Electromagnetic Theory and Computation: A Topological Approach
by Paul W. Gross, P. Robert Kotiuga
Publisher: Cambridge University Press 2004
Number of pages: 288
This book explores the connection between algebraic structures in topology and computational methods for 3-dimensional electric and magnetic field computation. Although known since the 19th century, there has been little exposition of the connection's relevance to computational methods in modern topological language. This book closes the gap and will be of interest to researchers working in finite element methods for electromagnetic computation and those who have an interest in numerical and industrial applications of algebraic topology.
Home page url
Download or read it online for free here:
by R. Gomez Martin - Universidad de Granada
Contents: Electromagnetic field fundamentals; Fields created by a source distribution: retarded potentials; Electromagnetic waves; Reflection and refraction of plane waves; Electromagnetic wave-guiding structures; Waveguides and transmission lines.
by David Tong - University of Cambridge
These lecture notes provide a comprehensive introduction to Electromagnetism, aimed at undergraduates. The notes assume a familiarity with Newtonian mechanics and special relativity. They also assume a knowledge of vector calculus.
by C. J. Papachristou - Hellenic Naval Academy
This sophomore-level textbook introduces the student to classical electrodynamics and explains in simple terms the quantum theory of conducting substances. The presentation sacrifices mathematical detail in favor of pedagogigal efficiency.
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.