A' is first connected with X for `2xx10^(-3)s` with capacitor initially being uncharged. Then, the switch is thrown to Y at t=0. The time interval after which the potential difference across the capacitor becomes 3.15V is approximately

Three uncharged capacitors are connected in the circuit as shown. What should be the value of C_3 (in muF ) so that potential difference across each capacitor is same

The 500 muF capacitor is charged at a steady rate of 100 mu C//s . The potential difference across the capacitor will be 10 V after an interval of

The 500 muF capacitor is charged at a steady rate of 100 mu C//s . The potential difference across the capacitor will be 10 V after an interval of

An AC source is connected with a resistance ( R) and an unchanged capacitance C, in series. The potential difference across the resistor is in phase with the initial potential difference across the capacitor for the first time at the instant (assume that at t =0 , emf is zero)

In the circuit shown, the capacitor C_1 is initially charged with charge q_0 . The switch S is closed at time t = 0 . The charge on C_2 after time t is

An ideal capacitor of capacitance 0.2muF is charged to a potential difference of 10V . The charging battery is than disconnected. The capacitor is then connected to an ideal inductor of self inductance 0.5mH . The current at a time when the potential difference across the capacitor is 5V is :

Passage-III In the circuit shown, the battery is ideal with emf V. The capacitor is initially uncharged. The switch is closed at time t = 0 The current in the branch BE at t=oo is

An uncharged capacitor is connected to a 15 V battery through a resistance of 10Omega. It is found that in a time of 2mus, potential difference across the capacitor becomes 5V. Find the capacitance of the Capacitor. Take ln(1.5) = 0.4.

In the circuit shown in fig, switch S was closed for long time. At time t-0, the switch is opened again. The maximum potential difference across the plates of the capacitor after the switch is opened is

Two capacitor of capacitance 2muF and 3muF respectively are charged to potential difference 20 V each. Now the capacitors are connected such that the positively chargd plate of one capacitory is connected to the negatively charged plate of the other. after the current in the circuit has become negligible, the potential difference across the 2muF capacitor is ____V.