Mathematical Methods for Oscillations and Waves

Anchored in simple and familiar physics problems, the author provides a focused introduction to mathematical methods in a narrative driven and structured manner. Ordinary and partial differential equation solving, linear algebra, vector calculus, complex variables and numerical methods are all introduced and bear relevance to a wide range of physical problems. Expanded and novel applications of these methods highlight their utility in less familiar areas, and advertise those areas that will become more important as students continue. This highlights both the utility of each method in progressing with problems of increasing complexity while also allowing students to see how a simplified problem becomes 're-complexified'. Advanced topics include nonlinear partial differential equations, and relativistic and quantum mechanical variants of problems like the harmonic oscillator. Physics, mathematics and engineering students will find 300 problems treated in a sophisticated manner. The insights emerging from Franklin's treatment make it a valuable teaching resource.

• Takes an innovative approach to the teaching of mathematical methods - a structured backbone of related physics problems with supporting methods and examples
• Multiple solutions are offered to the same problem, and a solutions manual is available to instructors
• The ubiquitous harmonic oscillator problem is used to introduce the methods as a problem that is both important and manageable