## Electromagnetism |

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History and Perspective | 1 |

Vector Calculus | 9 |

Basic Principles of Electrostatics | 44 |

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14 other sections not shown ## Common terms and phrasesAmpere's law angle approximation asymptotic atom axis Biot-Savart law bound charge boundary conditions calculate capacitance capacitor cavity Chapter charge density charge distribution charge q classical component conducting conductor consider constant coordinates cross section curl current density curves cylinder derive determine diamagnetic dielectric direction distance divergence electric and magnetic electric field electromagnetic waves electron electrostatic equal equipotential example Exercise ferromagnetic field energy FIGURE finite flux force frequency Gauss's Law incident induced infinite inside integral Laplace's equation linear loop Lorentz transformation magnetic field material Maxwell equations mode momentum motion oscillation parallel particle perpendicular physics plane wave plates plot point charge polarization position Poynting vector problem propagation radiation radius region result satisfy scalar shown in Fig shows solenoid solution sphere spherical static surface charge density surface current symmetry tensor theorem theory unit length vacuum vector function vector potential velocity volume wavelength wire xy plane ## Bibliographic information |