Module 1
Deflection of determinate beams: Differential equation of the elastic curve- slope and deflection of beams by method of successive integration-Macaulay’s method- moment area method-conjugate beam method-deflection due to shear.
Deflection of determinate beams: Differential equation of the elastic curve- slope and deflection of beams by method of successive integration-Macaulay’s method- moment area method-conjugate beam method-deflection due to shear.
Module 2
Energy Theorems: Strain energy due to axial load-bending-shear and torsion-principle of super position-principle of virtual work-Castigliano’s first theorem-Betti’s theorem-Maxwell’s law of reciprocal deflection-unit load method and strain energy method for determination of deflection of statically determinate beams-pin jointed frames-effect of temperature-lack of fit.
Energy Theorems: Strain energy due to axial load-bending-shear and torsion-principle of super position-principle of virtual work-Castigliano’s first theorem-Betti’s theorem-Maxwell’s law of reciprocal deflection-unit load method and strain energy method for determination of deflection of statically determinate beams-pin jointed frames-effect of temperature-lack of fit.
Module 3
Moving loads and influence lines: effect of moving loads-influence lines for reaction, shear force and bending moment for determinate beams-load position-absolute maximum bending moment.
Moving loads and influence lines: effect of moving loads-influence lines for reaction, shear force and bending moment for determinate beams-load position-absolute maximum bending moment.
Module 4
Arches: Theoretical arch-Eddy’s theorem-analysis of three hinged arches – moving loads on arches-settlement and temperature effect.
Arches: Theoretical arch-Eddy’s theorem-analysis of three hinged arches – moving loads on arches-settlement and temperature effect.
Module 5
Cables and suspension bridges: General cable theorem-analysis of cables under concentrated and uniformly distributed loads-shape and stresses due to self weight-anchor cables-temperature effect-suspension bridges with three hinged and two hinged stiffening girders-influence lines for bending moment and shear force-temperature stresses in stiffening girder.
Cables and suspension bridges: General cable theorem-analysis of cables under concentrated and uniformly distributed loads-shape and stresses due to self weight-anchor cables-temperature effect-suspension bridges with three hinged and two hinged stiffening girders-influence lines for bending moment and shear force-temperature stresses in stiffening girder.
References
1. Reddy C.S., Basic Structural Analysis, Tata McGraw Hill Publishing Co.1996.
2. Smith J.C. Structural Analysis, Macmillian Pub.Co.1985.
3. Rajesekharan &Sankarasubramanian,G., Computational Structural Mechanics,
Prentice Hall of India, 2001.
4. Wang C.K.& Solomon C.G., Introductory Structural Analysis, McGraw Hill.1968.
5. Sadhu Sindh, Strength of Materials, Khanna Publishers, 1988.
6. Seeli F.B.& Smith J.P., Advanced Mechanics of Materials, John Wiley &Sons, 1993.
7. Norris & Wilbur, Elementary Structural Analysis, McGraw Hill.
8. Junarker S.R., Mechanics of Structures, Vol. II, Charorbar Book Stall.
9. Timoshenko S.P, Young D.H., Theory of structures, McGraw Hill
10. Thadani B.N, Desai J.P, Structural mechanics, Weinall Book Corporation.
11. Punmia B.C., Strength of materials and theory of structures, Vol.II, Laxmi publications.
2. Smith J.C. Structural Analysis, Macmillian Pub.Co.1985.
3. Rajesekharan &Sankarasubramanian,G., Computational Structural Mechanics,
Prentice Hall of India, 2001.
4. Wang C.K.& Solomon C.G., Introductory Structural Analysis, McGraw Hill.1968.
5. Sadhu Sindh, Strength of Materials, Khanna Publishers, 1988.
6. Seeli F.B.& Smith J.P., Advanced Mechanics of Materials, John Wiley &Sons, 1993.
7. Norris & Wilbur, Elementary Structural Analysis, McGraw Hill.
8. Junarker S.R., Mechanics of Structures, Vol. II, Charorbar Book Stall.
9. Timoshenko S.P, Young D.H., Theory of structures, McGraw Hill
10. Thadani B.N, Desai J.P, Structural mechanics, Weinall Book Corporation.
11. Punmia B.C., Strength of materials and theory of structures, Vol.II, Laxmi publications.