Readers who are more familiar with mathematics than physics will discover the connection between various physical and mechanical disciplines and their related mathematical models, which are described by partial differential equations (PDEs). The authors establish the fundamental equations for fields such as electrodynamics; fluid dynamics, magnetohydrodynamics, and reacting fluid dynamics; elastic, thermoelastic, and viscoelastic mechanics; the kinetic theory of gases; special relativity; and quantum mechanics.
Readers who are more familiar with physics than mathematics will benefit from in-depth explanations of how PDEs work as effective mathematical tools to more clearly express and present the basic concepts of physics. The book describes the mathematical structures and features of these PDEs, including the types and basic characteristics of the equations, the behavior of solutions, and some commonly used approaches to solving PDEs.
Each chapter can be read independently and includes exercises and references.
Audience: Appropriate as a textbook for upper-level undergraduate and graduate courses, the book also serves as a reference for researchers in application areas that use PDEs and in physical and mechanical disciplines.
Contents: Preface; Chapter 1: Electrodynamics; Chapter 2: Fluid Dynamics; Chapter 3: Magnetohydrodynamics; Chapter 4: Reacting Fluid Dynamics; Chapter 5: Elastic Mechanics; Appendix A: Cartesian Tensor; Appendix B: Overview of Thermodynamics; Index.