundation Engineering, Vol, II, Saikripa Technical Consultants, Bangalore, 1991. CE 305 Structural Mechanics II 2 1 0 6 Prerequisite: CE 202 (Exposure) Analysis of Statically Indeterminate Structures. : Review of Statical Indeterminancy; Force Method - application to trusses, beams, frames, arches; concept of kinematic indeterminancy - degrees of freedom; Development of slope - deflection equations; concept of stiffness; Displacement method and applications; Influence lines using Muller Breslau principle; Moment distribution method and application to beams and simple frames. Texts/References H.H.West, ?Fundamentals of Structural analysis? John Wiley, New York, 1993. C.H.Norris, J.B. Wilbur and S. Utku, ? Elementary Structural Analysis, McGraw Hill Tokyo, 1976. C.S. Reddy, ?Basic Structural analysis? Tata McGraw Hill, New Delhi, 1996. CE 306 Structural Mechanics III 2 0 2 6 Prerequisite: CE 202, CE 305 (exposure) Matrix formulation of force and displacement methods: Solution of simultaneous equations; Stiffness matrix approach with reference to computer application; generation of 1- dimensional frame element stiffness matrix, flexibility and displacement approaches, Torsional effects; Concept of local effects, generation of load vector, Effects of finite joints; Application to plane frames, space frames, grid structures, Finite Element Method for 2-D plane problems - introduction. Texts/References W.Weaver and J.M. Gore, Matrix Analysis of framed structures. 3rd :ed. Von Nastrand, New York, 1990. J.S. Przemieniecki, Theory of Matrix Structural Analysis, Dover, New York, 1968. G.S. Bandit, and S.P. Gupta, Structural analysis - a Matrix Approach, Tata McGraw Hill, New Delhi 1994. M.B. Karchi, Matrix Methods of Structural analysis, Wiley Eastern, New Delhi, 1993. CE 307 Design of Structures I 3 0 0 6 Design basis of reinforced concrete structures-slab design; simply supported, continuous and two way - Beam design; rectangular; tee, ell, doubly reinforced, continuous - column; Concentric, eccentric, short and long columns - Footing: simple, combined - staircases - joint detailing. Texts/References J. Krishna, and O.P. Jain, Plain and Reinforcement Concrete - Vol. I & II, Nemchand Bros, Roorkee, 1968 IS-456-1983 Code of Practice for Plain and Reinforced Concrete. P.Dayaratnam: Design of Reinforced Concrete Structures, Third Edition, Oxford-IBM Publications, New Delhi 1989. S.N. Sinha: Reinforced Concrete Design, Tata McGraw Hill New Delhi, 1990. CE 308 Design of Structures II 3 0 0 6 Basic of designing steel structures - Rivetted, bolted and welded connections - tension and compression members - built up members - beam design - built up beams - laced and battened columns - welded and rivetted column bases - moment resistant connections - semi rigid connections - design of supports. Texts/References A.S. Arya and J.L. Ajmani, Design of Steel Structures; Nemchand Bros,, Roorkee, 1990. S.M.A. Kazimi and R.S. Jindal,: Design of Steel Structures Prentice Hall (India), New Delhi, 1981. S.K. Duggal, : ?Design of Steel Structues?, Tata McGraw Hill, New Delhi, 1993. CE 320 Transportation Engineering I 3 0 2 8 Introduction to Transportation Systems Transportation Systems Engineering-Definition and Objectives of Transportation Systems - Various fields of transportation engineering; Role of transportation in society - economical, social, political and environmental significance; Different modes of travel and their coordination with respect to Indian conditions; Introduction to transportation planning process - planning models and mass transit systems; Terminals - passenger and freight; Transportation demand and supply; Transportation costs; Vehicle motion - resistances, vehicle performance relationships, work, energy and fuel consumption; Highway Engineering Highway planning - basic principles, road development and planning in India; Highway alignment; Geometric design of highways - design of cross-section, horizontal and vertical elements, IRC specifications; Highway Pavements Pavement materials; Requirements and tests on pavement materials; Classification of pavements and design factors; Design of flexible pavements - traffic factors, failure criteria, empirical mechanistic method of design, IRC-CBR design method, Asphalt institute method and AASHTO method; Design of rigid pavements - stresses in plain CC pavements, IRC method of plain CC pavement design, Joints in CC pavement, joint spacing and reinforcement across joints, tie bars and dowel bars; Pavement construction and maintenance; Stabilised roads; Drainage. Traffic Engineering Traffic characteristics; Traffic studies and their use; Traffic control devices; Intersections. Transportation Engineering Lab. Laboratory testing of subgrade soils, aggregates, bituminous binders and mixes for their suitability in road construction with reference to BIS; Traffic studies; Pavement evaluation tests. Text Books and References Morlok, E. R. (1970). An Introduction to Transportation Engineering and Planning, McGraw Hill Kagakusha International Student Edition. Hay, W. W. (1988). 2nd Ed. Introduction to Transportation Engineering. John Wiley and Sons, New York. Papacostas, C. S. (1987). Fundamentals of Transportation Engineering, Prentice Hall of India, New Delhi. Hutchinson, B. G. (1974). Principles of Urban transportation Planning, McGraw Hill Book Company. Khanna, S. K. and Justo, C. e. G. (1991). Highway Engineering, Nemchand Bros., Roorkee. Wright, P. H. (1996). Highway Engineering, John Wiley and Sons, New York. Kadiyali, L. R. (1987). Traffic Engineering and Transportation Planning. Khanna Publishers, New Delhi. Huang, Y. H. (1993). Pavement analysis and Design. Prentice Hall, Englewood Cliffs, New Jersey. CE 311 Design in Open Channel Flow 0 0 3 3 Computation of surface profiles in gradually varied flow, location of hydraulic jump and flood routing. Channel Design and Transitions - Energy Dissipators, spillways. Texts/References V. T. Chow, Open Channel Hydraulics, McGraw Hill, 1975. K.G. Rangaraju, Flow in Open Channels, Tata McGraw Hill Publication Co. Ltd., New Delhi, 1993. K. Subramanya, Flow in Open Channels, Tata McGraw Hill Publication Co. Ltd., New Delhi, 1992. R.H. French, Open Channel Hydraulics, McGraw Hill Book Co., New York 1986. CE 312 Geodesy Lab. II 0 0 1.5 1.5 Based on CE 302. CE 313 Soil Mechanics Laboratory I 0 0 1.5 1.5 Identification of soils. Determination of physical properties. Consistency limits. Determination of soil permeability and compaction, characteristics of soils. Texts/References J.E. Bowles, Physical and Geotechnical Properties of soils, 2nd Edition, McGraw Hill International Editions, 1990. T.W. Lambe, Soil Testing for Engineers, Wiley, 1960. CE 314 Soil Mechanics Laboratory II 0 0 1.5 1.5 Consolidation, shear strength of soils, direct shear test. Triaxial test. UCC test and CBR test, graphical exercises on earth pressure, stability of slopes etc. Texts/References J.E. Bowles, Physical and Geotechnical Properties of soils, 2nd Edition, McGraw Hill International editions, 1990. T.W. Labme, Soil Testing for Engineers, Wiley, 1960. CE 315 Design Lab. I 0 0 3 3 Design and drawing of continuous or two way slabs; continuous beam; column with a footing; joint details beam-slab; beam-column and column-footing. Texts/References Same as that for CE 307 CE 318 Design Lab. II 0 0 3 3 Design and drawing of built-up compression members; plate girder design, design and drawing of laced/battened columns with base plate; moment resistant designs. Texts/References Same as that for CE 308 CE 398 Seminar 0 0 3 3 CE 396 Works Visits PP/NP CE 401 Water Resources Engineering 2 1 0 6 Prerequisite : CE 301 (Exposure) Rainfall and runoff, hydrograph analysis, peaks flows. Reservoir planning and operation, run-of the river schemes, storage schemes. Dams and spillways, intakes, water-conductor systems, tunnels, surge-tanks, penstocks and anchor blocks. Hydro- electric power classification and investigations. Turbines, powerhouse, irrigation, crop requirements and yields, water planning. Weirs on permeable foundations. Canals layout, stable channels, and silt control, canal losses and water-logging. Texts/References R.K. Linsley and J.L.H. Paulhus : Water Resources Engineering, McGraw Hill Book Co., 1992. W.P. Creager and J.D. Justin : Hydroelectric Handbook, John Wiley, 1968. Bharat Singh : Fundamentals of Irrigation Engineering, Nemchand Bros., Roorkee, 1957. P.N. Modi, Irrigation water Resources and Water Power Engineering, Standard Book House, New Delhi, 1990. CE 403 Design of Structures III 3 0 0 6 Design of RCC water tanks, silos, bunkers and simple bridges - Design of steel roof trusses, steel frames - Design of industrial buildings - Design of residential buildings - Design of arches and shells. Texts/References J. Krishna and O.P. Jain, Plain and Reinforced Concrete, Vol. I and II, Nemchand Bros. Roorkee, 1968. IS 456, 1978. Code of Practice for Plain and Reinforced concrete. Design Aids for R.C. to IS 456-1978, ISI-SP-16-sand-T,1980. S.M.A. Kazimi and R.S. Jindal-Design of Steel Structures, Prentice Hall (India), New Delhi,1981. S.K. Duggal-Design of Steel Structures, Tata McGraw Hill, New Delhi, 1993. P.Dayaratnam - Design of Reinforced Concrete Structures, Third Edition, Oxford - IBM Publishing Co., New Delhi, 1989. S.N. Sinha - Reinforced Concrete Design, Tata McGraw Hill, New Delhi, 1990. CE 407 Foundation Engineering 2 0 2 6 Explorations, sampling geophysical investigations. Bearing capacity, settlement. Design of footings and rafts. Foundations subjected to eccentric loads and moments. Footings on slopes. Contact pressure distributions. Subgrade modulus. Earth pressure theories. Pile Foundations, driving stresses, load tests, pile groups, pile caps, lateral loads. Bridge foundations caissons, coffer dams. Excavation; and dewatering for foundations. Failures and strengthening. Foundations on weak soils, reclaimed areas, swelling soils etc. Machine foundations. Texts/References R.B. Peck W.E. Hanson and T.H. Thornburn, Foundation Engineering, John Wiley, 1963. Gopal Ranjan and A.S.R. Rao, Basic and Applied soil Mechanics, Wiley Eastern, 1991. V.N.S. Murthy, Soil Mechanics and Foundation Engineering, Vol. II, Saikripa Technical Consultants, Bangalore, 1991. M.R. Hausmann, Engineering Principles of Ground Modification, McGraw Hill International Edition, 1990. CE 410 Introduction to Offshore engineering 3 0 0 6 Linear theory of waves, brief description of higher order wave theories, random waves, probability theories. Morison?s equation, wave forces on fixed and floating structures and fluid structure interaction. Soil exploration beneath seabed, criteria of foundation design in offshore environment, pile behaviour under cyclic lateral loading, development of p-y curves. Analysis of piles and foundations of gravity platforms, soil liquefaction under cyclic stresses. Various types of offshore structures and evaluation of their environmental loads. Structural idealization and analysis of forces due to wind, waves and for linear static behaviour. Wave force on inclined members, analysis of joints in offshore structures, stress concentration and fatigue life prediction. Elementary aspects of dynamic analysis and response. Texts/References T. Sarapkaya and M. Isaacson, Mechanics of Wave Forces on Offshore Structures, Van Nostrand, Reinhold Co., N.Y., 1981. C.A. Brebbla and S. Walker, Dynamic analysis of Offshore Structures, Newnes Butterworth, London, 1979. Proceedings of OTC and BOSS. CE 411 Design Lab. III 0 0 3 3 Complete design and drawings of two complete projects such as an industrial building, a residential building, a bridge, a stadium, elevated water tank, bunker, silo and shell roof. Texts/References Same as that for CE 403. CE 415 Transportation Engineering II 3 0 0 6 Prerequisite - CE 310 (Exposure) Airport Planning and Design Aircraft characteristics related to airport design; Airport configuration - runway configurations, relation of terminal area to runways, runway orientation; Geometric design of the airfield - ICAO and FAA design standards, runways, taxiways, holding aprons and aprons; Planning and design of the terminal area - apron-gate system, size and number of gates, aircraft parking configurations, the passenger terminal system; airport lighting and marking; air traffic control; airport planning and air travel demand forecasting; Structural design of airfield pavements. Railway Engineering Indian Railway Track - different gauges, cross sections, coning of wheels; Tractive resistances; Track components - rails, rail failures, sleepers, rail fixtures and fastenings and ballast; Geometric design of the track; Points and crossings Track junctions; Stations and yards; Signalling and interlocking; Track stresses; Track construction and maintenance; Text Books and References Horonjeff, R. Mckelvey, F. X. (1994). Planning & Design of airports, Mc Graw Hill, New York. Khanna, S. K. Arora, M. G. and Jain, S. S. (1994). Airport Planning and Design, Nemchand Bros., Roorkee. Ashford, N. and Wright, P. H. (1979). Airport engineering, John Wiley, New York. Sexena, S.C. Arora, S. P. (1990). A text Book of Railway Engineering, Dhanpat Rai & Sons, New Delhi. Mundary, J.S. Railway Track Engineering, Tat McGraw Hill, New Delhi. Agarwal, M. M. (1991). Indian Railway Track, Sachdeva Press, Mayapuri, New Delhi. Hay, W. W. (1988). Railroad Engineering, John Wiley and Sons, New York. Khanna, S. K. and Justo, C. E. G. (1991). Highway Material Testing - a Laboratory Relevant IRC and BIS standards. S.L. Dhingra, and G.V. Rao, Transportation Engg. Laboratory manual, C.D. Cell, Civil Engineering Department, IIT Delhi. CE 422 Hydraulic Structures 3 0 0 6 Detailed stress analysis of gravity dam, stress concentration around openings. Principles of design of outlets and galleries. Design of pen stocks and anchor blocks. Detailed design of high head and spillway gates. Analysis and design of surge chambers. Design of locks and jetties. Design of beams on elastic foundations as applied to dock floors. Texts/Reference W.P. Creager, J.D. Justin and J. Hinds, Engineering for Dams, Vol. II and III Wiley, 1968. D. Quinn,, Design and Construction of Ports and Marine Structures, McGraw Hill,1973. C.V. Davis, Handbook of Applied Hydraulics, McGraw Hill, New York, 1993. U.S. Deptt. Of Interior Design of Small Dams, U.S. Govt. Printing Press, Washington DC 1975. CE 424 Ground Water Hydrology 3 0 0 6 Occurance of groundwater aquifer types. Exploration of groundwater. Groundwater budget. Resistivity methods. Darcy?s law and its limitations. Formulation of governing equations for groundwater movement. Flow nets and its uses. Hydraulics of flow towards wells. Aquifer unsteady flow. Theis, Jacob and Chow?s methods multiple well system. Artificial recharge. Infiltration. Mechanics of recharge, stream aquifer interaction. Water logging. Theory of subsurface drainage. Seawater intrusion and its control, Approximate solution. Digital, Analog and Simple finite difference models for groundwater flow. Groundwater quality, Groundwater development and management. Texts/References H.M. Raghunath, Groundwater, 2nd Edition Wiley Eastern Ltd., 1987. D.K. Todd, Groundwater Hydrology, John Wiley and Sons, 1980. D.B. McWhorteer, D.K. Sundada, Ground-Water Hydrology and Hydraulics, Water Resources Publications, P.O. Box 303, Fort Collins Colorado, U.S.A. 1977. C.W. Fetter, Applied Hydrogeology, 2nd Edition, CBS Publishers and Distributors, New Delhi 110 032, 1990. CE 442 Machine Foundations 3 0 0 6 Principles of SHM, forced and damped vibrations in soil media. Tests for evaluation of dynamic coefficients. Design of simple foundations for turbogenerators, reciprocating engines of horizontal and vertical type, forge hammer etc. Machine foundation on sands and clays. Texts/References D.D. Barkan, Dynamics of Bases and Foundations, McGraw Hill, 1962. W.T. Thompson, Mechanical Vibrations, George Allen Unwin Ltd. S.P. Timoshenko et. al. Vibration Problems in Engineering, John Wiley. CE 448 Prestressed Concrete Design 3 0 0 6 Prestressing concepts, materials, systems of prestressing and losses. Introduction to working stress method, limit state analysis and design of members for bending. Shear torsion and axial forces. End block design. Deflections, use of relevant codes of practice. Texts/References T.Y. Lin, Design of Prestressed Concrete Structures, Asia Publishing House, 1955. N.Krishnaraju, Prestressed Concrete, Tata McGraw Hill, New Delhi, 1981. Y. Guyan, Limit State Design of Prestressed Concrete, Applied Science Publishers, 1972. CE 462 Elements of Structural Dynamics 3 0 0 6 SDOF System - Equation of Motion; Generalized SDOF system; Free Vibration; Harmonic Load; Periodic Load; Impulse Load; General Loads (Time and Frequency Domain analysis); Introduction of Nonlinear analysis; Seismic analysis. MDOF Systems - Systems - Property matrices; Undamped Free Vibration; Mode Superposition Techniques ; Practical Free-Vibration Analysis; Buildings; Seismic analysis; Code Provision. Texts/References R.W. Clough, J. Penzlen, Dynamics of Structures, McGraw Hill, 2nd ed. 1993. M. Paz, Structural Dynamics - Theory and Computation, Van Nostrand, 1985. IS : 1893 - 1984 Criteria for Earthquake Resistant Design of Structures. CE 463 Probabilistic and Statistical Methods in Civil Engineering 3 0 0 6 Role of probability in Civil Engineering; Random events, Random variables; functions of random variables; moments and expectations; Common probabilistic models - normal, lognormal, Poisson, extremal; estimation of parameters; goodness of fit tests; regression and correlation analyses, Introduction to structural reliability; FORM; elements of quality assurance and acceptance sampling. Texts/References H.S. Ang and W.H. Tang, Probability Concepts in Engineering Planning and Design, John Wiley, 1975. J.R. Benjamin and C.A. Cornell, ?Probability Statistics and Decision for Civil Engineers, McGraw Hill, 1975. R.Ranganathan, ?Relability Analysis and Design of Structures?, Tata McGraw Hill, New Delhi, 1990. CE 465 Numerical Methods in Civil Engineering 3 0 0 6 Computer applications in Civil Engineering, typical problem categories, techniques for linear problems, techniques for nonlinear problems. Algorithms in time domain using Runge - Kutta methods. Newmark B-method and finite-difference approaches: concept of stability of algorithm, propagation of errors in different algarithms. Use of commercial software for Civil Engineering Problems. Texts/References A Jennujs, Matrix computations for Engineers and Scientists, John Wiley & Sons (1977). S.D. Conte & C-de Boor, Elementary Numerical Analysis: An algorithmic Aapproach, 3rd ed., McGraw Hill (1980). CE 469 Advanced Solid Mechanics 3 0 0 6 Prerequisite : CE 102 and CE 201 Introduction to elasticity theory; Simple 2D/3D problems and their solutions; Pure bending of beams with unsymmetrical section; Shear Center; Thermal stresses; Torsion of noncircular members; Curved Beams; Beams on elastic foundation; Plasticity; failure theories; Energy methods; Thermal stresses; Introduction to viscoplasticity and viscoplasticity; Numerical methods; Coupled axial force and bending moment problems; coupled torsion and bending moment problems. Texts/References A.P. Boresi and O.M. Sidebottom, Advanced Mechanics of Materials, Fifth Edition, Wiley, Singapore, 1992. S.P. Timoshenko-Strength of Materials Vol. 2 - third Edition - CBS Publishers Delhi, 1991. CE 472 Transportation Planning and Management 3 0 0 6 Development objectives and goals, five year plans, levels of planning (urban and regional), regional planning and development theories and techniques, types and delineation of regions. Human settlement patterns. Role of transport in national development. Social, economic and political functions. Transport system and its subsystems. Transport modes and technologies. Family of modes; vehicles, travel ways, stops, stations and garages, operational performance, cost, energy, present and future roles. Road transport, rail transport, air transport, water transport new and future modes. Transport economics, theories, techniques, costs and benefits. Transport systems planning. Travel demand forecasting methods and models. Intermodel mix network optimization theories and techniques. Decision making. Transport and energy type and quantity of energy, efficiency, constrains, transport and environment transport management (policy, organisation, legal provisions), integration and coordination, information systems, data base. Texts/References Prakash Rao and Sundaram, Regional Development Planning in India, Vikas Publishing House, 1974. B.G. Hutchinson, Introduction to Urban Transportation Systems Planning, McGraw Hill, 1974. Vukan R. Vuchic, Urban Public Transportation Systems and Technology, Prentice Hall Inc., N.J., 1981. G.E. Gray and L.A. Hoel, Public Transportation Planning Operations and Management, Prentice Hall Inc., N.J., 1979. CE 478 Plastic Analysis and Design 3 0 0 6 Yield conditions and concepts of simple plastic collapse, collapse criterion, virtual work in elasto-plastic state, theorems of plastic collapse, methods of analysis and design. Graphical method, method of combining mechanisms, computer aided elasto- plastic analysis, interaction diagrams, applications to planar and space structures - multibay frames,, multistoreyed frames, grids, arches, virendeel girders, deflection at collapse, incremental collapse, minimum weight analysis, variable repeated loads, shakedown analysis, combined stress problems. Texts/References J. Heyman, Beams and Framed Structues, Second ed., Pergmon Press, Oxford. B.G. Neal, Plastic Methods of Structural analysis, Chapman and Hall. M.R. Horne, Plastic theory of structures, 2nd Ed., Pergamon Press, 1979. H.B. Harrison, Structural analysis and Design, 2ndf Ed., Pergman Press. P.G. Hodge, (Jr.), Plastic Analysis of Structures, McGraw Hill. J.A. Koing, Shakedown of Elastic-Plastic Structures, Elsevier, 1987. A.A. Cyras, Mathematical Models for the analysis and Optimization of Elasto Plastic Structures, Ellis Horwood Ltd., 1983. J.Baker and J.Heyman, Plastic Design of Frames, Cambridge University Press, 1969. B.P.Parikh, J.H. Daniels and L. Lu, Plastic Design of Multi-story frames Design aids, Lehigh University, Bethlhem Pennsylvania. CE 480 Computer Aided Design of Civil Engineering Systems 3 0 0 6 Essential features in a design software, User-machine interface, Computer graphics - coordinate systems and transformations, automatic generation of input-mapping techniques, Display of response quickness, Use of object oriented programming. Software for various design tasks, Heuristic approaches in Civil Engineering. Tools for developing programmes involving heuristic search Expert system shells and object oriented languages, Rule based systems, Neural networks. Texts/References Newman W.M., and Sproull, R.F. Principles of Interactive Computer Graphics, McGraw Hill, N.Y. 1988. Adeli H., Interactive Microcomputer-aided structural steel design, A New Generation, Prentice Hall, N.J., 1990. Adeli H., and Balasubramanyam, K.V., Expert Systems for Structural Design, Prentice Hall, N.J., 1991. Schildt H., Using C++, Borland-Osborne/ McGraw Hill, 1991. CE 482 Construction Management 3 0 0 6 Basic of construction industry organisation structure. Engineering economy in construction projects-personnel, monitoring and control work study in constructions - contracting. Bidding and law for engineers-value engineering, safety engineering etc. Texts/References Balters, A.Network for Planning and Scheduling, McGraw Hill Co., London, 1975. R.L. Peurifoy, Constructions Planning Equipments and Materials, McGraw Hill Co., 1975. J.L. Reggs. Engineering Economics, McGraw Hill Co., 1976. L.D. Miles, Techniques of Value analysis and Engineering, McGraw Hill co., 1970. CE 484 Concrete Technology 3 0 0 6 Cements, aggregates, water. Fresh concrete. Workability, consolidation and curing. Strength, elasticity, shrinkage and creep of concrete. Concrete mix-design. Destructive and non-destructive testing of hardened concrete, admixtures. Lightweight concrete. High density concrete (for nuclear shielding). Hot-weather and cold weather concreting. Quality control. Durability of concrete. Corrosion and protection of concrete. Polymer concrete. Texts/References F.M. Lue, Chemistry of Cement and Concrete, Edward Arnold, 3rd Edition, 1970. A.M. Neville, Properties of Concrete, Pitman, 1968. D.F. Orchardi, Concrete Technology, Wiley, 1962. CE 486 Rock Mechanics and Tunnelling Technology 3 0 0 6 Engineering properties of rocks, Surface and sub-surface investigation in rock including geophysical studies, Weathering of rocks, Discontinuities, Field and laboratory testing of rocks and rock masses, Stress-strain characteristics, Deformability of rocks, Friction and Shear strength, Slope stability, effect of water, analysis and design of tunnels, Blasting, Bolting, Tunnelling techniques, Application numerical techniques. Texts/References R.E. Goodman, Introduction to Rock Mechanics, John Wiley and Sons, New York, 1989. JACGER, Charles, Rock Mechanics and Engineering, Cambridge University Press, London, 1972. Megaw, T.M. and J.V. Bartlett, Tunnels : Planning, Design, Construction, International Edition, Ellis Horwood Limited, John Wiley and sons, New York, 1983. CE 488 ENVIRONMENTAL GEOTECHNICS 2 0 2 6 Hazardous wastes, Physical, Chemical and Mineralogical characterization, Geoenvironmental hazards: Natural and man made, Recycle and Reuse of Industrial waste(s). Role of Geotechnical engineering in environmental protection, Surface and subsurface contamination, Characterization of contaminated ground, Geoenvironmental site investigation and site assessment technologies.
Texts/References Acar, Y.B. and Daniel, D.E., "Geoenvironmental 2000: Characterization, Containment, Remediation & Performance in Environmental Geotechnics," ASCE, NY.
Hari, D.S. and Krishna R.R., "Geoenvironmental Engineering: Site Remediation, Waste Containment, and Emerging Waste Management Technologies," Wiley. USA
Oweis, I.S. and Khera, R.P., "Geotechnology of Waste Management," 2nd Ed, PSW Publishing Company, USA.
Rees, J.F., "Contaminated Land Treatment Technologies," SCI, Elsevier Applied Science, NY, USA.
CE 492 Elements of Remote Sensing 3 0 0 6 Radiation principles and interactions; Photography, photogrammetry, photo interpretation elements and applications; Satellite imaging; Multispectral, thermal, hyperspectral scanners and radiometers; Microwave radar imaging; Visual interpretation and digital analysis of imagery and applications. Textsd/References T.M. Lillesand and R.W. Kiefer, Remote Sensing and Image Interpretation, John Wiley & Sons, New York, 1994. J.B. Campbell, Introduction to Remote Sensing, Taylor & Francis, London, 1996. F.F. Sabins, Remote Sensing : Principles and Interpretation, W.H. Freeman and Company, New York, 1997. R.N. Colwell (Editor-in-Chief), Manual of Remote Sensing, Vol. I & II, American Society of Photogrammetry, Falls Church, Virginia, 1983. CE 490 Reinforced Earth 3 0 0 6 Principle of reinforcement of ground. Various reinforcing methods such as sand drain soil nailing, geotextiles, geocones and geosynthetic materials. Mechanics of interaction between reinforcing element and soil. Properties of reinforcing materials. Applications of reinforcing techniques to the practical problems such as retaining walls, slopes, footings etc. Design methods. Texts/References International Conference on soil reinforcement, Reinforced Earth and other Techniques, Paris, March, 1979. Second International Conference on Geotextiles, Lan Vegas, August, 1982. International Conference on In Situ Soil and Rock Reinforcement, Paris, October 1984. CE 620 Finite Element Method 3 0 0 6 Principles of discretization; Element stiffness mass formulation based on direct, variational and weighted residual techniques and displacements, hybrid stress and mixed approaches, shape functions and numerical integrations, convergence; displacement formulations for rectangular, triangular and isoparametric elements for two dimensional and axisymmetric stress analysis; thin and thick plates and shells; Semianalytical formulations; Three dimensional elements and degenerated forms; Stiffener elements and modifications such as use of different coordinate systems, use of nonconforming modes and penalty functions; Application to layered composite plate/ shells, bridge, roof, nuclear and offshore structures; Hybrid stress and mixed formulations for plates. Texts/Reference O.C. Zienkiewicz, The Finite Element Method, Tata McGraw Hill, 1977. CE 676 Water Resources System 3 0 0 6 Objective of water resources development, economic analysis and discounting techniques, conditions of project optimality, graphic optimization techniques for multipurpose projects, analytical optimization techniques for water resources projected by linear programming, non-linear programming and dynamic programming, optimization by simulation, mathematical models for large scale multipurpose projects, different case studies, stochastic optimization techniques, water quality subsystems, optimum operation model for reservoir systems by incremental dynamic programming, sequencing of multipurpose project. Texts/References Arthur Mass et.al., Design of Water Resources Systems, MacMillan, 1962. L.D. James and R. R. Leo, Economics of Water Resources Planning, McGraw Hill, New York, 1971. W.A. Hall and J.A. Dracup, Water Resources Systems Engineering, McGraw Hill, New York, 1970. INSTITUTE COMPULSORY COURSES:: CE 102 Engineering Mechanics 2 1 0 6 1. Equivalent Force Systems: Basic concepts of force-couple systems, planar force systems; parallel force systems; simplest equivalent for general force system - "wrench", distributed force systems. (4 lectures, 2 tutorials). 2. Equations of Statics and its Applications: Simple frictionless rigid body assemblies; two- force members; machines; trusses; cables; rigid body assemblies including friction. (10 lectures, 5 tutorials). 3. Virtual Work and Potential Energy Principles: Application of these principles as replacement of equations of statics for real life problems. (3 lectures, 1 tutorial). 4. Vibrations: Equations of motion for single degree-of-freedom systems and rigid body assemblies; free vibration (simple harmonic oscillator); concepts of damping and critical damping; damped free vibration; equations of motion for harmonic excitation; transient and steady state vibrations; illustration of MDOF systems concepts with two degree-of- freedom systems. (8 lectures, 4 tutorials). Texts/References Shames I.H., Engineering Mechanics, Prentice Hall, New Delhi, 1997 Beer, F.P. and Johnston, ? Mechanics for Engineers, McGraw Hill, New Delhi 1987. CH 101 Chemistry-I 2 1 0 6 Failure of classical mechanics; uncertainty principle; wave nature of particle; postulates of quantum mechanics and the Schrodinger equation; particle in a box; hydrogen atom; atomic and molecular orbitals; chemical bonding and molecular energy levels. State functions; entropy (S) and free energy (G); relation between G and emf, Calculations of S, G; fugacitics and activities and the equilibrium constant; Rate laws and orders; steady state approximation; Chain reactions (polymerisation, explosion); Photochemical reactions; Molecular reaction dynamics (Activated complexes, potential energy surfaces and trajectories) Catalysis. Texts/References B. Mahan, University Chemistry, 4th Edition, Narosa. P. Atkins, Physical Chemistry, 4th and 5th editions ELBS. CH-102 Chemistry-II 2 1 0 6 Trends in the periodic table; metallurgy; basic principles and applications; purification of elements and metals; transition metal ions and complexes; coordination chemistry, redox chemistry, magnetochemistry, photochromism, role of metal ions in biological processes; some relevant uses of transition elements; lanthanides, property trends in s- and p- block elements; liquid ammonia solutions; Grignard reagent; semiconducting and super conducting materials; silicones; silicates; zeolites; VSEPR; alkoxides; oxygen activation; nitrogen fixation; CFC's Teflon, spinal. Structure and properties of organic molecules; relationship between shapes and properties of organic molecules - a perspective. Physical properties - intra- and inter -class variations. Conformations of alkanes and cycloalkanes; configurations, molecular chirality, geometrical isomerism. Linear and cyclic conjugation, benzene, aromaticity, properties of conjugated systems. Reactivity, reaction types, reaction mechanisms, nucleophilic substitution reaction, electrophilic and free radical addition reactions, electrophilic aromatic substitutions, nuecleophilic addition; principles of nucleophilic addition to carbonyl groups; hydrolysis of ester and amides, their catalysis and significance; electronically excited states and photochemical reactions. Molecular systems of technological and biological importance. Fats and oils, amphiphilic molecules and their organization. Soaps and detergents. Amphiphiles in action and mechanism of detergent action. Synthetic and natural polymers, polymer properties, Biopolymers- polypeptides, cellulose and starch. Self Study: Sources of organic compounds, products from coal and petroleum. Nomenclature of organic compounds. Texts/References R.T. Morrison and R.N. Boyd, "Organic Chemistry" 5th Edition, Prentice Hall of India Ltd., New Delhi, 1990. CH 115 Chemistry Lab-1 0 0 1.5 1.5 Experiments illustrating the concepts of 1) galvanic cells, 2) thermochemistry, 3) chemical kinetics, 4) equilibrium constant, 5) analysis by oxidation reduction titration. CH 116 Chemistry Lab- II 0 0 1.5 1.5 Experiments pertaining to 1) volumetric analysis by complexometry, 2) analysis by ion exchange resins, 3) analysis of a drug, 4) organic/inorganic synthesis, 5) instrumental methods of analysis. CS 101 Computer Programming and Utilization 2 0 2 6 Basic organization of computer and its functional units. Problem solving skills and algorithm design. Fortran programming language; control structures like selection, looping; modular design using functions & subroutines; basic data structuring concepts - arrays, strings; input output methods. Laboratory exercises will include assignments such as sorting, searching, matrix manipulation and problems from engineering domain. Time permitting, C or C++ may be introduced. Texts/References: Mayo, W.E. & Cwiakala, M. "Programming with Fortran 77" Schaum's Outline Series, McGraw Hill, 1995. Metcalf, M. & Reid, J. "Fortran 90 explained" Oxford University Press, 1990. Brainerd, W.S.: Goldberg, C.H.; Adms, J.C. "Programmer's guide to Fortran 90" Intertext Pub.; New York, 1990. HS-101 Economics 3 0 0 6 Basic economic problems. Resource Constraints and Welfare maximization. Nature of Economics: Positive and normative economics; Micro and macroeconomics, Basic concepts in economics. The role of the State in economic activity; market and government failures; New Economic Policy in India. Theory of utility and consumer's choice. Theories of demand, supply and market equilibrium. Theories of firm, production and costs. Market structures. Perfect and imperfect competition, oligopoly, monopoly. An overview of macroeconomics, measurement and determination of national incole. Consumption, saving, and investment. Commercial and central banking. Relationship between money, output and prices. Inflation - causes, consequences and remedies. International trade, foreign exchange and balance payments, stabilization policies: Monetary, Fiscal and Exchange rate policies. Text:/ References: P.A. Samuelson & W.D. Nordhaus, Economics, McGraw Hill, New York, 1995. Koutsoyiannis, Modern Microeconomics, Macmillan, 1975. R. Pindyck and D.L. Rubinfeld, Microeconomics, Macmillan Publishing Company, New York, 1989. R.J. Gordon, Microeconomics 4th Edition, Little Brown & Co., Boston, 1987. William F. Shughart II, The Organization of Industry, Richard D. Irwin, Illinois, 1990 (Chapter 3). HS-202 Introduction to Philosophy 3 0 0 6 The course will acquaint the students of science and engineering with some issues on the nature and methods of science and mathematics, and the ethical issues arising out of the application of science and technology. The objective is to develop a critical, reflective and historical awareness on the issues relating to the following topics: Philosophy and History of Science: Growth of scientific knowledge: factors leading to the emergence of modern science. Conceptual evolution: internal and external history. Methodology of science: induction falsificationism, confirmation and probability. Nature of scientific laws and theories: realism, instrumentalism and underdetermination. Relationship between scientific observation, experiment and scientific theory. Nature of scientific explanation: teleological explanations and the covering law model. Selected case studies on scientific theories. Logic and the nature of mathematical reasoning: inductive and deductive forms of reasoning. Nature of axioms: formal axiomatic systems: Concept of consistency, independence and completeness. Nature of rules of inference and proof. Selected examples of axiomatic systems and proof procedures. Cognition: Current approaches to the understanding of mind and mental process: empiricist, rationalist, behaviourist and cognitivist. Ethics: Impact of science and technology on man and society: elements of environmental and professional ethics. Texts / References A.C. Grayling (ed.) Philosophy; A Guide through the subject, Oxford Univ. Press, Londown 1995. Marx W. Wartofsky, Conceptual Foundations of Scientific Thought: An Introduction to the Philosophy of Science, Macmillan, London 1968. I.B. Cohen, The Birth of a New Physics, Penguin Books, 1985. H.Eves and C.V. Newsom, Foundations and Fundamental Concepts of Mathematics, Boston, PWS-Kart Pub. Co.,1990. K.E. Goodpaster and K.M. Sayre(eds) Ethics and Problems of 21st Century, Univ. of Notre Dame Press, London, 1979. S.D. Agashe, a. Gupta & K. Valicha (eds.) Scientific Method, Science, Technology and Society: A Book of Readings, Univ. of Bombay Press 1980. HS-203 Introduction to Psychology 3 0 0 6 Understanding human experience and behaviour: Definition, schools, methods, branches and application of psychology for engineers; Measuring human abilities; Intelligence, Personnel testing; The individual working life; Personality - definition, approaches and theories; Psychological problems of everyday life: Stress and coping; Psychological disorders, work and mental health ; Human learning; Motivation: the concept and theoretical framework, motivating people at work; Attitude and work behaviour, Group dynamics. Intergroup relations, conflict resolutions; Leadership and management. References: McConnel, J.V. (1986) Psychology, New York: Holt, Rinhart & Winstonl Morgan, C.T., King, R.A., Weiss, J.R., & Schopler, J. (1986). Introduction to Psychology (VIIth Ed.), New York: McGraw-Hill. Myers, D.G. (1995). Psychology (Ivth Ed.), New York: Worth. Asch, S.E. (1987), Social Psychology, OUP Oxford. HS-204 Introduction to Literature 3 0 0 6 1. Nature of Literature: Literature as a Humanistic Experience. Definitions: (i) Humanities: concern with culture, values, ideologies; (ii) Literature: concepts of imitation, expression, intuition & imagination. 2. Major Themes of Literature: Nature, Science, Selfhood, Love, Rebellion. 3. The Language of Literature: Modes of literary and non-literary expression. The concepts of Figurative language, Imagery, symbolism, Style. 4. The forms of Literature: Prose Narratives (short stories & novels), Poetry, Drama and Essays. Note: (i) Suitable texts are to be chosen by the instructor from the Texts and References listed below as well as from other sources (ii) Use of a Learner Dictionary (e.g. Oxford Advanced Learner's Dictionary is prescribed for language work). Texts / References David Murdoch (Ed.). The Siren's Song: An Anthology of British and American Verse, Orient Longman, 1988. S. Alter & W.Dissanayake (eds.) The Penguin Book of Modern Indian Short Stories. Penguin Books (India), 1989. Bertrand Russell, Impact of Science on Society. Alln & Unwin, 1952. Henrik Ibsen, A Doll's House, Macmillan India, 1982. George Orwell, Animal Farm, Penguin, 1951. J. Bronowski. The Ascent of Man, BBC, 1973. HS 205 Introduction to Sociology 3 0 0 6 1. What is sociology, some sociological concepts: Social structure, status, role, norms, values etc. Socialization, and culture and change. (6 lectures) . 2. Social stratification - various approaches and concept of social mobility. (4 lectures). 3. Population and society - Trends of demographic change in India and the world; Human Ecology; Trends of Urbanization in the developing countries and the world. 4. Major social institutions - Family and marriage, caste and tribe; Organizations: (i) formal organization (bureaucracy) (ii) informal organization (8 lectures). 5. Processes of social change - Modernization (including Sanskritization), industrialization, environmental / ecological changes and Development. 6. Social movements - protest movements, reformist movement and radical movements in India. (8 lectures). References L. Broom, P. Selznick and D. Dorrock, Sociology, 11th Edn. 1990 (Harper International). M. Haralambos Sociology: Themes and Perspectives, Oxford University Press, 1980. M.S.A. Rao(ed) Social movements in India, Vols. 1-2, 1984, Manohar. David Mandelbaum, Society in India, 1990, Popular. M.N. Srinivas, Social change in modern India, 1991, Orient Longman. Guy Rocher, A. General Introduction to Sociology, MacMillan, 1982. MA-103 Mathematics I 2 0 2 6 Review of the prerequisites such as limits of sequences and functions, continuity, uniform continuity and differentiability. Rolle's theorem, mean value theorems and Taylor's theorem. Newton's method for approximate solution. Riemann integral and the fundamental theorem of integral calculus. Approximate integration. Applications to length, area, volume, surface area of revolution. Moments, centres of mass and gravity. Review of vectors. Cylinders and quadric surfaces. Vector functions of one variable and their derivatives. Partial derivatives. Chain rule. Gradient, directional derivative. Tangent planes and normals. Maxima, minima, saddle points. Lagrange multipliers. Exact differentials. Repeated and multiple integrals with applications to volume, surface area, moments of inertia etc. Texts / References: G.B. Thomas, and R.L. Finney, Calculus and Analytic Geometry, 6th ed., Addition- Wesley/Narosa, 1985. T.M. Apostol, Calculus, vol. 1, 2nd ed., Wiley Eastern, 1980. MA-104 Mathematics II 3 0 2 8 Vector fields, surface integrals, line integrals, independence of path, conservative fields, divergence, curl, Green's theorem. Divergence theorem of Gauss, Stokes' theorem and applications of these theorems. Transformations of coordinate systems and vector components. Invariance of divergence and curl. Curvilinear coordinates. Vector spaces. Inner products. Matrices and determinants, linear transformations. Systems of linear equations. Gauss elimination, rank of a matrix. Inverse of a matrix. Bilinear and quadratic forms. Eigenvalues and eigenvectors. Similarity transformations. Diagonalization of Hermitian matrices. Numerical methods for solving systems of linear equations. Ill-conditioning. Methods of Gauss and least squares. Inclusion of matrix eigenvalues. Finding eigenvalues by iteration. Texts / References E. Kreyszig, Advanced Engineering Mathematics, 5th ed., Wiley Eastern, 1985. V. Krishnamurthy, V.P. Mainra and J.L. Arora, An Introduction to Linear Algebra, Affiliated East-West, 1976. T.M. Apostol, Calculus, Vol. II, 2nd ed., Wiley Eastern, 1980 ME 111 Workshop Practice 0.5 0 3 4 Introduction to wood working, kinds of woods, handtools and machines, pattern making, types of patterns, contraction allowance, draft and machining allowances. Principles of moulding methods, cores and core boxes. Introduction to fitting shop tools, equipment and operations. Sheet metal practice. Exercises: Simple exercises in patternmaking, moulding, fitting and sheet metal work. Text / Reference S.K. Hajra choudhury, Elements of Workshop Technology, Vol. I Asia Publishing House, 1986. ME 112 Workshop Practice II 0.5 0 0 4 Introduction to safety measures, introduction to the principles of working, construction, operation, types of cutting tools, selection of cutting speeds and feeds etc. regarding basic machine tools e.g. lathe, shaping, slotting, milling and grinding machines, etc. Introduction to gas and arc welding processes, soldering and brazing. Exercise; simple jobs on centre lathe and shaping machines and welding. Demonstrations; Slotting, milling and grinding machines. Text / Reference S.K. Hajra choudhury, Elements of Workshop Technology, Vol. II Asia Publishing House, 1986. ME 118 Engineering Graphics and Drawing 0 1 3 5 Introduction of drawing instruments, lettering, lines and dimensioning. Construction of simple geometrical figures. Simple orthographic projections, first and third angle. Missing views and lines. Isometric views. Free hand sketching. Projection of points and lines. Projection of planes and solids. Section of solids. Orthographic projections of simple machine elements like couplings, tools post, I.C. engine components etc. using half, full sections. Simple assembly and part drawings. Introduction to AutoCAD. References /Books: Engineering Drawing and Graphics, K. Venugopal, New Age International (P) Ltd., 1995. Engineering Drawing , N.D., Bhat and V.M.Panchal, ? Charotar Publishing House, Anand, 1996. PH 101 Physics I 2 1 0 6 Mechanics Physical quantities, dimensional analysis, velocity and acceleration in plane polar coordinates. Conservation of momentum: many particle system, collision in two dimensions, system with variable mass, principle of rocket motion. Motion of rigid bodies: kinematics of rigid body motion, Euler angles, fixed axis rotation, inertia tensor, motion of a symmetrical top. Special theory of relativity: Galilean relativity, Michelson Morley experiment, Fitzgerald contraction and time dilation, Lorentz transformation, Einstein's formulation of special relativity, space time viewpoints, four vectors. PH 102 Physics II 2 1 0 6 Electricity and Magnetism Electrostatics: Coulomb's law, Gauss's theorem, electric potential, Laplace's equation, Poisson's equation, electrostatics with conductors, capacitors, dielectrics. Magnetostatics: Biot Savart's law, Ampere's law, Lorentz force. Magnetic Induction: Faraday's law, lenz's law, self and mutual inductance, energy in a magnetic field, LCR circuit, resonance. Maxwell's equations: Displacement current, electromagnetic waves, Plane wave solutions of Maxwell's equation, Poyinting vector, wave propagation through a boundary, reflection, refraction, absorption ;and skin depth. PH 115 Physics Lab I 0 0 1.5 1.5 PH 116 Physics Lab II 0 0 1.5 1.5 MA 203 Mathematics III 3 1 2 8 Ordinary differential equations of the 1st order, exactness and integrating factors, variation of parameters, Picard's iteration method. Ordinary linear differential equations of nth order, solution of homogeneous and nonhomogeneous equations. Operator method, Methods of undetermined coefficients and variation of parameters. Systems of differential equations. Phase plane. Critical points. Stability. Infinite sequences and series of real and complex numbers, improper integrals. Cauchy criterion, tests of convergence, absolute and conditional convergence. Series of functions. Improper integrals depending on a parameter. Uniform convergence. Power series, radius of convergence. Power series methods for solutions of ordinary differential equations. Legendre equation and Legendre polynomials, Bessel equations and Bessel functions of first and second kind. Orthogonal sets of functions. Strum-Liuville problems. Orthogonality of Bessel functions and Legendre polynomials. Laplace transform. Inverse transform. Shifting on the s and t axes, convolutions, partial fractions. Fourier series, half-range expansions. Approximation by trigonometric polynomials. Fourier integrals. Transform techniques in differential equations. Texts / References E. Krelyszing, Advanced Engineering Mathematics, 5th ed., Wiley Eastrn, 1985. W.E. Boyce and R.C. DiPrima, Elementary Differential Equations and Boundary Value Problems, 3rd ed., Wiley, 1977. G.F. Simmons, Differential Equations with Applications and Historical Notes, Tata McGraw-Hill, 1972. PH 209 Physics III 2 1 0 6 Origin of quantum theory, wave particle duality, photoelectric effect, Bohr atom model, quantum numbers. Elements of quantum statistics: MaxwellBoltzmann, Bose-Einstein and Fermi-Dirac distributions, applications. Solids: crystal structures, metals, and insulators, intrinsic and extrinsic semiconductors, semiconductor-devices. Magnetic properties dia, para, ferro and antiferromagnetism. Magnetic materials and devices, ferroelectrics. Optical properties lasers, holography, fiber optics, Superconductivity. Production flow temperatures and high magnetic fields. Structure of the atomic nucleus, mass and binding energy, radioactivity and its applications, law of radioactive decay. Conventional and non-conventional sources of energy. Nuclear fission and fusion. Texts / References S.H. Patil, Elements of Modern Physics, Tata McGraw Hill, 1989. H.S. Mani and G.K. Mehta, Introduction to Modern Physics, Affiliated East West, 1988 F.K. Ritchmyer, E.H. Kennard and T. Lauritsen, Introduction of Modern Physics, McGraw Hill, 1969. A.Beiser, Perspectives in Modern Physics, New York, McGraw Hill 1969. EE 002 Principles of Electrical Engg. 2 1 0 6 Fundamental laws of electrical engineering circuit parameters, elementary network theory forced and transient response, sinusoidal steady state response three-phase circuits, magnetic circuit and transformers. Texts / References M.A. Pal, Introduction to Electrical Circuits and Machines, Affiliated East-West Press, 1975. Vincent Eltoro, Principles of Electrical Engg. 2nd Ed., Prentice Hall, 1986. EE 003 Principles of Electrical Engg. Lab. 0 0 1.5 1.5 The laboratory work will be closely parallel and supplement the theory presented on the course: Principles of Electrical Engg. (EE 002). EE 004 Electronics 2 1 0 6 Semiconductor diode characteristics, transistor characteristics. Biasing circuit small signal low frequency h-parameter model. Low frequency transistors, amplifiers. FET biasing and low frequency amplifier circuits RC-coupled amplifiers and oscillators. Rectifiers and power supplies. Elements of IC regulated power supply. Op-Amps: Parameters and Characteristics, inverting and non-inverting mode of its operation, linear applications including the use of op-amps in analog computations and active filters. Introduction to digital circuits, modulation and demodulation. Text/References: Allen Mottershed, Electronic Devices and Circuits an Introduction, EEE Publication 12th Indian Reprint, 1989. Y.N. Bapat, Electronic Devices and Circuits Tata McGraw Hill, 9th Reprint 1988. A.P. Malvino, Electronic Principles, 3rd TMH Ed. Tata McGraw Hill, 12th Printing 1989. EE 005 Electronic Laboratory 0 0 1.5 1.5 Based on the course EE 004 (Electronics) GS 309 Geology 3 0 0 6 Mineralogy, Petrology (igneous, sedimentary and metamorphic), Structural geology. Engineering properties of rocks. Geomorphology (geomorphic processes- weathering, erosion, soils). Geological exploration of an engineering site. Geological hazards (landslides, earthquakes and volcanoes). Groundwater, Geological factors affecting the construction of dams, reservoirs and tunnels. Recent concepts on geology. Plate tectonics and Sea-floor spreading, Indian Geology. Texts / References: Blyth, F.G.H. and de Freitas, M.H. Geology for Engineers, ELBS, 1994. Goodman, R.E. Engineering Geology, John Wiley and Sons, NY, 1993. Skinner, B.J. and Porter, S.C. The Dynamic Earth-An Introduction to Physical Geology, John Wiley and Sons, N.Y. 1989. McLean, A.C. and Gribble, C.D. Geology for Civil Engineers, 3rd Ed., Unwin Hyman, London, 1988. Read, H.H. Rutley's Elements of Mineralogy, CBS Publisher, 1991. GS 316 Geology Laboratory 0 0 3 3 Mineralogy, Optics, Study of rocks in hand specimen and under microscope. Topographical maps. Structural Geological maps. Structural Geological problems. Engineering Geological maps and Engineering Geological experiments. Geological field work in and around Mumbai. Texts / References: Blyth, F.J.H. and de Freitas, M.H. Geology for Engineers, ELBS, 1994. Read, H.H. Rutley's Elements of Mineralogy, CBS Publisher, 1991. Billings, M.P. Structural Geology, Prentice Hall Inc., 1992. Gokhale, K.V.G.K. and Rao, D.M. Experiments in Engineering Geology, Tata McGraw Hill, 1981.