ElectromagnetismA basic introduction to electromagnetism, supplying the fundamentals of electrostatics and magnetostatics and a thorough investigation of electromagnetic theory. Calculus and differential equations required. With problems. Suggested references. |
Contents
II | 1 |
III | 10 |
IV | 11 |
V | 14 |
VI | 16 |
VII | 17 |
VIII | 19 |
IX | 21 |
LXI | 107 |
LXII | 109 |
LXIII | 111 |
LXIV | 112 |
LXV | 114 |
LXVI | 117 |
LXVII | 118 |
LXVIII | 119 |
X | 23 |
XI | 24 |
XII | 26 |
XIII | 27 |
XIV | 29 |
XVI | 31 |
XVII | 32 |
XVIII | 34 |
XIX | 35 |
XX | 38 |
XXI | 39 |
XXII | 41 |
XXIII | 42 |
XXIV | 43 |
XXV | 44 |
XXVI | 46 |
XXVII | 47 |
XXVIII | 49 |
XXIX | 50 |
XXX | 51 |
XXXI | 53 |
XXXII | 54 |
XXXIII | 55 |
XXXIV | 57 |
XXXV | 59 |
XXXVII | 62 |
XXXVIII | 64 |
XXXIX | 65 |
XL | 67 |
XLI | 68 |
XLII | 70 |
XLIII | 72 |
XLIV | 75 |
XLV | 77 |
XLVI | 78 |
XLVII | 79 |
XLVIII | 80 |
XLIX | 83 |
L | 85 |
LI | 86 |
LII | 88 |
LIII | 90 |
LV | 94 |
LVI | 95 |
LVII | 99 |
LVIII | 102 |
LIX | 103 |
LX | 105 |
LXIX | 120 |
LXX | 123 |
LXXI | 125 |
LXXII | 127 |
LXXIII | 128 |
LXXIV | 129 |
LXXV | 131 |
LXXVI | 135 |
LXXVII | 138 |
LXXVIII | 142 |
LXXIX | 145 |
LXXX | 146 |
LXXXI | 148 |
LXXXIII | 151 |
LXXXIV | 157 |
LXXXV | 158 |
LXXXVI | 159 |
LXXXVII | 161 |
LXXXVIII | 165 |
LXXXIX | 167 |
XC | 168 |
XCI | 170 |
XCII | 173 |
XCIII | 175 |
XCIV | 178 |
XCV | 180 |
XCVII | 184 |
XCVIII | 187 |
XCIX | 189 |
C | 190 |
CI | 192 |
CII | 195 |
CIV | 196 |
CV | 198 |
CVI | 200 |
CVII | 204 |
CVIII | 205 |
CX | 217 |
CXI | 220 |
CXII | 221 |
CXIV | 222 |
CXVII | 224 |
CXVIII | 227 |
CXIX | 232 |
CXX | 235 |
237 | |
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Common terms and phrases
Ampère's law amplitude aperture atoms axis boundary conditions cavity Chap charge q circuit coefficient conductor consider coulomb Coulomb's law curl current flowing cutoff wave length derivative dielectric constant diffraction dipole direction discussion distance electric field electromagnetic theory electrons electrostatic empty space energy equal external field flux formula Fraunhofer Fraunhofer diffraction frequency Fresnel function Gauss's theorem given grad index of refraction infinite intensity Laplace's equation light magnetic field magnetic induction magnitude mathematical Maxwell's equations medium metal mode molecules normal component physical plane wave point charge Poisson's equation polarization Poynting's vector problem propagation proportional prove quantity r₁ radiation radius reflected wave relation resonant resulting right angles satisfy scattering simple slit solution of Laplace's sphere surface integral tangential component tion unit volume unrationalized vector potential velocity wave equation wave guide wave length wire zero zones