Physical Basis for Electrical Engineering |
Contents
ELECTROSTATIC FIELDS IN VACUUM | 1 |
STRUCTURE AND BEHAVIOR OF METALS | 5 |
STATIC MAGNETIC FIELDS IN VACUUM | 37 |
Copyright | |
10 other sections not shown
Common terms and phrases
anode assumed axis Calculate called capacitance capacitor cathode chapter characteristics circuit coil collector component Compute conductor Coulomb's Law coulombs crystal current density curve defined dielectric constant diode dipole direction discharge discussion elec electric charge electric current electric field intensity electric flux electric flux density electric potential electron energy emission emitted emitter energy level diagram energy levels equation flux density force Gauss's Law grid Hence holes hydrogen atom increases ionization magnetic field intensity magnetic flux mass material metal meter moving n-type semiconductor negative neutrons nuclear nucleus orbital quantum number p-n junction particles plate current plate voltage positive ions potential difference principal quantum principal quantum number produced proton q₁ region resistance result scalar semiconductor shown in figure solid source charge space charge spin subshell surface temperature thermionic tion transistor triode tube types v₁ vacuum valence band valence electrons vector velocity voltage volts wave length wire