**Electromagnetic field theory for physicists and engineers: Fundamentals and Applications**

by R. Gomez Martin

**Publisher**: Universidad de Granada 2009**Number of pages**: 133

**Description**:

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; Some types of waveguides and transmission lines.

Download or read it online for free here:

**Download link**

(multiple formats)

## Similar books

**Introduction to Extended Electrodynamics**

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.

(

**7031**views)

**Introduction to Electromagnetic Theory and the Physics of Conducting Solids**

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.

(

**768**views)

**Electromagnetism and Optics: An introductory course**

by

**Richard Fitzpatrick**

Lecture notes for an lower-division electromagnetism and optics course: electric fields, Gauss' law, electric potential, capacitance, current, magnetism, magnetic induction, inductance, electromagnetic waves, geometric optics, and wave optics.

(

**13436**views)

**Variational Principle of Extremum in Electromechanical and Electrodynamic Systems**

by

**Solomon I. Khmelnik**-

**viXra**

Here we shall formulate the variational optimum principle for electromechanical systems of arbitrary configuration, in which electromagnetic processes are going on. The principle is generalized for systems described by partial differential equations.

(

**4513**views)