For junior/senior-level electricity and magnetism courses. This book is known for its clear, concise and accessible
coverage of standard topics in a logical and pedagogically sound order. The Third Edition features a clear, accessible
treatment of the fundamentals of electromagnetic theory, providing a sound platform for the exploration of related
applications (ac circuits, antennas, transmission lines, plasmas, optics, etc.). Its lean and focused approach
employs numerous examples and problems.
NEW--Not a radical revision but rather a fine-tuning of the second edition, building on successful features
of the first two editions.
NEW--Every sentence has been reviewed for clarity and precision, and revised as needed, particularly regarding
very difficult topics.
NEW--Ambiguous or awkward notation has been changed--for example, the same letter r is no longer used for spherical
and cylindrical coordinates and the text now provides a more careful introduction of the script-r notation for
the vector from source point to field point.
NEW--Slightly expanded sections on energy, momentum and angular momentum.
NEW--The Helmholtz theory is now covered in an appendix rather in the main body of the text.
NEW--New and revised examples and problems.
NEW--Updated references to accessible current literature for students wishing to explore recent developments
in this field.
Friendly, informal style.
Clear focus on basic electromagnetic theory, providing a sound platform for future exploration of related applications
(such as ac circuits, antennas, transmission lines, plasmas, optics, etc.).
Large collection of problems: short, highly-focused problems are placed immediately following the relevant text
section while longer/more broadly-based problems are at the end of the chapter.
More extensive coverage of radiation theory than most texts at this level.
NEW--Not a radical revision but rather a fine-tuning of the second edition, building on successful features
of the first two editions.
NEW--Every sentence has been reviewed for clarity and precision, and revised as needed, particularly regarding
very difficult topics.
NEW--Ambiguous or awkward notation has been changed--for example, the same letter r is no longer used for spherical
and cylindrical coordinates and the text now provides a more careful introduction of the script-r notation for
the vector from source point to field point.
NEW--Slightly expanded sections on energy, momentum and angular momentum.
NEW--The Helmholtz theory is now covered in an appendix rather in the main body of the text.
NEW--New and revised examples and problems.
NEW--Updated references to accessible current literature for students wishing to explore recent developments
in this field.
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.
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