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LEADER: 07010cam a2200349 a 4500
001 9687670
005 20180115114939.0
008 101216s2012 nyua b 001 0 eng
010 $a 2010048332
016 7 $a015785192$2Uk
019 $a725025315
020 $a9780073380667 (alk. paper)
020 $a0073380660 (alk. paper)
020 $a9780071089012 (international ed. : pbk.)
020 $a0071089012 (international ed. : pbk.)
035 $a(OCoLC)ocn693684085
035 $a(OCoLC)693684085$z(OCoLC)725025315
035 $a(NNC)9687670
040 $aDLC$cDLC$dCDX$dYDXCP$dSTF$dSIRPL$dUKMGB$dUPM
042 $apcc
050 00 $aQC670$b.H39 2012
082 00 $a530.14/1$222
100 1 $aHayt, William H.$q(William Hart),$cJr.,$d1920-1999.
245 10 $aEngineering electromagnetics /$cWilliam H. Hayt, Jr., John A. Buck.
250 $a8th ed.
260 $aNew York, NY :$bMcGraw-Hill,$cc2012.
300 $axiv, 593 p. :$bill. ;$c24 cm.
504 $aIncludes bibliographical references and index.
505 0 $aMachine generated contents note: ch. 1 Vector Analysis -- 1.1.Scalars and Vectors -- 1.2.Vector Algebra -- 1.3.The Rectangular Coordinate System -- 1.4.Vector Components and Unit Vectors -- 1.5.The Vector Field -- 1.6.The Dot Product -- 1.7.The Cross Product -- 1.8.Other Coordinate Systems: Circular Cylindrical Coordinates -- 1.9.The Spherical Coordinate System -- References -- ch. 1 Problems -- ch. 2 Coulomb's Law and Electric Field Intensity -- 2.1.The Experimental Law of Coulomb -- 2.2.Electric Field Intensity -- 2.3.Field Arising from a Continuous Volume Charge Distribution -- 2.4.Field of a Line Charge -- 2.5.Field of a Sheet of Charge -- 2.6.Streamlines and Sketches of Fields -- References -- ch. 2 Problems -- ch. 3 Electric Flux Density, Gauss's Law, and Divergence -- 3.1.Electric Flux Density -- 3.2.Gauss's Law -- 3.3.Application of Gauss's Law: Some Symmetrical Charge Distributions -- 3.4.Application of Gauss's Law: Differential Volume Element -- 3.5.Divergence and Maxwell's First Equation -- 3.6.The Vector Operator and the Divergence Theorem -- References -- ch. 3 Problems -- ch. 4 Energy and Potential -- 4.1.Energy Expended in Moving a Point Charge in an Electric Field -- 4.2.The Line Integral -- 4.3.Definition of Potential Difference and Potential -- 4.4.The Potential Field of a Point Charge -- 4.5.The Potential Field of a System of Charges: Conservative Property -- 4.6.Potential Gradient -- 4.7.The Electric Dipole -- 4.8.Energy Density in the Electrostatic Field -- References -- ch. 4 Problems -- ch. 5 Conductors and Dielectrics -- 5.1.Current and Current Density -- 5.2.Continuity of Current -- 5.3.Metallic Conductors -- 5.4.Conductor Properties and Boundary Conditions -- 5.5.The Method of Images -- 5.6.Semiconductors -- 5.7.The Nature of Dielectric Materials -- 5.8.Boundary Conditions for Perfect Dielectric Materials -- References -- ch. 5 Problems -- ch. 6 Capacitance -- 6.1.Capacitance Defined -- 6.2.Parallel-Plate Capacitor -- 6.3.Several Capacitance Examples -- 6.4.Capacitance of a Two-Wire Line -- 6.5.Using Field Sketches to Estimate Capacitance in Two-Dimensional Problems -- 6.6.Poisson's and Laplace's Equations -- 6.7.Examples of the Solution of Laplace's Equation -- 6.8.Example of the Solution of Poisson's Equation: the p-n Junction Capacitance -- References -- ch. 6 Problems -- ch. 7 The Steady Magnetic Field -- 7.1.Biot-Savart Law -- 7.2.Ampere's Circuital Law -- 7.3.Curl -- 7.4.Stokes' Theorem -- 7.5.Magnetic Flux and Magnetic Flux Density -- 7.6.The Scalar and Vector Magnetic Potentials -- 7.7.Derivation of the Steady-Magnetic-Field Laws -- References -- ch. 7 Problems -- ch. 8 Magnetic Forces, Materials, and Inductance -- 8.1.Force on a Moving Charge -- 8.2.Force on a Differential Current Element -- 8.3.Force between Differential Current Elements -- 8.4.Force and Torque on a Closed Circuit -- 8.5.The Nature of Magnetic Materials -- 8.6.Magnetization and Permeability -- 8.7.Magnetic Boundary Conditions -- 8.8.The Magnetic Circuit -- 8.9.Potential Energy and Forces on Magnetic Materials -- 8.10.Inductance and Mutual Inductance -- References -- ch. 8 Problems -- ch. 9 Time-Varying Fields and Maxwell's Equations -- 9.1.Faraday's Law -- 9.2.Displacement Current -- 9.3.Maxwell's Equations in Point Form -- 9.4.Maxwell's Equations in Integral Form -- 9.5.The Retarded Potentials -- References -- ch. 9 Problems -- ch. 10 Transmission Lines -- 10.1.Physical Description of Transmission Line Propagation -- 10.2.The Transmission Line Equations -- 10.3.Lossless Propagation -- 10.4.Lossless Propagation of Sinusoidal Voltages -- 10.5.Complex Analysis of Sinusoidal Waves -- 10.6.Transmission Line Equations and Their Solutions in Phasor Form -- 10.7.Low-Loss Propagation -- 10.8.Power Transmission and The Use of Decibels in Loss Characterization -- 10.9.Wave Reflection at Discontinuities -- 10.10.Voltage Standing Wave Ratio -- 10.11.Transmission Lines of Finite Length -- 10.12.Some Transmission Line Examples -- 10.13.Graphical Methods: The Smith Chart -- 10.14.Transient Analysis -- References -- ch. 10 Problems -- ch. 11 The Uniform Plane Wave -- 11.1.Wave Propagation in Free Space -- 11.2.Wave Propagation in Dielectrics -- 11.3.Poynting's Theorem and Wave Power -- 11.4.Propagation in Good Conductors: Skin Effect -- 11.5.Wave Polarization -- References -- ch. 11 Problems -- ch. 12 Plane Wave Reflection and Dispersion -- 12.1.Reflection of Uniform Plane Waves at Normal Incidence -- 12.2.Standing Wave Ratio -- 12.3.Wave Reflection from Multiple Interfaces -- 12.4.Plane Wave Propagation in General Directions -- 12.5.Plane Wave Reflection at Oblique Incidence Angles -- 12.6.Total Reflection and Total Transmission of Obliquely Incident Waves -- 12.7.Wave Propagation in Dispersive Media -- 12.8.Pulse Broadening in Dispersive Media -- References -- ch. 12 Problems -- ch. 13 Guided Waves -- 13.1.Transmission Line Fields and Primary Constants -- 13.2.Basic Waveguide Operation -- 13.3.Plane Wave Analysis of the Parallel-Plate Waveguide -- 13.4.Parallel-Plate Guide Analysis Using the Wave Equation -- 13.5.Rectangular Waveguides -- 13.6.Planar Dielectric Waveguides -- 13.7.Optical Fiber -- References -- ch. 13 Problems -- ch. 14 Electromagnetic Radiation and Antennas -- 14.1.Basic Radiation Principles: The Hertzian Dipole -- 14.2.Antenna Specifications -- 14.3.Magnetic Dipole -- 14.4.Thin Wire Antennas -- 14.5.Arrays of Two Elements -- 14.6.Uniform Linear Arrays -- 14.7.Antennas as Receivers -- References -- ch. 14 Problems -- Appendix A Vector Analysis -- A.1.General Curvilinear Coordinates -- A.2.Divergence, Gradient, and Curl in General Curvilinear Coordinates -- A.3.Vector Identities -- Appendix B Units -- Appendix C Material Constants -- Appendix D The Uniqueness Theorem -- Appendix E Origins of the Complex Permittivity -- Appendix F Answers to Odd-Numbered Problems.
650 0 $aElectromagnetic theory.
700 1 $aBuck, John A.
852 00 $boff,eng$hQC670$i.H39 2012