The final volume in a three-part series, Electricity and Magnetism provides a detailed exposition of classical electric and magnetic fields and analyses of linear electric circuits. The book applies the principles of classical mechanics to systematically reveal the laws governing observed electric and magnetic phenomena. The text culminates in Maxwell's Equations, which, although only four in number, can completely describe all physical aspects of electromagnetism.

The specific topics covered in Electricity and Magnetism include:



Electric force, field, and potential
Gauss's Law for Electric Fields
Capacitance and networks of capacitors
Electric current
Resistance and networks of resistors
Kirchoff's Rules
Steady state and time-dependent DC circuit dynamics
Magnetic force and field
Production of magnetic fields
Ampère's Law
Gauss's Law for Magnetic Fields
Faraday's Law
Induction and inductance
AC-driven circuit dynamics and energetics
Maxwell's Equations and their plane-wave vacuum solutions

This text extends the rigorous calculus-based introduction to classical physics begun in Elements of Mechanics. It may be studied independently of the second volume, Properties of Materials. With more than four hundred and fifty problems included, it can serve as a primary textbook in an introductory physics course, as a student supplement, or as an exam review for graduate or professional studies.