Principles of Electricity and Electromagnetism |
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Page 72
... centimeters ( 8.85 × 10-14 farad per centimeter ) in which case M , N , and p have their cgs . values and a is in coulomb - centimeters per volt per centimeter . 2 VAN VLECK , " Electric and Magnetic Susceptibilities , " Oxford ...
... centimeters ( 8.85 × 10-14 farad per centimeter ) in which case M , N , and p have their cgs . values and a is in coulomb - centimeters per volt per centimeter . 2 VAN VLECK , " Electric and Magnetic Susceptibilities , " Oxford ...
Page 244
... centimeter , n is the number of atoms or molecules per cubic centimeter , T is the absolute temperature , and k , which is known as the Boltzmann constant , has the numerical value 1.37 X 10-16 erg per degree per molecule . The ...
... centimeter , n is the number of atoms or molecules per cubic centimeter , T is the absolute temperature , and k , which is known as the Boltzmann constant , has the numerical value 1.37 X 10-16 erg per degree per molecule . The ...
Page 371
... Centimeter FIG . 11.16 . - Typical hysteresis loops of various alloys . constant permeabilities and associated linearity and low losses , as indicated in Fig . 11.16 . However , these substances are unstable magnetically , for at high ...
... Centimeter FIG . 11.16 . - Typical hysteresis loops of various alloys . constant permeabilities and associated linearity and low losses , as indicated in Fig . 11.16 . However , these substances are unstable magnetically , for at high ...
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angle antenna applied approximately assumed atom axis becomes calculated capacity carrying cell characteristic charge circuit closed coil component condition conducting conductor connected considered constant curve density depends determined dielectric difference direction discharge discussion distance effective electric electrons element energy equal equation evident expression factor field flow flux force frequency function galvanometer given grid hence impedance important increases indicated induction integral ions known length limited linear load losses magnetic magnetic field magnitude maximum means measured mechanical metal meter method negative normal obtained oscillations parallel path period phase placed plate positive potential present produced proportional quantities radius ratio reduced region relation represents resistance result rotation seen separation Show shown simple solution space surface temperature terminals transformer tube unit vector volts volume wave wire written zero