Physical Basis for Electrical Engineering |
Contents
ELECTROSTATIC FIELDS IN VACUUM | 1 |
STATIC MAGNETIC FIELDS IN VACUUM | 41 |
79 | 112 |
Copyright | |
8 other sections not shown
Common terms and phrases
appears applied associated assumed atom band base bond Calculate called capacitor cathode causes chapter characteristics charge circuit coil collector complete component Compute conduction constant crystal curve defined depends diagram difference dipole direction discharge discussion distance effect electric field electric field intensity electrons element emission emitted energy levels engineering equal equation flux density follows force given grid Hence holes hydrogen important increases ionization ions junction length light lines magnetic field magnetic flux density mass material metal motion moving negative neutrons normal nucleus observed obtained occurs operation orbit parallel particles plate positive potential potential energy present problem produced proton quantum number reduced region relative resistance result semiconductor shown in figure shows solid space structure surface temperature theory tion transistor tube types unit vacuum valence vector voltage wave zero