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Introduction to Electrodynamics - David J. Griffiths

Introduction to Electrodynamics

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1. Vector Analysis. Vector Algebra. Differential Calculus. Integral Calculus. Curvilinear Coordinates. The Dirac Delta Function. The Theory of Vector Fields. 2. Electrostatics. The Electrostatic Field. Divergence and Curl of Electrostatic Fields. Electric Potential. Work and Energy in Electrostatics. Conductors. 3. Special Techniques. Laplace's Equation and Uniqueness Theorems. The Method of Images. Separation of Variables. Multipole Expansion. 4. Electrostatic Fields in Matter. Polarization. The Field of a Polarized Object. The Electric Displacement. Linear Dielectrics. 5. Magnetostatics. The Lorentz Force Law. The Biot-Savart Law. The Divergence and Curl of B. Magnetic Vector Potential. 6. Magnetic Fields in Matter. Magnetization. The Field of a Magnetized Object. The Auxiliary Field H. Linear and Nonlinear Media. 7. Electrodynamics. Electromotive Force. Electromagnetic Induction. Maxwell's Equations. 8. Conservation Laws. Charge and Energy. Momentum. 9. Electromagnetic Waves. Waves in One Dimension. Electromagnetic Waves in Vacuum. Electromagnetic Waves in Matter. Absorption and Dispersion. Guided Waves. 10. Potentials and Fields. The Potential Formulation. Continuous Distributions. Point Charges. 11. Radiation. Dipole Radiation. Point Charges. 12. Electrodynamics and Relativity. The Special Theory of Relativity. Relativistic Mechanics. Relativistic Electrodynamics. Appendix A: Vector Calculus in Curvilinear Coordinates. Appendix B: The Helmholtz Theorem. Appendix C: Units. Index.

Vector Analysis
Vector Algebra
Differential Calculus
Integral Calculus
Curvilinear Coordinates
The Dirac Delta Function
The Theory of Vector Fields
Electrostatics
The Electrostatic Field
Divergence and Curl of Electrostatic Fields
Electric Potential
Work and Energy in Electrostatics
Conductors
Special Techniques
Laplace's Equation and Uniqueness Theorems
The Method of Images
Separation of Variables
Multipole Expansion
Electrostatic Fields in Matter
Polarization
The Field of a Polarized Object
The Electric Displacement
Linear Dielectrics
Magnetostatics
The Lorentz Force Law
The Biot-Savart Law
The Divergence and Curl of B
Magnetic Vector Potential
Magnetic Fields in Matter
Magnetization
The Field of a Magnetized Object
The Auxiliary Field H
Linear and Nonlinear Media
Electrodynamics
Electromotive Force
Electromagnetic Induction
Maxwell's Equations
Conservation Laws
Charge and Energy
Momentum
Electromagnetic Waves
Waves in One Dimension
Electromagnetic Waves in Vacuum
Electromagnetic Waves in Matter
Absorption and Dispersion
Guided Waves
Potentials and Fields
The Potential Formulation
Continuous Distributions
Point Charges
Radiation
Dipole Radiation
Point Charges
Electrodynamics and Relativity
The Special Theory of Relativity
Relativistic Mechanics
Relativistic Electrodynamics
Vector Calculus in Curvilinear Coordinates
The Helmholtz Theorem
Units
Index
Table of Contents provided by Publisher. All Rights Reserved.

ISBN: 9780138053260
ISBN-10: 013805326X
Audience: Professional
Format: Hardcover
Language: English
Number Of Pages: 576
Published: December 1998
Country of Publication: US
Dimensions (cm): 24.13 x 19.68  x 3.18
Weight (kg): 1.02
Edition Number: 3