Course Description
Introduces tensor analysis, deformation and strain measurements, stress
and its relation to force and moment, the basic principles of equilibrium,
geometric compatibility, and material behaviors. Discusses energy methods,
finite deformation theory, and constitutive equations. Applies these
concepts to the analysis of some engineering problems.
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| Reference Books
1. Elasticity in Engineering Mechanics, 2nd edition, by Arthur R. Boresi
and Ken. P. Chong. Wiley Interscience Publication, New York, 2000.
2. Classical and Computational Solid Mechanics, Fung, Y.C., Tong, P., World Scientific Publishing, Singapore, 2001.
3. Nonlinear Solid Mechanics, A Continuum Approach for Engineering, Holzapfle, G.A., John Wiley & Sons, New York, 2000.
4. Continuum Mechanics: Concise Theory and Problems, Chadwick, P. Dover Publications,1999.
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