There is no resistance in the capacitive circuit shown. Then charge on the capacitor at an time t

In the circuit shown , charge on the 5 mu F capacitor is :

In the circuit shown below, the charge on the 60muF capacitor is

In the circuit shown , the charges on the capacitors A and B are respectively

Two identical capacitors A and B are charged to the same potential V and are connected in two circuits at t = 0 as shown in figure. The charge of the capacitors at a time t = CR are respectively -

In the circuit shown in figure charge stored in the capacitor of capacity 5muf is

A capacitor of capacity 1muF is connected in a closed series circuit with a resistance or 10^(7) ohms, an open key and a cell of 2 V with negligible internal resistance : (i) When the key is switched on at time t=0, find, (a) The time constant for the circuit. (b) The charge on the capacitor at steady state. (c) Time taken to deposit charge equal to half of charge that will deposit at steady state. (ii) If after completely charging the capacitor, the cell is shorted by zero resistance at time t=0, find the charge on the capacitor at t=50 s. (Given : e^(-5)=6.73xx10^(-3), ln^(2)=0.693 )

The switch S in the circuit diagram is closed at t = 0. The charge on capacitors at any time is

In the given circuit diagram when the current reaches steady state in the circuit, the charge on the capacitor of capacitance C will be:-

A capacitor of 4 mu F is connected as shown in the circuit. The internal resistance of the battery is 0.5 Omega . The amount of charge on the capacitor plates will be .

A capacitor of 4 mu F is connected as shown in the circuit. The internal resistance of the battery is 0.5 Omega . The amount of charge on the capacitor plates will be .