Page 12 - Engineering Electromagnetics, 8th Edition
P. 12

viii               Contents

                  Chapter 10                                  12.3 Wave Reflection from Multiple
                  Transmission Lines      301                      Interfaces  417
                                                              12.4 Plane Wave Propagation in General
                  10.1 Physical Description of Transmission Line   Directions  425
                       Propagation 302                        12.5 Plane Wave Reflection at Oblique Incidence
                  10.2 The Transmission Line Equations  304        Angles  428
                  10.3 Lossless Propagation 306               12.6 Total Reflection and Total Transmission
                  10.4 Lossless Propagation of Sinusoidal          of Obliquely Incident Waves  434
                       Voltages  309                          12.7 Wave Propagation in Dispersive Media 437
                  10.5 Complex Analysis of Sinusoidal Waves  311  12.8 Pulse Broadening in Dispersive Media  443
                  10.6 Transmission Line Equations and Their       References  447
                       Solutions in Phasor Form  313               Chapter 12 Problems  448
                  10.7 Low-Loss Propagation 315
                  10.8 Power Transmission and The Use of Decibels  Chapter 13
                       in Loss Characterization  317          Guided Waves      453
                  10.9 Wave Reflection at Discontinuities 320  13.1 Transmission Line Fields and Primary
                  10.10 Voltage Standing Wave Ratio  323           Constants  453
                  10.11 Transmission Lines of Finite Length 327  13.2 Basic Waveguide Operation 463
                  10.12 Some Transmission Line Examples 330   13.3 Plane Wave Analysis of the Parallel-Plate
                  10.13 Graphical Methods: The Smith Chart  334    Waveguide 467
                  10.14 Transient Analysis 345                13.4 Parallel-Plate Guide Analysis Using the Wave
                       References 358                              Equation  476
                       Chapter 10 Problems  358               13.5 Rectangular Waveguides  479
                                                              13.6 Planar Dielectric Waveguides  490
                  Chapter 11                                  13.7 Optical Fiber  496
                  The Uniform Plane Wave 367                       References  506
                  11.1 Wave Propagation in Free Space 367          Chapter 13 Problems  506
                  11.2 Wave Propagation in Dielectrics 375
                  11.3 Poynting’s Theorem and Wave Power  384  Chapter 14
                                                              Electromagnetic Radiation
                  11.4 Propagation in Good Conductors:        and Antennas 511
                       Skin Effect 387
                  11.5 Wave Polarization  394                 14.1 Basic Radiation Principles: The Hertzian
                       References 401                              Dipole  511
                       Chapter 11 Problems  401               14.2 Antenna Specifications  518
                                                              14.3 Magnetic Dipole  523
                  Chapter 12                                  14.4 Thin Wire Antennas  525
                  Plane Wave Reflection and                   14.5 Arrays of Two Elements 533
                  Dispersion 406                              14.6 Uniform Linear Arrays  537

                  12.1 Reflection of Uniform Plane Waves       14.7 Antennas as Receivers  541
                       at Normal Incidence  406                    References  548
                  12.2 Standing Wave Ratio  413                    Chapter 14 Problems  548
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