C.1: Basic concepts of force, stress, strain, and displacement. p. 1. C:2 :Stress and strain. Transformations, equilibrium, and compatibility. p. 46. C.3: A review on the fundamental formulations of stress, strain, and deflection. p. 113. 4: Concepts from the theory of elasticity. p. 220. C.5: Topics from advanced mechanics of materials. p. 261. 6: Energy techniques in stress analysis.p. 404. C.7: Strength, failure modes, and dessign considerations. p. 498. C.8: Experimental stress analysis. p. 597. C.9: Introduction to the finite element method. p. 673. C.10: Finite element modeling tecchniques. p. 789. Appendix A: SI and USCU conversion. p. 843. Appendix B: Properties of cross sections. p. 845. Appendix C: Beams in bending. p. 849. Appendix D: Singularity functions. p. 858. Appendix E: Principal second-area moments. p. 868. Appendix F: Stress concentration factores. p. 873. Appendix G: Strain gage rosette equations. p. 879. Appendix H: Corrections for the transverse sensitivity of strain gages. p. 883. Appendix I: Matrix algebra and cartesian tensors. p. 889. Appendix J: Answers to most odd-numbered problems. p. 900.