The charge on the `4muF` capacitor at steady state is (in `muC`)

The charge in the 2 mu F capacitor at steady state is

The charge on the 4muF capacitor in the steady state 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 charge on the capacitor in steady state in the circuit shown is

Determine the charge on capacitor in steady state:

The energy stored in the capacitor in the steady state is

The charge on 4 mu F capacitor in the given circuit is ("in" muC)

In the given circuit switch K is open. The charge on the capacitor is C is steady-state is q_1 Now the key is closed and steady-state charge on C is q_2 The ratio of charges q_1//q_2 is -

Figure shows a network of a capacitor and resistors. Find the charge on capacitor in steady state in muC .

In the circuit shown in figure, if the charge on capacitor C_(2) in steady state is (10x)/3 muC , then find value of x . .