Introduction to Electromagnetic Engineering

Name: Introduction to Electromagnetic Engineering
Price: 12.38 USD
Availability: InStock
ISBN: 9780486432410

ISBN-10: 0486432416

ISBN-13: 9780486432410

Edition: 2003

Authors: Roger F. Harrington

List price: $19.95

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Description:

Based on circuit theory rather than on classical force-relationship approach, this text uses the theory of electric circuits to provide a system of experiments and introduces a series of field concepts as a logical extension of circuit theory. Appropriate for juniors, seniors, or first-year graduate students. 176 figures. 1958 edition.

Book details

List price: $19.95
Copyright year: 2003
Publisher: Dover Publications, Incorporated
Publication date: 10/17/2003
Binding: Paperback
Pages: 320
Size: 5.43" wide x 8.62" long x 0.71" tall
Weight: 0.814
Language: English

Roger F. Harrington is professor emeritus of electrical engineering and computer science at Syracuse University..He is also visiting professor at the University of Arizona. He was awarded the Van der Pol Medal from URSI in 1996, the Jubilee Tesla Medal from the Nicola Tesla Society, Yugoslavia, in l998, and the IEEE Electromagnetics Award in 2000.



Preface



Basic Concepts


Units and Dimensions


Linearity and Superposition


Circuit Quantities


Linear Circuit Elements


Kirchhoff's Laws Generalized


Power and Energy


Circuit Sources


Mutual-inductance



Charge Density and Current Density


Charge Density


Vectors


Surface Integral of a Vector


Current Density


Conservation of Charge


Divergence


The Equation of Continuity



Electric Intensity and Magnetic Flux Density


Line Integral of a Vector


Electric Intensity


Conduction Current


Magnetic Flux Density


Faraday's Law of Induction


Circulation and Curl


The Maxwell-Faraday Equation


B and E at a Boundary



Electric Flux Density and Magnetic Intensity


Sources of a Vector Field


Electric Flux Density


Some Properties of D


Linear Dielectric Media


Magnetic Intensity


Some Properties of H


Linear Magnetic Media


Energy


Maxwell's Equations



The Field of Static Charges


Introduction


The Field Integral


Gradient


Electric Scalar Potential


Point Charges


The Scalar Potential Integral


Two-dimensional Charge Distributions


One-dimensional Charge Distributions


Charge Dipoles


Reciprocity



The Field of Steady Currents


Introduction


Magnetic Vector Potential


The Vector Potential Integral


The Biot-Savart Law


Two-dimensional Current Distributions


One-dimensional Current Distributions


Current Dipoles


The Solenoid


Reciprocity



Some Field Concepts


On Fields in General


Surface Distributions of Sources


Electric Polarization


Magnetization


The Static Equivalence Principle


Duality


Dipole Layers and Current Loops



The Boundary-value Problem


Introduction


Uniqueness


Electrostatics


Steady Current


Magnetostatics


Image Theory


Problems with Plane Boundaries


Other Methods of Solution



Circuit Elements


Introduction


Resistance


An Approximation


Capacitance


Capacitance Systems


Resistance Systems


Inductance


Mutualinductance



The Electromagnetic Field


The Wave Equation


Plane Waves


The Generalized Current Concept


Poynting's Theorem


Electromagnetic Potentials


Radiation


Guided Waves


Resonance


Appendix A


Appendix B


Appendix C


Bibliography


Index