by Walter Wilcox
Publisher: Baylor University 2009
Number of pages: 330
Contents: Survey and Introduction; Introduction to Electrostatics; Boundary Value Problems in Electrostatics; Electrostatics: Cylindrical and Spherical Coordinates; Multipoles, Electrostatics of Macroscopic Media, Dielectrics; Magnetostatics; Time Varying Fields; Plane Electromagnetic Waves and Propagation in Matter; Wave Guides and Resonant Cavities; Radiation of Systems and Point Particles; Scattering; Relativistic Formulations of Electrodynamics; Feynman Wheeler Theory of Radiation Resistance.
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by Stoil Donev - arXiv
This paper summarizes the results obtained in the frame of a particular non-linearization of Classical Electrodynamics. The main purpose is to have a reliable field-theoretical approach in describing (3+1) soliton-like electromagnetic formations.
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 Robert G. Brown - Duke University Physics Department
This set of lecture notes is designed to be used to teach graduate students classical electrodynamics. In particular, it supports the second semester of a two semester course in electrodynamics that covers pretty much 'all' of the theory itself...
by Andrzej Wolski - arXiv
We discuss electromagnetic fields, with an emphasis on aspects relevant to radiofrequency systems in particle accelerators. We review Maxwell's equations and show that there are solutions representing the propagation of electromagnetic waves.