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Cover Art
PRINTED BOOKS
Author Notaros, Branislav M.

Title MATLAB-based electromagnetics / Branislav M. Notaros.

Published Upper Saddle River, NJ : Pearson Education, [2014]
©2014

Copies

Location Call No. Status
 UniM ERC  537.028553 NOTA    DUE 11-11-19
Physical description xvi, 363 pages : illustrations ; 26 cm
Bibliography Includes bibliographical references and index.
Contents 1 Electrostatic Field in Free Space 1 -- 1.1 Coulomb's Law 1 -- 1.2 Electric Field Intensity Vector Due to Given Charge Distributions 9 -- 1.3 Electric Scalar Potential 20 -- 1.4 Differential Relationship Between the Field and Potential in Electrostatics, Gradient 26 -- 1.5 Electric Dipole 28 -- 1.6 Gauss' Law in Integral Form 30 -- 1.7 Differential Form of Gauss' Law, Divergence 31 -- 1.8 Method of Moments for Numerical Analysis of Charged Metallic Bodies 33 -- 2 Electrostatic Field in Dielectrics 41 -- 2.1 Characterization of Dielectric Materials 41 -- 2.2 Dielectric-Dielectric Boundary Conditions 46 -- 2.3 Poisson's and Laplace's Equations 50 -- 2.4 Finite-Difference Method for Numerical Solution of Laplace's Equation 51 -- 2.5 Evaluation of Capacitances of Capacitors and Transmission Lines 59 -- 2.6 Capacitors with Inhomogeneous Dielectrics 69 -- 2.7 Dielectric Breakdown in Electrostatic Systems 70 -- 3 Steady Electric Currents 73 -- 3.1 Continuity Equation, Conductivity, and Ohm's Law in Local Form 73 -- 3.2 Boundary Conditions for Steady Currents 79 -- 3.3 Relaxation Time 81 -- 3.4 Resistance and Ohm's Law 82 -- 4 Magnetostatic Field in Free Space 86 -- 4.1 Magnetic Force and Magnetic Flux Density Vector 86 -- 4.2 Magnetic Field Computation Using Biot-Savart Law 92 -- 4.3 Ampère's Law in Integral Form 98 -- 4.4 Differential Form of Ampère's Law, Curl 102 -- 4.5 Magnetic Vector Potential 103 -- 4.6 Magnetic Dipole 104 -- 5 Magnetostatic Field in Material Media 106 -- 5.1 Permeability of Magnetic Materials 106 -- 5.2 Boundary Conditions for the Magnetic Field 108 -- 5.3 Magnetic Circuits 109 -- 6 Time-Varying Electromagnetic Field 118 -- 6.1 Faraday's Law of Electromagnetic Induction 118 -- 6.2 Self-Inductance 125 -- 6.3 Mutual Inductance 127 -- 6.4 Displacement Current 128 -- 6.5 Maxwell's Equations for the Time-Varying Electromagnetic Field 130 -- 6.6 Boundary Conditions for the Time-Varying Electromagnetic Field 132 -- 6.7 Time-Harmonic Electromagnetics 136 -- 6.8 Complex Representatives of Time-Harmonic Field and Circuit Quantities 137 -- 6.9 Instantaneous and Complex Poynting Vector 144 -- 7 Uniform Plane Electromagnetic Waves 146 -- 7.1 Time-Harmonic Uniform Plane Waves and Complex-Domain Analysis 146 -- 7.2 Arbitrarily Directed Uniform Plane Waves 151 -- 7.3 Theory of Time-Harmonic Waves in Lossy Media 153 -- 7.4 Wave Propagation in Good Dielectrics 158 -- 7.5 Wave Propagation in Good Conductors 158 -- 7.6 Skin Effect 159 -- 7.7 Wave Propagation in Plasmas 161 -- 7.8 Polarization of Electromagnetic Waves 163 -- 8 Reflection and Transmission of Plane Waves 173 -- 8.1 Normal Incidence on a Perfectly Conducting Plane 173 -- 8.2 Normal Incidence on a Penetrable Planar Interface 180 -- 8.3 Oblique Incidence on a Perfect Conductor 189 -- 8.4 Oblique Incidence on a Dielectric Boundary 192 -- 8.5 Wave Propagation in Multilayer Media 202 -- 9 Field Analysis of Transmission Lines 204 -- 9.1 Field Analysis of Lossless Transmission Lines 204 -- 9.2 Transmission Lines with Small Losses 207 -- 9.3 Evaluation of Primary and Secondary Circuit Parameters of Transmission Lines 212 -- 9.4 Transmission Lines with Inhomogeneous Dielectrics 213 -- 9.5 Multilayer Printed Circuit Board 213 -- 10 Circuit Analysis of Transmission Lines 222 -- 10.1 Telegrapher's Equations and Their Solution 222 -- 10.2 Reflection Coefficient for Transmission Lines 225 -- 10.3 Transmission-Line Impedance 232 -- 10.4 Complete Solution for Line Voltage and Current 233 -- 10.5 Short-Circuited, Open-Circuited, and Matched Transmission Lines 235 -- 10.6 Impedance-Matching Using Short- and Open-Circuited Stubs 237 -- 10.7 Smith Chart - Construction and Basic Properties 241 -- 10.8 Circuit Analysis of Transmission Lines Using the Smith Chart 247 -- 10.9 Transient Analysis of Transmission Lines 263 -- 10.10 Step Response of Transmission Lines with Purely Resistive Terminations 267 -- 10.11 Analysis of Transmission Lines with Pulse Excitations 272 -- 10.12 Bounce Diagrams 279 -- 10.13 Transient Response for Reactive Terminations 286 -- 11 Waveguides and Cavity Resonators 291 -- 11.1 Analysis of Rectangular Waveguides Based on Multiple Reflections of Plane Waves 291 -- 11.2 Arbitrary TE and TM Modes in a Rectangular Waveguide 299 -- 11.3 Wave Impedances of TE and TM Waves 306 -- 11.4 Power Flow Along a Waveguide 307 -- 11.5 Waveguides With Small Losses 310 -- 11.6 Waveguide Dispersion and Group Velocity 312 -- 11.7 Rectangular Cavity Resonators 314 -- 11.8 Electromagnetic Energy Stored in a Cavity Resonator 316 -- 11.9 Quality Factor of Rectangular Cavities with Small Losses 319 -- 12 Antennas and Wireless Communication Systems 321 -- 12.1 Electromagnetic Field due to a Hertzian Dipole 321 -- 12.2 Far Field 323 -- 12.3 Steps in Far Field Evaluation of an Arbitrary Antenna 326 -- 12.4 Radiation and Ohmic Resistances of an Antenna 328 -- 12.5 Antenna Radiation Patterns, Directivity, and Gain 331 -- 12.6 Wire Dipole Antennas of Arbitrary Lengths 337 -- 12.7 Theory of Receiving Antennas. Wireless Links with Nonaligned Wire Antennas 344 -- 12.8 Friis Transmission Formula for a Wireless Link 350 -- 12.9 Antenna Arrays 352.
Subject MATLAB.
Electromagnetism -- Mathematical models.
Electromagnetism -- Data processing.
Electromagnetic theory -- Computer programs.
ISBN 9780132857949
0132857944