Cover image for Schaum's outline of electromagnetics
Title:
Schaum's outline of electromagnetics
Personal Author:
Series:
Schaums outlines
Edition:
3rd ed.
Publication Information:
New York : McGraw-Hill, c2011
Physical Description:
iv, 254 p. : ill. ; 28 cm.
ISBN:
9780071632355
General Note:
Rev. ed. of: Schaum's outline of theory and problems of electromagnetics / Joseph Edminister. c1993

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30000010261952 QC760 E357 2011 f Open Access Book Book
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33000000002638 QC760 E357 2011 f Open Access Book Gift & Folio Book
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Summary

Summary

Study faster, learn better, and get top grades

Modified to conform to the current curriculum, Schaum's Outline of Electromagnetics complements these courses in scope and sequence to help you understand its basic concepts. The book offers extra practice on topics such as current density, capacitance, magnetic fields, inductance, electromagnetic waves, transmission lines, and antennas. Appropriate for the following course: Electromagnetics

Features:

351 solved problems Support for all the major textbooks for electromagnetics courses

Topics include: Vector Analysis, Coulomb Forces and Electric Field Intensity , Electric Flux and Gauss' Law, Divergence and the Divergence Theorem, The Electrostatic Field: Work, Energy, and Potential, Current, Current Density, and Conductors, Capacitance and Dielectric Materials, Laplace's Equation, Ampere's Law and the Magnetic Field, Forces and Torques in Magnetic Fields, Inductance and Magnetic Circuits, Displacement Current and Induced EMF, Maxwell's Equations and Boundary Conditions, Electromagnetic Waves, Transmission Lines, Waveguides, Antennas


Author Notes

Joseph A. Edminister is Professor Emeritus of Electrical Engineering at the University of Akron in Ohio.

Mahmood Nahvi-Dekhordi is Professor of Electrical Engineering at California Polytechnic State University in San Luis Obispo, California.


Table of Contents

1 Vector Analysis
2 Coulomb Forces and Electric Field Intensity
3 Electric Flux and Gauss' Law
4 Divergence and the Divergence Theorem
5 The Electrostatic Field: Work, Energy, and Potential
6 Current, Current Density, and Conductors
7 Capacitance and Dielectric Materials
8 Laplace's Equation
9 Ampere's Law and the Magnetic Field
10 Forces and Torques in Magnetic Fields
11 Inductance and Magnetic Circuits
12 Displacement Current and Induced EMF
13 Maxwell's Equations and Boundary Conditions
14 Electromagnetic Waves
15 Transmission Lines
16 Waveguides
17 Antennas