Front Cover; Engineering Electromagnetics; Copyright Page; Table of Contents; Preface; Chapter 1. Vector Analysis and Coordinates; Introduction; Definitions and Algebra; Vector Products; Vector Derivatives and Integrals; Coordinates and Position Vector; Summary; Exercises; Problems; References; Chapter 2. The Physical Basis of Electromagnetics; Introduction and History; Maxwell's Equations; Sources of Electromagnetic Fields; Materials and Constitutive Parameters; Integral Forms of Maxwell's Equations; Boundary Conditions; Summary; References; Chapter 3. Techniques for the Electrostatic Field.

IntroductionElectrostatic Field Equations and Definitions; Fields of a Point Charge; The Parallel Plate Capacitor; Fields of Two Point Charges; Forces of Energy; Method of Images; Computer Solutions; Summary; Exercises; Problems; References; Chapter 4. Dielectric Materials; Introduction; The Polarization, P, and Displacement, D; A Dielectric Loaded Capacitor; Microscopic Structure of Dielectrics; Summary; Exercises; Problems; References; Introduction; Chapter 5. Boundary Value Problems; Boundary Values and Conditions; Separation of Variables; Rectangular Metal Trough; Fourier Series; Summary.

ExercisesReferences; Chapter 6. Currents and Conducting Materials; Conductivity; CONDUCTIVITY; Ohm's Law; Relaxation Time in a Solid Silver Ball; Capacitor with Two Lossy Dielectric Layers; Material which Conduct Current; Free Electron Theory of Conduction; Semiconductors; Measuring Semiconductor Properties; Impurities and Their Effects in Semiconductors; Large Carbon Block with a Circular Hole; Summary; Exercises; Problems; References; Chapter 7. Magnetostatic Fields; Introduction; Magnetostatic Field Equations; Ampere's Circuital Law; Long Solenoids; Vector Potential, A.

Dipoles and the LikeBiot-Savart Law; Force between Two Long Wires; Summary; Exercises; References; Chapter 8. Magnetic Materials; Introduction; Magnetization, and Permeability; Equivalent Magnetic Currents; Toroidal Magnets and Electromagnets; Microscopic Magnetic Fields; Uses for Magnetic Materials; Ferromagnetic Domains-Weiss Theory; Transformers and Magnetic Circuits; Bus Bar Near a Steel Wall (Images); Magnetic Shielding; Summary; Exercises; Problems; References; Chapter 9. Time-varying Fields; Introduction-Quasi-static vs. Wave Propagation; Moving Electromagnetic Fields; Faraday's Law.

Faraday's Law for Moving CircuitsCharge on an Earth Satellite; Eddy Currents in Iron Core Solenoid; Inductance; Displacement Currents; Summary; Exercises; Problems; References; Chapter 10. Electromagnetic Plane Waves; On the Nature of Waves; The Wave Equation; Plane Waves; Elliptically Polarized Waves; Reflections and Standing Waves; The ""Mail Pouch"" Problem; Measurement of Dielectric Constant; Plane Waves in Arbitrary Direction; Reflection from Dielectric Slab; Summary; Exercises; Problems; References; Chapter 11. Transmission Lines; Parallel Plate Waveguide; TEM Waves.