Electromagnetic Field Theory and Wave Propagation
Presents the basic concepts suitable for Engineering and Science Students. This text deals with the useful areas of vector analysis, basic principles of Electrostatics, Magnetostatics, Conduction of Current, Polarization in Dielctric material, Magnetic behavior in different materials and Different types of Capacitor & Inductance.
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ELECTRIC FIELD INTENSITY
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2nd medium air gap Ampere's circuital law atomic boundary conditions Calculate Capacitance carrying current charge density charge distribution charge Q circular coil conducting plate conduction current core Curl current density current element cylindrical dielectric medium dipole direction Divergence Theorem E-field intensity electric field electromagnetic electron elementary length Equn external M-field Farad ferromagnetic Find flux density force acting free space Gauss's law impedance incidence intensity H interface Laplace equation line charge loop lossy dielectric M-field induction M-flux magnetic circuit magnetic field magnetic material Maxwell's equations molecular field perfect conductor perfect dielectric perpendicular plane wave point charge polarization Poynting's vector radius reflection coefficient shown in Fig solenoid Solution spherical co-ordinate standing wave ratio toroid total charge total flux transmission line unit vector velocity volts wave equation wave propagation wire zero