...bounded by the closed circuit. Substituting the preceding values for dZ/dy — d Y/dz, &c., we see that the line integral of the electromotive intensity round a closed circuit is equal to the rate of diminution in the number of lines of magnetic induction passing through the circuit. Hence the preceding...

...AA'B'B. We thus have — dr i , \ . (i) or r 2. The line integral of the electric intensity around any circuit is equal to the rate of decrease of the magnetic induction through the circuit. Or in other words, the electromotive force induced in any circuit is equal to the rate of decrease...

...dr\(r + dr)6-Trd = 4 irurddr. dT . i ™ ev 2. The line integral of the electric intensity around any circuit is equal to the rate of decrease of the magnetic induction through the circuit. Or in other words, the electromotive force induced in any circuit is equal to the rate of decrease...

...atomic charges. Then where M is a constant depending on the nature of the medium. The quantity ] +4jrM represents the specific inductive capacity of the...total displacement current at any point the expression Sqvx, where q is the atomic charge, vx is the velocity of that charge in the direction considered,...

...statement of the law of induced currents, due to Maxwell, is, that the induced electromotive force in any circuit is equal to the rate of decrease of the magnetic induction through the circuit. The direction of the induced current is here called positive with respect to the field, when the relations...

...statement of the law of induced currents, due to Maxwell, is, that the induced electromotive force in any circuit is equal to the rate of decrease of the magnetic induction through the circuit. " The direction of the induced current is here called positive with respect to the field, when the...