ContentsIndexFormulas1 - Vector Operators2 - PhasorsELECTRIC FIELDS3 - Coulomb's Law and Gauss's Law4 - The equations of Poisson and Laplace. Charge conservation. Conductors5 - Electric Multipoles6 - Energy, Capacitance, and Forces7 - Electric Circuits A: RC Circuits8 - Electric Circuits B: Circuit Theorems9 - Dielectric Materials A: Bound Charges and Electric Flux Density D10 - Dielectric Materials B: Real Dielectrics, Continuity Conditions at an Interface, and Stored Energy11 - Images. Laplace's Equation in Rectangular Coordinates12 - Laplace's Equation in Spherical Coordinates. Poisson's Equation for ERELATIVITY13 - The Lorentz Transformation and Space-Time14 - The Lorentz Contraction and Time Dilation. The Transformation of a Velocity15 - Mass. Momentum, Force, and Energy16 - The Field of a Moving Charge17 - Maxwell's Equations. The Four-Potential AMAGNETIC FIELDS18 - The Magnetic Flux Density B and the Vector Potential A19 - The Vector Potential A. Ampere's Circuital Law20 - Magnetic Materials A: The Magnetic Flux Density B and the Magnetic Field Strength H21 - Magnetic Materials B: Ferromagnetism and Magnetic Circuits22 - The Magnetic Forces on Charges and Currents23 - The Faraday Induction Law24 - Electric Circuits C. Mutual and Self-Inductance25 - Electric Circuits D: Inductivev Circuits and Transformers26 - Magnetic Energy and Macroscopic Magnetic Forces27 - MAXWELL EQUATIONSPLANE ELECTROMAGNETIC WAVES28 - Uniform Plane Waves in Free Space, in Nonconductors, and in Conductors29 - Waves in Good Conductors and in Plasmas30 - Reflection and Refraction A: The Basic Laws and Fresnel's Equations31 - Reflection and Refraction B: Nonuniform Plane Waves and Total Reflection32 - Reflection and Refraction C: Reflection and Refraction at the Surface of a Good ConductorGUIDED WAVES33 - Guided Waves: General Principles. The Coaxial and Microstrip Lines34 - The Hollow Rectangular Waveguide35 - The Planar Optical Waveguide A: The Eigenvalue Equation36 - The Planar Optical Waveguide B: The Guided WaveRADIATION37 - The Potentials V and A, and the Fields E and B38 - The Electric Dipole Transmitting Antenna 39 - The Half-Wave Antenna, Antenna Arrays, and the Magnetic Dipole Antenna