1 INTRODUCTION:WAVES AND PHASORS 1.1Dimensions,Units,and Notation 1.2The Nature of Electromagnetism 1.3Traveling Waves 1.4The Electromagnetic Spectrum 1.5Review of Complex Numbers 1.6Review of Phasors 2 TRANSMISSION LINES 2.1General Considerations 2.2Lumped-Element Model 2.3Transmission-Line Equations 2.4Wave Propagation on a Transmission Line 2.5The Lossless Transmission Line 2.6Input Impedance of the Lossless Line 2.7Special Cases of the Lossless Line 2.8Power Flow on a Lossless Transmission Line 2.9The Smith Chart 2.10Impedance Matching 2.11Transients on Transmission Lines 3 VECTOR ANALYSIS 3.1Basic Laws of Vector Algebra 3.2Orthogonal Coordinate Systems 3.3Transformations between Coordinate Systems 3.4Gradient of a Scalar Field 3.5Divergence of a Vector Field 3.6Curl of a Vector Field 3.7Laplacian Operator 4 ELECTROSTATICS 4.1Maxwell's Equations 4.2Charge and Current Distributions 4.3Coulomb's Law 4.4Gauss's Law 4.5Electric Scalar Potential 4.6Electrical Properties of Materials 4.7Conductors 4.8Dielectrics 4.9Electric Boundary Conditions 4.10Capacitance 4.11Electrostatic Potential Energy 4.12Image Method 5 MAGNETOSTATICS 5.1Magnetic Forces and Torques 5.2The Biot—Savart Law 5.3Magnetic Force Between Two Parallel Conductors 5.4Maxwell's Magnetostatic Equations 5.5Vector Magnetic Potential 5.6Magnetic Properties of Materials 5.7Magnetic Boudary Conditions 5.8Inductance 5.9Magnetic Energy 6 MAXWELL'S EQUATIONS FOR TIME-VARYING FIELDS 6.1Faraday's Law 6.2Stationary Loop in a Time-Varying Magnetic Field 6.3The Ideal Transformer 6.4Moving Conductor in a Static Magnetic Field 6.5The Electromagnetic Generator 6.6Moving Conductor in a Time-Varying Magnetic Field 6.7Displacement Current 6.8Boundary Conditions for Electromagnetics 6.9Charge-Current Continuity Relation 6.10Free-Charge Dissipation in a Conductor 6.11Electromagnetic Potentials 7 PLANE-WAVE PROPAGATION 7.1Time-Harmonic Fields 7.2Plane-Wave Propagation in Lossless Media 7.3Wave Polarization 7.4Plane-Wave Propagation in Lossy Media 7.5Current Flow in a Good Conductor 7.6Electromagnetic Power Density 8 WAVE REFLECTION AND TRANSMISSION,AND GEOMETRIC OPTICS 8.1Wave Reflection and Transmission at Normal Incidence 8.2Snell's Laws 8.3Fiber Optics 8.4Wave Reflection and Transmission at Oblique Incidence 8.5Reflectivity and Tuansmissivity 8.6Geometric Optics 8.7Images Formed by Mirrors 8.8Imager Formed by Spherical Lenses 9 RADIATION AND ANTENNAS 9.1The Short Dipole 9.2Antenna Radiation CHaracteriatics 9.3Half-Wave Dipole Antenna 9.4Dipole of Arbitrary Length 9.5Effective Area of a Receiving Antenna 9.6Friis Transmission Formula 9.7Radiation by Large-Aperture Antennas 9.8Rectangular Aperture with Uniform Aperture Distribution 9.9Antenna Arrays 9.10N-Element Array with Uniform Phase Distribution 9.11Electronic Scanning of Arrays 10 SATELLITE COMMUNICATION SYSTEMS AND RADAR SENSORS 10.1Satellite Communication Systems 10.2Satellite Transponders 10.3Communication-Link Power Budget 10.4Antenna Beams 10.5Radar Sensors 10.6Target Detection 10.7Doppler Radar 10.8Monopulse Radar APPENDIX A SYMBOLS,QUANTITIES,AND UNITS APPENDIX B MATERIAL CONSTANTS OF SOME COMMON MATERIALS APPENDIX C MATHEMATICAL FORMULAS APPENDIX D ANSWERS TO ODD-NUMBERED PROBLEMS BLBLIOGRAPHY INDEX
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