Review of the hardback: 'Although the approach is classical, what makes this book different is the extensive and thorough treatment with hundreds of examples, questions and answers. No other textbook offers such a treatment … The extensive treatment and very large number of examples is welcomed. Cambridge University Press is to be congratulated on producing a quality product for [a] reasonable price …' G. A. O. Davies, Imperial College London

Introduction to the second edition; Introduction to the first edition; Part I. The Fundamentals of Structural Analysis: 1. Stress in structures; 2. Stresses and coordinate axis rotations; 3. Displacements and strains; 4. Strains in rotated coordinate systems; 5. The mechanical behavior of engineering materials; 6. Linearly elastic materials; Part II. Introduction to the Theory of Elasticity: 7. The theory of elasticity; 8. Plane stress theory of elasticity solutions; Part I and Part II review questions; Part III. The Engineering Theory for Straight, Long Beams: 9. Bending and extensional stresses in beams; 10. Beam bending and extensional deflections; 11. Additional beam bending topics; 12. Uniform torsion of beams; 13. Beam torsion approximate solutions; Beam bending and torsion review questions; 14. Beam shearing stresses due to shearing forces; Part IV. Work and Energy Principles: 15. Work and potential energy principles; Part V. Energy Based Numerical Solutions: 16. Precursor numerical analyses; 17. Introduction to the finite element method; 18. Finite element truss problems; 19. Basic aspects of multidimensional finite elements; 20. The unit load method for determinate structures; 21. The unit load method for indeterminate structures; Parts IV and V review; Part VI. Extensions to Plate Theory and Finite Element Applications: 22. Thin plate theory; 23. Elastic and aeroelastic instabilities; Selected answers to Part I exercises; Selected answers to Part II exercises; Selected answers to Part III exercises; Selected answers to Part IV and Part V exercises; Selected answers to Part VI exercises; References.