An inductor `(X_(L) = 2 Omega)` a capacitor `(X_(C ) = 8 Omega)` and a resistance `(8 Omega)` are connected in series with an ac source. The voltage output of `A.C` source is given by `v = 10 cos 100 pi t`. The instantaneous p.d. between `A` and `B` when is half of the voltage output from source will be:

An inductor X_(L) = 2 Omega ) , a capacitor ( X_(C) = 8 Omega ) and a resistance (R = 8 Omega ) are connected in series with an AC source . The voltage output of AC source is given by V = 10 cos(100 pi t) The instantaneous potential difference between points A and B, when the applied voltage is 3/5th of the maximum value of applied voltage is

An inductor X_(L) = 2 Omega ) , a capacitor ( X_(C) = 8 Omega ) and a resistance (R = 8 Omega ) are connected in series with an AC source . The voltage output of AC source is given by V = 10 cos(100 pi t) The instantaneous potential difference between points A and B, when the applied voltage is 3/5th of the maximum value of applied voltage is

An inductor X_(L) = 2 Omega ) , a capacitor ( X_(C) = 8 Omega ) and a resistance (R = 8 Omega ) are connected in series with an AC source . The voltage output of AC source is given by V = 10 cos(100 pi t) The instantaneous potential difference between points A and B, when the applied voltage is 3/5th of the maximum value of applied voltage is

An inductor (L = (1)/(100 pi) H) , a capacitor (C = (1)/(500 pi) F) and a resistance (3 Omega) is connected in series with an AC voltage source as shown in the figure. The voltage of the AC source is given as V = 10 cos(100 pi t) volt. What will be the potential difference between A and B ?

An inductor (L = (1)/(100 pi) H) , a capacitor (C = (1)/(500 pi) F) and a resistance (3 Omega) is connected in series with an AC voltage source as shown in the figure. The voltage of the AC source is given as V = 10 cos(100 pi t) volt. What will be the potential difference between A and B ?

An inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is

An inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V(rms) a.c. source. The power dissipated in the circuit is.

A inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is

A inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is