Essentials of Electromagnetics for Engineering by David A. de Wolf | 9780521664448 | Paperback | Barnes & Noble
Essentials of Electromagnetics for Engineering

Essentials of Electromagnetics for Engineering

by David A. de Wolf
     
 

ISBN-10: 0521664446

ISBN-13: 9780521664448

Pub. Date: 03/03/2011

Publisher: Cambridge University Press

Essentials of Electromagnetics for Engineering introduces the key physical and engineering principles of electromagnetics. Throughout the book, David de Wolf describes the intermediate steps in mathematical derivations that many other textbooks leave out. He covers in depth the concepts of fields and potentials and then progresses to magnetostatics, Maxwell's

Overview

Essentials of Electromagnetics for Engineering introduces the key physical and engineering principles of electromagnetics. Throughout the book, David de Wolf describes the intermediate steps in mathematical derivations that many other textbooks leave out. He covers in depth the concepts of fields and potentials and then progresses to magnetostatics, Maxwell's equations, electrodynamics and wave propagation, waveguides, transmission lines, and antennas. At each stage, de Wolf stresses the physical principles underlying the mathematical results. He also includes homework exercises, a separate chapter on numerical methods in electromagnetics, and a broad range of worked examples to illustrate important concepts. Solutions manual available.

Product Details

ISBN-13:
9780521664448
Publisher:
Cambridge University Press
Publication date:
03/03/2011
Pages:
524
Product dimensions:
6.69(w) x 9.61(h) x 1.06(d)

Table of Contents

1. Introduction; 2. Some elements of vector analysis; 3. The electrostatic field; 4. The electrostatic potential; 5. The transition towards Maxwell's equations for electrostatics; 6. Electrostatic fields in material media; 7. Electrostatic energy, electromechanical force, and capacitance; 8. The Laplace and Poisson equations of electrostatics; 9. Numerical solutions of Laplace and Poisson equations; 10. Electric current; 11. The magnetostatic field; 12. The magnetostatic potentials; 13. Inductance and magnetic stored energy; 14. Magnetostatic fields in material media; 15. Extension to electrodynamics; 16. How Maxwell's equations lead to waves and signals; 17. Important features of plane time-harmonic waves; 18. Reflection and transmission of plane waves; 19. Waveguides; 20. Transmission lines; 21. Selected topics in radiation and antennas; Appendices.

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