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

In the circuit shown, the capacitor is initially uncharged. The switch S is closed at t = 0. Time after which voltage across capacitor and resistor are equal is:

The two capacitors in the circuit shown in figure are initially uncharged and then connected as shown and switch is closed. What is the potential difference across 3muF capacitor?

A 4 muF capacitor, a resistance of 2.5 M Omega is in series with 12V battery. Find the time after which the potential difference across the capacitor is 3 times the potential difference across the resistor :

The switch is closed at t=0. Find time after which voltage across capacitor becomes 50 V. (take ln 2 = 0.6)

Three uncharged capacitors are connected in the circuit as shown. What should be the value of C3(in uF) so that potential difference across each capacitor is same

A 500 muF uncharged capacitor is cahrged at a steady rate of 100 muC second.t he potential difference across the capacitor will be 10 V after time t equal to

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

Four capacitor and a battery of emf 24 V are connected as shown in the figure. Initially, S is open and the capacitors are uncharged. After S is closed and steady state is attained, the potential difference across the 4 mu f capacitor is 7.5 V . The capacitance in mu f of the capacitor A is. .