real engineering situations, this acclaimed work is a core text in a spectrum of courses at both the undergraduate and graduate levels, and a superior reference for engineering professionals. With more than 200 graphs, charts, and tables, this third edition includes: Clear explorations of such topics as deformation and stress, stress-strain-temperature relations, plane elasticity, thermal stresses, and end loads; Discussions of deformation and stress treated separately for clarity, with emphasis on both their independence and mathematical similarities; An overview of the mathematical preliminaries to all aspects of elasticity, from stress analysis to vector fields, from the divergence theorem to tensor algebra; Real-world examples and problem sets illustrating the most common elasticity solutions - such as equilibrium equations, the Galerkin vector, and Kelvin's problem; Highlights of the similarities and differences between molecular dynamics and continuum theory; Presentations of molecular dynamics, including the subjects of definition of temperature at atomistic scale, and interatomic potentials, forces, and stiffness matrices; Discussions and real-world examples of biomechanics, including the subjects of finite strain elasticity, constitutive equations of soft biological tissues, incompressibility, aneurysm, plaque on artery wall, and active stresses; A series of appendixes covering advanced topics such as complex variables, couple-stress theory, micromorphic theory, and concurrent atomistic/continuum theory. |