Figure shows a battery with emf 15 V in a circuit with `R_1 = 30Omega, R_2 = 10 Omega, R_3 = 20 Omega` and capacitance `C = 10 muF`. The switch S is initially in the open position and is then closed at time t= 0. What will be the fimal steady - state charge on capacitor?

The figure below shown a battery with emf 15 V in a circuit with R_(1) = 30 (Omega), R_(3) = 20 (Omega and L = 3.0 H . The switch S is initially in the open position and is then closed at time t = 0. Then the graph which shows the correct variation of current through battery after switch S is closed

The figure below shown a battery with emf 15 V in a circuit with R_(1) = 30 (Omega), R_(3) = 20 (Omega and L = 3.0 H . The switch S is initially in the open position and is then closed at time t = 0. Then the graph which shows the correct variation of current through battery after switch S is closed

In the circuit shown , the batteries have emf E_1 = E_2= 1V , E_3 = 2.5 V, and the resistance R_1 = 10Omega, R_2 = 20 Omega , Capacitance C = 10 muF . The charge on the left plate of the charge on the left plate of the capacitor C at steady state is

In the circuit shown , the batteries have emf E_1 = E_2= 1V , E_3 = 2.5 V, and the resistance R_1 = 10Omega, R_2 = 20 Omega , Capacitance C = 10 muF . The charge on the left plate of the charge on the left plate of the capacitor C at steady state is

In Fig, E =5 volt , r = 1 Omega, R_(2) = 4 Omega, R_(1) = R_(3) = 1 Omega and C = 3 muF . Then the numbercal value of the charge on each plate of the capacitor is

In the circuit R_(1) = 4 Omega , R_(2) = R_(3) = 15 Omega R_(4) = 30 Omega and E = 10 V Calculate the equivalent resistance of the circuit and current in each resistor

In the circuit shown in fig. R_(1) = 10 Omega, R_(2) = 5 Omega, C_(1) = 1 muF, C_(2) = 2muF, and E =6V. Calculate the charge on each capactor in the stedy state.

The circuit consists of two resistors (of resistance R_(1) = 20 Omega and R_(2) = 10 Omega ), a capacitor (of capacitance C =10 muF ) and two ideal cells. In the circuit shown the capacitor is in steady state and the switch S is open The charge on capacitor in steady state with switch S closed.