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A Student's Guide to Maxwell's Equations / Edition 1

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Overview

Gauss's law for electric fields, Gauss's law for magnetic fields, Faraday's law, and the Ampere-Maxwell law are four of the most influential equations in science. In this guide for students, each equation is the subject of an entire chapter, with detailed, plain-language explanations of the physical meaning of each symbol in the equation, for both the integral and differential forms. The final chapter shows how Maxwell's equations may be combined to produce the wave equation, the basis for the electromagnetic theory of light. This book is a wonderful resource for undergraduate and graduate courses in electromagnetism and electromagnetics. A website hosted by the author at www.cambridge.org/9780521701471 contains interactive solutions to every problem in the text as well as audio podcasts to walk students through each chapter.

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Editorial Reviews

From the Publisher
'Professor Fleisch is a great scientific communicator.' electronicdesign.com

'… good examples and problems are given so the student can practice the skills being taught.' IEEE Microwave Magazine

'… its virtue … is to address, through judicious selection of material and masterful repetition of important facts, the needs of a student who finds lectures and textbooks hard to understand, too complex, and besides the point of doing the assigned problems. … Students who are struggling with the material will love the Guide. The Guide is a well-written, concise, honest tool that delivers just what it promises.' American Journal of Physics

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Product Details

  • ISBN-13: 9780521701471
  • Publisher: Cambridge University Press
  • Publication date: 1/28/2008
  • Edition description: New Edition
  • Edition number: 1
  • Pages: 144
  • Sales rank: 341,510
  • Product dimensions: 6.08 (w) x 8.90 (h) x 0.27 (d)

Meet the Author

Daniel Fleisch is Associate Professor in the Department of Physics at Wittenberg University, Ohio. His research interests include radar cross-section measurement, radar system analysis, and ground-penetrating radar. He is a member of the American Physical Society (APS), the American Association of Physics Teachers (AAPT), and the Institute of Electronic and Electrical Engineers (IEEE).

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Table of Contents

Preface vii

Acknowledgments ix

1 Gauss's law for electric fields 1

1.1 The integral form of Gauss's law 1

The electric field 3

The dot product 6

The unit normal vector 7

The component of E normal to a surface 8

The surface integral 9

The flux of a vector field 10

The electric flux through a closed surface 13

The enclosed charge 16

The permittivity of free space 18

Applying Gauss's law (integral form) 20

1.2 The differential form of Gauss's law 29

Nabla - the del operator 31

Del dot - the divergence 32

The divergence of the electric field 36

Applying Gauss's law (differential form) 38

2 Gauss's law for magnetic fields 43

2.1 The integral form of Gauss's law 43

The magnetic field 45

The magnetic flux through a closed surface 48

Applying Gauss's law (integral form) 50

2.2 The differential form of Gauss's law 53

The divergence of the magnetic field 54

Applying Gauss's law (differential form) 55

3 Faraday's law 58

3.1 The integral form of Faraday's law 58

The induced electric field 62

The line integral 64

The path integral of a vector field 65

The electric field circulation 68

The rate of change of flux 69

Lenz's law 71

Applying Faraday's law (integral form) 72

3.2 The differential form of Faraday's law 75

Del cross - the curl 76

The curl of the electric field 79

Applying Faraday's law (differential form) 80

4 The Ampere-Maxwell law 83

4.1 The integral form of the Ampere-Maxwell law 83

The magnetic field circulation 85

The permeability of free space 87

The enclosed electric current 89

The rate of change of flux 91

Applying the Ampere-Maxwell law (integral form) 95

4.2 The differential form of theAmpere-Maxwell law 101

The curl of the magnetic field 102

The electric current density 105

The displacement current density 107

Applying the Ampere-Maxwell law (differential form) 108

5 From Maxwell's Equations to the wave equation 112

The divergence theorem 114

Stokes' theorem 116

The gradient 119

Some useful identities 120

The wave equation 122

Appendix Maxwell's Equations in matter 125

Further reading 131

Index 132

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Customer Reviews

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Sort by: Showing all of 3 Customer Reviews
  • Anonymous

    Posted May 16, 2010

    A GREAT book

    This book is an excellent review of Maxwell's equations. It lays out each one in a different section, subdivided into sections for the differential and integral forms, included a section on how to get from the integral to the differential. At the end, it explains how to derive the wave equation. Each equation is given in an expanded view, and EVERY part is fully explained. So it serves not only to teach about Maxwell's equations, but also gives a great review of the different operators (del, grad, curl, etc). I used the book to help with Maxwell's equations in my Waves class (physics major), and also to review the operators and Stokes' Thm and the Divergence Thm for my Math class.

    There are numerous diagrams and worked examples. The book is quite small, but wonderfully efficient in how everything is laid out. It's more understandable, and explained more succinctly, than many textbooks I've used.

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  • Anonymous

    Posted December 12, 2007

    A reviewer

    Most E&M textbooks just present these equations briefly and expect you to intuitively understand and use them. This one is devoted entirely to those two goals. Each term in the equations is described in both the integral and differential forms, to give you an understanding of what the whole equation MEANS. There are many diagrams and illustrations. Then practice problems are presented, with step-by-step solutions available, to help you learn how to USE each form of the equations. The author even provides an audio podcast with highlights and an overview of every chapter! Really, I've never seen such a practical guide. Would be a great crash course for those new to Maxwell's eqs, or a refresher for those who learned them the old school 'opaque' way, or a clear review for a comprehensive exam, or *definitely* a perfect guide and/or companion text for current E&M students, no matter which textbook you're using.

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  • Anonymous

    Posted March 17, 2010

    No text was provided for this review.

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