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• Title Page
• Copyright
• Dedication
• Preface to Eighth Edition
• List of Technology Briefs
• Contents
• List of Modules
• Photo Credits
• Chapter 1. Introduction: Waves and Phasors
• 1-1 Historical Timeline
• 1-2 Dimensions, Units, and Notation
• 1-3 The Nature of Electromagnetism
• TB1 LED Lighting
• 1-4 Traveling Waves
• 1-5 The Electromagnetic Spectrum
• 1-6 Review of Complex Numbers
• TB2 Solar Cells
• 1-7 Review of Phasors
• Chapterr 2. Transmission Lines
• 2-1 General Considerations
• 2-2 Lumped-Element Model
• 2-3 Transmission-Line Equations
• 2-4 Wave Propagation on a Transmission Line
• 2-5 The Lossless Microstrip Line
• 2-6 The Lossless Transmission Line: General Considerations
• 2-7 Wave Impedance of the Lossless Line
• 2-8 Special Cases of the Lossless Line
• TB3 Microwave Ovens
• 2-9 Power Flow on a Lossless Transmission Line
• 2-10 The Smith Chart
• 2-11 Impedance Matching
• 2-12 Transients on Transmission Lines
• TB4 EM Cancer Zappers
• Chapter 3. Vector Analysis
• 3-1 Basic Laws of Vector Algebra
• 3-2 Orthogonal Coordinate Systems
• 3-3 Transformations between Coordinate Systems
• 3-4 Gradient of a Scalar Field
• TB5 Global Positioning System
• 3-5 Divergence of a Vector Field
• 3-6 Curl of a Vector Field
• TB6 X-Ray Computed Tomography
• 3-7 Laplacian Operator
• Chapter 4. Electrostatics
• 4-1 Maxwell’s Equations
• 4-2 Charge and Current Distributions
• 4-3 Coulomb’s Law
• 4-4 Gauss’s Law
• 4-5 Electric Scalar Potential
• TB7 Resistive Sensors
• 4-6 Conductors
• TB8 Supercapacitors as Batteries
• 4-7 Dielectrics
• 4-8 Electric Boundary Conditions
• TB9 Capacitive Sensors
• 4-9 Capacitance
• 4-10 Electrostatic Potential Energy
• 4-11 Image Method
• Chapter 5. Magnetostatics
• 5-1 Magnetic Forces and Torques
• 5-2 The Biot–Savart Law
• 5-3 Maxwell’s Magnetostatic Equations
• 5-4 Vector Magnetic Potential
• TB10 Electromagnets
• 5-5 Magnetic Properties of Materials
• 5-6 Magnetic Boundary Conditions
• 5-7 Inductance
• 5-8 Magnetic Energy
• TB11 Inductive Sensors
• Chapter 6. Maxwell’s Equations for Time-Varying Fields
• 6-1 Faraday’s Law
• 6-2 Stationary Loop in a Time-Varying Magnetic Field
• 6-3 The Ideal Transformer
• 6-4 Moving Conductor in a Static Magnetic Field
• 6-5 The Electromagnetic Generator
• 6-6 Moving Conductor in a Time-Varying Magnetic Field
• 6-7 Displacement Current
• 6-8 Boundary Conditions for Electromagnetics
• 6-9 Charge–Current Continuity Relation
• 6-10 Free-Charge Dissipation in a Conductor
• TB12 EMF Sensors
• 6-11 Electromagnetic Potentials
• Chapter 7. Plane-Wave Propagation
• 7-1 Time-Harmonic Fields
• 7-2 Plane-Wave Propagation in Lossless Media
• 7-3 Wave Polarization
• TB13 RFID Systems
• 7-4 Plane-Wave Propagation in Lossy Media
• TB14 Liquid Crystal Display (LCD)
• 7-5 Current Flow in a Good Conductor
• 7-6 Electromagnetic Power Density
• Chapter 8. Wave Reflection and Transmission
• 8-1 Wave Reflection and Transmission at Normal Incidence
• TB15 Lasers
• 8-2 Snell’s Laws
• 8-3 Fiber Optics
• 8-4 Wave Reflection and Transmission at Oblique Incidence
• TB16 Bar-Code Readers
• 8-5 Reflectivity and Transmissivity
• 8-6 Waveguides
• 8-7 General Relations for E and H
• 8-8 TM Modes in Rectangular Waveguide
• 8-9 TE Modes in Rectangular Waveguide
• 8-10 Propagation Velocities
• 8-11 Cavity Resonators
• Chapter 9. Radiation and Antennas
• 9-1 The Hertzian Dipole
• 9-2 Antenna Radiation Characteristics
• 9-3 Half-Wave Dipole Antenna
• 9-4 Dipole of Arbitrary Length
• 9-5 Effective Area of a Receiving Antenna
• 9-6 Friis Transmission Formula
• TB17 Health Risks of EM Fields
• 9-7 Radiation by Large-Aperture Antennas
• 9-8 Rectangular Aperture with Uniform Aperture Distribution
• 9-9 Antenna Arrays
• 9-10 N-Element Array with Uniform Phase Distribution
• 9-11 Electronic Scanning of Arrays
• Chapter 10. Satellite Communication Systems and Radar Sensors
• 10-1 Satellite Communication Systems
• 10-2 Satellite Transponders
• 10-3 Communication-Link Power Budget
• 10-4 Antenna Beams
• 10-5 Radar Sensors
• 10-6 Target Detection
• 10-7 Doppler Radar
• 10-8 Monopulse Radar
• Appendix A: Symbols, Quantities, and Units
• Appendix B: Material Constants of Some Common Materials
• Appendix C: Mathematical Formulas
• Appendix D: Fundamental Constants and Units
• Appendix E: Answers to Selected Problems
• Bibliography
• Index
• A
• B
• C
• D
• E
• F
• G
• H
• I
• J
• K
• L
• M
• N
• O
• P
• Q
• R
• S
• T
• U
• V
• W
• X
• Z
• Tables for Reference