by Alexander Altland
Number of pages: 117
The text covers the history and the apparatus of electrodynamics, electrostatics, magnetostatics, magnetic field energy, electromagnetic gauge field, Green function of the wave equation, field energy and momentum, electromagnetic radiation, macroscopic electrodynamics, relativistic invariance, and more.
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by Justin Dressel, Konstantin Y. Bliokh, Franco Nori - arXiv
We present an introduction to spacetime algebra that emphasizes its power as a tool for the study of electromagnetism. We carefully develop this natural algebra of the Minkowski spacetime geometry, with a focus on its intrinsic complex structure.
by Roy McWeeny - Learning Development Institute
Contents: Charges at rest: Electrostatics; Electric currents; Magnetism; Getting it all together: Maxwell's equations; Dynamos, motors, and electric power; Waves that travel through empty space; More on electric circuits - making the waves.
by Hermann A. Haus, James R. Melcher - MIT
The text is aimed at an audience that has seen Maxwell's equations in integral or differential form (second-term Freshman Physics) and had some exposure to integral theorems and differential operators (second term Freshman Calculus).
by Paul W. Gross, P. Robert Kotiuga - Cambridge University Press
This book explores the connection between algebraic structures in topology and computational methods for electric and magnetic field computation. It will be of interest to researchers working in finite element methods for electromagnetic computation.