Electromagnetism and Optics: An introductory course
by Richard Fitzpatrick
Number of pages: 260
A complete set of lecture notes for an lower-division electromagnetism and optics course. Topics covered include electric fields, Gauss' law, electric potential, capacitance, electric current, magnetism, magnetic induction, inductance, electromagnetic waves, geometric optics, paraxial optics, and wave optics.
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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.
by Richard Fitzpatrick - The University of Texas at Austin
Covered topics: The relativistically invariant formulation of the laws of electromagnetism; The effect of dielectric and magnetic materials on electric and magnetic fields; The generation, propagation, and scattering of electromagnetic waves.
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 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.