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Re: IITG Civil Department
There are several Departmental Electives offered by IIT Guwahati (IITG) for B.Tech Civil Engineering Course. Here I am providing list of all Departmental Electives: IIT Guwahati (IITG) Departmental Electives for B.Tech Civil Engineering: CE411 Dynamics of Structures (3 0 0: 6) CE412 Mechanics of Composite Materials (3 0 0: 6) CE413 Finite Element methods in Engineering ( 3 0 0 : 6) CE414 Advanced Structural Mechanics (3 0 0: 6) CE415 Prestressed Concrete and Industrial Structures (3  0 – 0: 6) CE416 Bridge Engineering (3 0 0: 6) CE417 Experimental Stress Analysis (3  0  0 : 6) CE 418 Pavement Management Systems (300 : 6) CE419 Principles of Remote Sensing (300: 6) CE420 Information Technology in Construction Engineering (300:6) CE421 Design of Foundations and Retaining Structures (3 – 0 0 : 6) CE422 Ground Improvement and Ground Engineering (3 – 0 0 : 6) CE 423 Quantitative Methods in Construction Management (300:6) CE432 Hydraulic Machines (300:6) CE434 Groundwater Hydrology and Management (3  0  0 : 6) CE441 Air Pollution and Industrial Waste Management ( 3  0  0 : 6) CE442 Pavement Design (3 – 0 0 : 6) CE443 Computer Aided Design (3 – 0 0: 6) CE444 Environmental Management (3  0  0 : 6) CE445 Solid Waste Engineering (300:6) CE 201 Surveying (303 : 9) Introduction to surveying; linear measurements; chain surveying; compass surveying; accuracy, precision and errors, leveling; plane table; contouring, theodolite surveying, tacheomatric survey; trigonometrical surveying; triangulation; curves; advanced survey instruments; Electronic Distance Measurement, Total station and Global Positioning System, Introduction to photogrammetry and remote sensing. List of the Experiments Open and closed Traversing with chain and compass, Road leveling for both longitudinal and Cross sectioning, Fly leveling, Contouring, Plane Table Surveying, Theodolite Traversing, Determination of Tacheometric constants K and C, Area and volume determination by planimeter, Simple Circular Curve with both linear method and instrument method, Setting out of the combined curve, Demonstration of Total Station, Electronic Distance Measurement, Electronic Theodolite, Visual analysis of Satellite Data. CE 202 Solid Mechanics (310: 8) Force Transmission and Deformation, continuum, isotropy, homogeneity, conservation of linear momentum, angular momentum and mass, Cauchy Axiom and definition of stress tensor, equation of equilibrium, Principal stress and Principal plane, Strain at a Point: Displacement of a point and relative displacement of line segments, Green Lagrange strain tensor and small strain tensor, Compatibility requirements, Constitutive relations, Relationships between various material constants for linear elastic materials, Boundary Value Problems, Energy Formulation for deformable body: Principle of minimum potential energy, Virtual work method, Failure criteria for materials, Uniaxial tension in bar, thermal stresses. Torsion of right circular section and noncircular section, Bending of Beams, bending moment and shear force diagrams, Stresses due to shear, Shear center, Deflection of beams, Buckling of Columns: Euler’s formula, different end conditions and effective length, energy method. CE 204 Civil Engineering Drawing (1 0 3: 5) Introduction to the code of practice for building drawing: plan, elevation and section of different residential and public buildings. Introduction to functional planning of residential and commercial buildings Introduction to drafting packages such as AutoCAD. Practices: Drawing of plan, elevation, sectional view of various buildings and other Civil Engineering Structures CE203 Fluid Mechanics (212:8) Fluid properties; Pressure measurement; Hydrostatic forces on plane and curved surfaces; Buoyancy and equilibrium; Stability, metacentric height; Types of flow; Continuity; Energy and momentum equations; Velocity distribution and velocity coefficients, practical applications; Navier Stoke equation; Shear stress and pressure gradient; Flow through pipes, HagenPoiseuille equation; Turbulence, Prandtl's mixing length, eddy viscosity; DarcyWeisbach equation for flow through pipes, friction factor, Moody diagram, minor losses, pipes in series and parallel, equivalent length, pipe network analysis; Water hammer; Boundary layer concept, drag coefficients, control of boundary layer; Dimensional analysis and similitude. List of Experiments Measurement of fluid pressure using various manometers and gauges., Experimental study on capillarity, Determination of coefficient of viscosity of a fluid using viscometer, Experimental study on stability of floating bodies, Study on fluid pressure distribution on immersed bodies, Study of different types of flow using Reynold’s apparatus, Determination of friction factor in pipes using pipe friction apparatus., Experimental study on flow nets using HeleShaw apparatus, Experimental study on cavitations., Study of flow behavior in open channels using tilting flume.
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