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Classical Electrodynamics

ISBN-10: 0738200565

ISBN-13: 9780738200569

Edition: 1999

Authors: Julian Seymour Schwinger, Lester L. Deraad, Kimball A. Milton, Wu-Yang Tsai, Joyce Norton

List price: $115.00
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Description:

Classical Electrodynamics captures Schwinger's inimitable lecturing style, in which everything flows inexorably from what has gone before, making this an essential resource for both physicists and their students.
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Book details

List price: $115.00
Copyright year: 1999
Publisher: CRC Press LLC
Publication date: 9/11/1998
Binding: Hardcover
Pages: 596
Size: 6.25" wide x 9.50" long x 1.25" tall
Weight: 2.2
Language: English

Preface
Reader's Guide
Maxwell's Equations
Magnetic Charge I
Conservation Laws
Macroscopic Electrodynamics
Simple Model for Constitutive Relations
Magnetic Properties of Matter
Macroscopic Energy and Momentum
Review of Action Principles
Action Principle for Electrodynamics
Einsteinian Relativity
Stationary Principles for Electrostatics
Introduction to Green's Functions
Electrostatics in Free Space
Semi-Infinite Dielectric
Application of Green's Function
Bessel Functions
Parallel Conducting Plates
Modified Bessel Functions
Cylindrical Conductors
Spherical Harmonics
Coulomb's Potential
Multipoles
Conducting and Dielectric Spheres
Dielectrics and Conductors
Modes and Variations
Magnetostatics
Macroscopic Current Distributions
Magnetic Multipoles
Magnetic Scalar Potential
Magnetic Charge II
Retarded Green's Function
Radiation - Field Point of View
Radiation - Source Point of View
Models of Antennas
Spectral Distribution of Radiation
Power Spectrum and Cerenkov Radiation
Constant Acceleration and Impulse
Synchrotron Radiation I
Synchrotron Radiation II - Polarization
Synchrotron Radiation III - High Energies
Propagation in a Dielectric Medium
Reflection by an Imperfect Conductor
Cylindrical Coordinates
Waveguides
Scattering by Small Obstacles
Partial-Wave Analysis of Scattering
Diffraction I
Diffraction II
Babinet's Principle
General Scattering
Dispersion Relations for the Susceptibility
Charged Particle Energy Loss
App. A: Units
App. B: Bibliography
Index