Verfügbarkeit: Maxwell's equations

Maxwell's equations: from current density distribution to the radiation field of the Hertzian Dipole

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Bibliographische Detailangaben
1. Verfasser:	Donnevert, Jürgen (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Wiesbaden ; [Heidelberg] Springer Vieweg [2020]
Schlagworte:	Maxwellsche Gleichungen
Online-Zugang:	Inhaltstext Unbekannt Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xvi, 173 Seiten Illustrationen 24 cm x 16.8 cm
ISBN:	9783658293758 3658293756

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Datensatz im Suchindex

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adam_text	CONTENTS 1 POTENTIAL AND CURRENT DENSITY DISTRIBUTION ......................................................... 1 1.1 ELECTRIC FIELD ................................................................................................ 6 1.1.1 EXPLANATION: GRADIENT OR NABLA OPERATOR .................................... 8 1.2 KIRCHHOFF * S LAWS .................................................................................... 11 1.3 OHM * S LAW IN THE FIELD OF CURRENT DENSITIES ............................................ 14 1.4 POWER DENSITY IN THE FIELD OF CURRENT DENSITIES ......................................... 15 1.5 ELECTRIC CURRENT IN METALLIC CONDUCTORS ..................................................... 16 2 ELECTROSTATICS ............................................................................................................... 19 2.1 ELECTRIC FIELD OF SPHERICAL AND POINT CHARGES ............................................ 27 2.2 SPATIAL CHARGE DENSITY ................................................................................. 32 2.2.1 DIVERGENCE DIV D = V * D IN CYLINDRICAL AND SPHERICAL COORDINATES ................................................................................... 36 2.3 POTENTIAL EQUATION OF THE ELECTRICAL SCALAR POTENTIAL ................................. 38 2.4 ENERGY DENSITY OF THE ELECTRIC FIELD ........................................................... 41 3 THE STATIONARY MAGNETIC FIELD .............................................................................. 43 3.1 FORCE EFFECT IN THE STATIONARY MAGNETIC FIELD ............................................ 45 3.1.1 MOVING CONDUCTOR IN A STATIONARY MAGNETIC FIELD ..................... 49 3.1.2 GENERATOR FOR ALTERNATING VOLTAGE ................................................ 52 3.1.3 MAGNETIC FLUX MEASUREMENT ........................................................ 55 3.2 AMPERE * S LAW ............................................................................................. 57 3.2.1 ABSOLUTE PERMEABILITY ................................................................... 61 3.2.2 MAGNETIC FIELD INSIDE AND OUTSIDE OF AN INFINITELY LONG CONDUCTOR ............................................................................. 63 3.3 MAGNETIC SCALAR POTENTIAL ........................................................................... 65 3.4 DIFFERENTIAL FORM OF AMPERE * S LAW ............................................................ 67 3.5 OPERATION V X APPLIED TO THE MAGNETIC FIELD H ........................................ 68 3.5.1 VECTOR OPERATION CURL H * V X H IN CYLINDRICAL COORDINATES ..................................................................... 68 VII VIII CONTENTS 3.5.2 CIRCULATION OF THE VECTOR FIELD OF AN INFINITELY LONG CONDUCTOR 3.5.3 VECTOR OPERATION VXH IN CARTESIAN COORDINATES 3.5.4 VECTOR OPERATION V X 77 IN SPHERICAL COORDINATES 3.5.4.1 R-COMPONENT OF THE VECTOR V X 77 3.5.4.2 ^-COMPONENT OF THE VECTOR VXH 3.5.4.3 A-COMPONENT OF THE VECTOR V X 77 3.5.5 VECTOR ANALYSIS FORMULAS .................................... 3.6 MAGNETIC VECTOR POTENTIAL 3.7 LAW OF BIOT-SAVART 72 74 76 76 78 79 81 81 85 4 TIME-VARYING ELECTRIC AND MAGNETIC FIELDS 89 4.1 INDUCTANCE .................................................................................................... 89 4.2 ENERGY DENSITY OF THE MAGNETIC FIELD 92 4.3 FARADAY * S LAW OF INDUCTION 94 4.4 CONTINUITY EQUATION 103 4.5 DISPLACEMENT CURRENT DENSITY 106 4.6 FIRST MAXWELL * S EQUATION 108 4.6.1 SUMMARY OF THE EQUATIONS ILL 4.7 TIME-HARMONIC FIELDS 112 4.8 WAVE EQUATIONS 114 4.9 INHOMOGENEOUS WAVE EQUATION FOR THE ELECTRIC AND MAGNETIC FIELD VECTORS 118 4.10 INHOMOGENEOUS WAVE EQUATION FOR THE MAGNETIC VECTOR POTENTIAL 121 4.11 SOLUTION OF THE WAVE EQUATION FOR THE VECTOR POTENTIAL BY THE RETARDED POTENTIAL 124 4.12 ENERGY TRANSPORT IN THE ELECTROMAGNETIC FIELD 126 5 WAVE PROPAGATION ........................................................... 133 5.1 HERTZIAN DIPOLE 133 5.1.1 NEAR FIELD OF THE HERTZIAN DIPOLE 140 5.1.2 FAR FIELD OF THE HERTZIAN DIPOLE 141 5.1.3 ELECTRIC AND MAGNETIC FIELD IN THE TIME DOMAIN 143 5.1.3.1 THE COMPONENT OF THE MAGNETIC FIELD 143 5.1.3.2 ELECTRIC FIELD COMPONENT IN R-DIRECTION 144 5.1.3.3 ELECTRICAL FIELD COMPONENT IN ^-DIRECTION 145 5.1.4 ENERGY FLUX OF THE HERTZIAN DIPOLE 146 5.1.4.1 ENERGY FLUX OF THE HERTZIAN DIPOLE IN THE NEAR FIELD 146 5.1.4.2 ENERGY FLUX OF THE HERTZIAN DIPOLE IN THE FAR FIELD 148 CONTENTS IX 5.1.5 FIELD LINES OF THE HERTZIAN DIPOLE ............................... 148 5.1.6 RADIATION PATTERN OF THE HERTZIAN DIPOLE ...................................... 150 5.1.7 RADIATED POWER OF THE HERTZIAN DIPOLE ........................................ 151 5.1.8 RADIATION RESISTANCE OF THE HERTZIAN DIPOLE ................................ 154 5.1.9 GAIN OF A TRANSMITTING ANTENNA ..................................................... 154 5.1.10 EFFECTIVE AREA OF A RECEIVING ANTENNA ........................................ 155 5.2 FREE-SPACE PATH LOSS .................................................................................... 160 6 APPENDIX: VERIFICATION OF THE CALCULATION RULES FOR VECTOR ANALYSIS ............. 163 6.1 CALCULATION RULES ........................................................................................... 163 6.2 PROOFS ............................................................................................................ 163 6.2.1 PROOF OF EQ. (3.86) ....................................................................... 163 6.2.2 PROOF OF EQ. (3.87) ......................................................................... 164 6.2.3 PROOF OF EQ. (3.88) ......................................................................... 164 6.2.4 PROOF OF EQ. (3.89) ......................................................................... 166 REFERENCES .......................................................................................................................... 169 INDEX ..................................................................................................................................... 171
adam_txt	CONTENTS 1 POTENTIAL AND CURRENT DENSITY DISTRIBUTION . 1 1.1 ELECTRIC FIELD . 6 1.1.1 EXPLANATION: GRADIENT OR NABLA OPERATOR . 8 1.2 KIRCHHOFF * S LAWS . 11 1.3 OHM * S LAW IN THE FIELD OF CURRENT DENSITIES . 14 1.4 POWER DENSITY IN THE FIELD OF CURRENT DENSITIES . 15 1.5 ELECTRIC CURRENT IN METALLIC CONDUCTORS . 16 2 ELECTROSTATICS . 19 2.1 ELECTRIC FIELD OF SPHERICAL AND POINT CHARGES . 27 2.2 SPATIAL CHARGE DENSITY . 32 2.2.1 DIVERGENCE DIV D = V * D IN CYLINDRICAL AND SPHERICAL COORDINATES . 36 2.3 POTENTIAL EQUATION OF THE ELECTRICAL SCALAR POTENTIAL . 38 2.4 ENERGY DENSITY OF THE ELECTRIC FIELD . 41 3 THE STATIONARY MAGNETIC FIELD . 43 3.1 FORCE EFFECT IN THE STATIONARY MAGNETIC FIELD . 45 3.1.1 MOVING CONDUCTOR IN A STATIONARY MAGNETIC FIELD . 49 3.1.2 GENERATOR FOR ALTERNATING VOLTAGE . 52 3.1.3 MAGNETIC FLUX MEASUREMENT . 55 3.2 AMPERE * S LAW . 57 3.2.1 ABSOLUTE PERMEABILITY . 61 3.2.2 MAGNETIC FIELD INSIDE AND OUTSIDE OF AN INFINITELY LONG CONDUCTOR . 63 3.3 MAGNETIC SCALAR POTENTIAL . 65 3.4 DIFFERENTIAL FORM OF AMPERE * S LAW . 67 3.5 OPERATION V X APPLIED TO THE MAGNETIC FIELD H . 68 3.5.1 VECTOR OPERATION CURL H * V X H IN CYLINDRICAL COORDINATES . 68 VII VIII CONTENTS 3.5.2 CIRCULATION OF THE VECTOR FIELD OF AN INFINITELY LONG CONDUCTOR 3.5.3 VECTOR OPERATION VXH IN CARTESIAN COORDINATES 3.5.4 VECTOR OPERATION V X 77 IN SPHERICAL COORDINATES 3.5.4.1 R-COMPONENT OF THE VECTOR V X 77 3.5.4.2 ^-COMPONENT OF THE VECTOR VXH 3.5.4.3 A-COMPONENT OF THE VECTOR V X 77 3.5.5 VECTOR ANALYSIS FORMULAS . 3.6 MAGNETIC VECTOR POTENTIAL 3.7 LAW OF BIOT-SAVART 72 74 76 76 78 79 81 81 85 4 TIME-VARYING ELECTRIC AND MAGNETIC FIELDS 89 4.1 INDUCTANCE . 89 4.2 ENERGY DENSITY OF THE MAGNETIC FIELD 92 4.3 FARADAY * S LAW OF INDUCTION 94 4.4 CONTINUITY EQUATION 103 4.5 DISPLACEMENT CURRENT DENSITY 106 4.6 FIRST MAXWELL * S EQUATION 108 4.6.1 SUMMARY OF THE EQUATIONS ILL 4.7 TIME-HARMONIC FIELDS 112 4.8 WAVE EQUATIONS 114 4.9 INHOMOGENEOUS WAVE EQUATION FOR THE ELECTRIC AND MAGNETIC FIELD VECTORS 118 4.10 INHOMOGENEOUS WAVE EQUATION FOR THE MAGNETIC VECTOR POTENTIAL 121 4.11 SOLUTION OF THE WAVE EQUATION FOR THE VECTOR POTENTIAL BY THE RETARDED POTENTIAL 124 4.12 ENERGY TRANSPORT IN THE ELECTROMAGNETIC FIELD 126 5 WAVE PROPAGATION . 133 5.1 HERTZIAN DIPOLE 133 5.1.1 NEAR FIELD OF THE HERTZIAN DIPOLE 140 5.1.2 FAR FIELD OF THE HERTZIAN DIPOLE 141 5.1.3 ELECTRIC AND MAGNETIC FIELD IN THE TIME DOMAIN 143 5.1.3.1 THE COMPONENT OF THE MAGNETIC FIELD 143 5.1.3.2 ELECTRIC FIELD COMPONENT IN R-DIRECTION 144 5.1.3.3 ELECTRICAL FIELD COMPONENT IN ^-DIRECTION 145 5.1.4 ENERGY FLUX OF THE HERTZIAN DIPOLE 146 5.1.4.1 ENERGY FLUX OF THE HERTZIAN DIPOLE IN THE NEAR FIELD 146 5.1.4.2 ENERGY FLUX OF THE HERTZIAN DIPOLE IN THE FAR FIELD 148 CONTENTS IX 5.1.5 FIELD LINES OF THE HERTZIAN DIPOLE . 148 5.1.6 RADIATION PATTERN OF THE HERTZIAN DIPOLE . 150 5.1.7 RADIATED POWER OF THE HERTZIAN DIPOLE . 151 5.1.8 RADIATION RESISTANCE OF THE HERTZIAN DIPOLE . 154 5.1.9 GAIN OF A TRANSMITTING ANTENNA . 154 5.1.10 EFFECTIVE AREA OF A RECEIVING ANTENNA . 155 5.2 FREE-SPACE PATH LOSS . 160 6 APPENDIX: VERIFICATION OF THE CALCULATION RULES FOR VECTOR ANALYSIS . 163 6.1 CALCULATION RULES . 163 6.2 PROOFS . 163 6.2.1 PROOF OF EQ. (3.86) . 163 6.2.2 PROOF OF EQ. (3.87) . 164 6.2.3 PROOF OF EQ. (3.88) . 164 6.2.4 PROOF OF EQ. (3.89) . 166 REFERENCES . 169 INDEX . 171
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spellingShingle	Donnevert, Jürgen Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole Maxwellsche Gleichungen (DE-588)4221398-8 gnd
subject_GND	(DE-588)4221398-8
title	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole
title_auth	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole
title_exact_search	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole
title_exact_search_txtP	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole
title_full	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole Jürgen Donnevert
title_fullStr	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole Jürgen Donnevert
title_full_unstemmed	Maxwell's equations from current density distribution to the radiation field of the Hertzian Dipole Jürgen Donnevert
title_short	Maxwell's equations
title_sort	maxwell s equations from current density distribution to the radiation field of the hertzian dipole
title_sub	from current density distribution to the radiation field of the Hertzian Dipole
topic	Maxwellsche Gleichungen (DE-588)4221398-8 gnd
topic_facet	Maxwellsche Gleichungen
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