**Electromagnetic Theory and Computation: A Topological Approach**

by Paul W. Gross, P. Robert Kotiuga

**Publisher**: Cambridge University Press 2004**ISBN/ASIN**: 0521801605**ISBN-13**: 9780521801607**Number of pages**: 288

**Description**:

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.

Download or read it online for free here:

**Download link**

(1.8MB, PDF)

## Similar books

**Macroscopic Electrodynamics**

by

**Walter Wilcox**-

**Baylor University**

This is two semester graduate level text. Contents: Electrostatics; Boundary Value Problems in Electrostatics; Cylindrical and Spherical Coordinates; Magnetostatics; Time Varying Fields; Plane Electromagnetic Waves and Propagation in Matter; etc.

(

**15169**views)

**Electricity and Magnetism**

by

**J. B. Tatum**

Electric fields, potential, batteries, resistors, Ohm's law, capacitors, the magnetic effect of an electric current, magnetic potential, electromagnetic induction, magnetic materials, alternating current, Maxwell's equations.

(

**27172**views)

**Solutions to problems of Jackson's Classical Electrodynamics**

by

**Kasper van Wyk**-

**Samizdat Press**

A collection of answers to problems from a graduate course in electrodynamics. The problems are mainly from Jackson's Classical Electrodynamics, with some practice problems. The answers provide the reader with a guideline to understand the problems.

(

**20114**views)

**A Course in Graduate Electrodynamics**

by

**Mark Jarrell**-

**Louisiana State University**

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; and more.

(

**15205**views)