| Preface |
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xi | |
| About the Author |
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xvii | |
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1 Electrostatic Field in Free Space |
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1 | (34) |
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1 | (2) |
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1.2 Electric Field Intensity Vector Due to Given Charge Distributions |
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3 | (5) |
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1.3 Electric Scalar Potential |
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8 | (4) |
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1.4 Differential Relationship between Field and Potential in Electrostatics, Gradient |
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12 | (3) |
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1.5 Gauss' Law in Integral Form |
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15 | (5) |
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1.6 Differential Form of Gauss' Law, Divergence |
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20 | (2) |
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1.7 Conductors in the Electrostatic Field |
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22 | (3) |
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1.8 Electrostatic Shielding |
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25 | (2) |
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1.9 Charge Distribution on Metallic Bodies of Arbitrary Shapes |
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27 | (4) |
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31 | (4) |
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2 Electrostatic Field in Dielectrics |
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35 | (30) |
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2.1 Polarization of Dielectrics |
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35 | (6) |
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2.2 Generalized Gauss' Law and Permittivity |
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41 | (3) |
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2.3 Dielectric-Dielectric Boundary Conditions |
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44 | (3) |
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2.4 Analysis, of Capacitors with Homogeneous Dielectrics |
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47 | (7) |
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2.5 Analysis of Capacitors with Inhomogeneous Dielectrics |
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54 | (5) |
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2.6 Energy of an Electrostatic System |
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59 | (2) |
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2.7 Dielectric Breakdown in Electrostatic Systems |
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61 | (4) |
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3 Steady Electric Currents |
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65 | (22) |
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3.1 Continuity Equation, Conductivity, and Ohm's and Joule's Laws in Local Form |
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65 | (8) |
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3.2 Resistance, Conductance, and Ohm's Law |
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73 | (3) |
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3.3 Boundary Conditions for Steady Currents |
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76 | (2) |
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3.4 Duality Relationships in the Steady Current Field |
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78 | (4) |
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3.5 Lossy Transmission Lines with Steady Currents |
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82 | (5) |
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4 Magnetostatic Field in Free Space |
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87 | (26) |
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4.1 Magnetic Force and Magnetic Flux Density Vector |
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87 | (4) |
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91 | (5) |
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4.3 Ampere's Law in Integral Form |
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96 | (8) |
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4.4 Differential Form of Ampere's Law, Curl |
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104 | (2) |
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4.5 Law of Conservation of Magnetic Flux |
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106 | (4) |
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4.6 Magnetic Vector Potential |
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110 | (3) |
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5 Magnetostatic Field in Material Media |
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113 | (26) |
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5.1 Magnetization Current |
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113 | (3) |
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5.2 Generalized Ampere's Law and Permeability |
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116 | (4) |
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5.3 Boundary Conditions for the Magnetic Field |
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120 | (3) |
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5.4 Image Theory for the Magnetic Field |
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123 | (2) |
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5.5 Magnetization Curves and Hysteresis |
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125 | (4) |
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129 | (4) |
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133 | (6) |
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6 Time-Varying Electromagnetic Field |
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139 | (76) |
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6.1 Induced Electric Field Intensity Vector |
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139 | (5) |
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6.2 Faraday's Law of Electromagnetic Induction |
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144 | (7) |
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6.3 Electromagnetic Induction Due to Motion and Total Induction |
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151 | (7) |
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158 | (8) |
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166 | (11) |
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177 | (4) |
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6.7 Maxwell's Equations for the High-Frequency Electromagnetic Field |
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181 | (4) |
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6.8 Boundary Conditions for the High-Frequency Electromagnetic Field |
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185 | (4) |
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6.9 Time-Harmonic Electromagnetics |
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189 | (4) |
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6.10 Complex Representatives of Time-Harmonic Field and Circuit Quantities |
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193 | (6) |
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6.11 Lorenz Electromagnetic Potentials |
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199 | (7) |
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6.12 Instantaneous and Complex Poynting Vector, Poynting's Theorem |
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206 | (9) |
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7 Uniform Plane Electromagnetic Waves |
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215 | (38) |
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215 | (3) |
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7.2 Time-Domain Analysis of Uniform Plane Waves |
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218 | (5) |
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7.3 Time-Harmonic Uniform Plane Waves and Complex-Domain Analysis |
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223 | (5) |
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7.4 Arbitrarily Directed Uniform Plane Waves |
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228 | (3) |
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7.5 Theory of Time-Harmonic Waves in Lossy Media |
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231 | (4) |
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7.6 Good Dielectrics and Good Conductors |
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235 | (2) |
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237 | (3) |
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7.8 Wave Propagation in Plasmas |
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240 | (2) |
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7.9 Dispersion and Group Velocity |
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242 | (5) |
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7.10 Polarization of Electromagnetic Waves |
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247 | (6) |
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8 Reflection and Transmission of Plane Waves |
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253 | (40) |
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8.1 Normal Incidence on a Perfectly Conducting Plane |
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253 | (13) |
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8.2 Normal Incidence on a Penetrable Planar Interface |
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266 | (14) |
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8.3 Oblique Incidence on a Perfect Conductor |
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280 | (6) |
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8.4 Oblique Incidence on a Dielectric Boundary |
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286 | (7) |
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9 Field Analysis of Transmission Lines |
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293 | (28) |
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9.1 Field Analysis of Lossless Transmission Lines |
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293 | (10) |
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9.2 Transmission Lines with Small Losses |
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303 | (6) |
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9.3 Evaluation of Primary and Secondary Circuit Parameters of Transmission Lines |
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309 | (4) |
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9.4 Transmission Lines with Inhomogeneous Dielectrics |
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313 | (8) |
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10 Circuit Analysis of Transmission Lines |
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321 | (72) |
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10.1 Telegrapher's Equations and Their Solution |
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321 | (6) |
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10.2 Reflection Coefficient for Transmission Lines |
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327 | (10) |
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10.3 Transmission-Line Impedance |
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337 | (3) |
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10.4 Short-Circuited, Open-Circuited, and Matched Transmission Lines |
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340 | (14) |
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354 | (9) |
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10.6 Transient Analysis of Transmission Lines with Step Excitations |
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363 | (15) |
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10.7 Analysis of Transmission Lines with Pulse Excitations |
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378 | (3) |
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10.8 Transient Response for Reactive Terminations |
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381 | (12) |
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11 Waveguides and Cavity Resonators |
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393 | (46) |
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11.1 Rectangular Waveguide Analysis Based on Multiple Reflections of Plane Waves |
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393 | (7) |
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11.2 Arbitrary TE and TM Modes in a Rectangular Waveguide |
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400 | (9) |
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11.3 Wave Impedances of TE and TM Waves |
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409 | (4) |
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11.4 Waveguides with Small Losses |
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413 | (5) |
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11.5 Waveguide Dispersion and Wave Velocities |
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418 | (2) |
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420 | (5) |
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11.7 Rectangular Cavity Resonators |
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425 | (7) |
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11.8 Quality Factor of Rectangular Cavities with Small Losses |
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432 | (7) |
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12 Antennas and Wireless Communication Systems |
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439 | (80) |
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12.1 Electromagnetic Field due to a Hertzian Dipole |
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439 | (7) |
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12.2 Far Field and Near Field |
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446 | (5) |
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12.3 Steps in Far-Field Evaluation of an Arbitrary Antenna |
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451 | (6) |
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12.4 Radiation and Ohmic Resistances of an Antenna, Antenna Input Impedance |
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457 | (6) |
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12.5 Antenna Radiation Patterns, Directivity, and Gain |
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463 | (6) |
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12.6 Wire Dipole Antennas of Arbitrary Lengths |
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469 | (7) |
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12.7 Image Theory for Antennas above a Perfectly Conducting Ground Plane |
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476 | (7) |
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12.8 Theory of Receiving Antennas. Wireless Links with Nonaligned Wire Antennas |
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483 | (9) |
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12.9 Antenna Effective Aperture |
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492 | (3) |
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12.10 Friis Transmission Formula for a Wireless Link |
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495 | (4) |
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499 | (20) |
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Appendix A Quantities, Symbols, Units, Constants |
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519 | (4) |
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Appendix B Mathematical Facts and Identities |
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523 | (6) |
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B.1 Trigonometric Identities |
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523 | (1) |
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B.2 Exponential, Logarithmic, and Hyperbolic Identities |
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523 | (1) |
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B.3 Solution of Quadratic Equation |
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524 | (1) |
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B.4 Approximations for Small Quantities |
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524 | (1) |
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524 | (1) |
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524 | (1) |
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B.7 Vector Algebraic Identities |
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525 | (1) |
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B.8 Vector Calculus Identities |
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525 | (1) |
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B.9 Gradient, Divergence, Curl, Laplacian in Orthogonal Coordinate Systems |
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526 | (1) |
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B.10 Vector Algebra and Calculus Index |
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527 | (2) |
| References |
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529 | (2) |
| Index |
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531 | |
Rohkem infot Taylor & Francis e-raamatute kohta