A Course in Graduate Electrodynamics
by Mark Jarrell
Publisher: Louisiana State University 2000
Contents: Introduction to Electrostatics; Boundary-value Problems in Electrostatics; Multipoles; Macroscopic Media; Dielectrics; Static and Stationary Magnetic Fields; Maxwell's Equations; Plane Waves and Wave Propagation; The Special Theory of Relativity; Particle and Field Dynamics; Waveguides and Cavities; Radiation; Charged Particle Collisions, Energy Loss, Scattering; Radiation by Moving Charges.
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by Bernhard Auchmann, Stefan Kurz - arXiv
We introduce a relativistic splitting structure as a means to map equations of electromagnetism from curved four-dimensional space-time to 3-dimensional observer's space. We focus on mathematical structures that are motivated by the physical theory.
by Benjamin Crowell
This is an introductory college physics textbook on electricity and magnetism: electricity and the atom, the nucleus, circuits, fields of force, electromagnetism, capacitance and inductance. Calculus applications are discussed in optional sections.
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 Raymond John Protheroe - Bookboon
A concise introduction to this fundamental topic. Starting with forces on charges, it takes a progression through electrostatics and magnetostatics, both in empty space and in matter. Intended for undergraduate studies in physics and engineering.