The charge across the capacitor in two different `RC` circuit `1` and `2` are potted as shown in figure.

Identify the correct statement `(s)` related to the `R_(1),R_(2),C_(1)` and `C_(2)` of the two `RC` circuit-

The charge across the capacitor in two different RC circuit 1 and 2 are potted as shown in figure. Choose the correct statement (s) related to the two circuit.

The instantaneous charge on capacitor in two discharging RC circuils is plotted with respect to time in figure. Choose the correct statement (s) (where E_(1) and E_(2) are emfs of two DC sources in two different charging circuits and capacitors are fully charged ).

Find the charge on the capacitor C = 1muF in the circuit shown in the figure.

what is the charge stored on each capacitor C_1 and C_2 in the circuit shown in fig.

if 20C_(r-1)=20C_(r+1) then rC_(5)

Two capacitors C_(1) and C_(2) are connected in a circuit as shown in figure. The potential difference (V_(A) - V_(B)) is

Current growth in two L-R circuits (b) and (c ) as shown in figure (a). Let L_(1), L_(2), R_(1) and R_(1) be the corresponding values in two circuits. Then

The current growth in two L-R circuits (b) and (c) is as shown in Fig. Let L_(1), L_(2), R_(1) and R_(2) be the corresponding values in two circuits. Then

Consider two circuits given below. When switches S_(1) and S_(2) are closed at t = 0 , the charge on capacitors C_(1) and C_(2) change with time as shown in graph 1 and 2 respectively. The current i_(1) and i_(2) in the two circuits change as shown in graph 1' & 2' respectively. Write the variation of current in the second circuit as function of time after the switch is closed at t=0. e^(-1) =0.37

Two resistance R_(1) and R_(2) are joined as shown in figure to two batteries of emf E_(1) and E_(2) . If E_(2) is short circuited, what is the current through R_(1) ?