Electromagnetic Fields and Energy |
Contents
MAXWELLS INTEGRAL LAWS IN FREE SPACE | 1 |
MAXWELLS DIFFERENTIAL LAWS IN FREE SPACE | 45 |
INTRODUCTION TO ELECTROQUASISTATICS | 65 |
Copyright | |
25 other sections not shown
Common terms and phrases
Ampère's law approximation axis boundary conditions capacitance capacitor Cartesian coordinates Chapter charge density charge distribution circuit coefficients coil component configuration constant continuity condition contour cross-section curl current density cylinder determined dielectric differential dipole direction electric field intensity electrode electroquasistatic enclosed energy equipotential evaluated Example expression Faraday's law field lines follows force density free space frequency function Gauss given H₂ induced infinity insulating integral law interface irrotational Laplace's equation line charge linear magnetic field intensity magnetizable material Maxwell's equations MQS systems particle perfect conductor perfectly conducting permeability permittivity plane plates Poisson's equation polarization density potential distribution quasistatic radius region represented satisfy scalar Section Show shown in Figure sinh sinusoidal solenoidal solutions to Laplace's sphere spherical superposition integral surface charge surface charge density surface current density tangential terminal theorem two-dimensional uniform unpaired charge vector potential voltage volume wire zero potential