The circuit shown in the Figure is in steady state. Find the rate of change of current through L immediately after the switch S is closed.

In the circuit diagram the current through the battery immediately after the switch S is closed is

In the circuit diagram the current through the battery immediately after the switch S is closed is

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 current through the resistor R_(2) just after the switch S is closed is :

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 current through the resistor R_(2) just after the switch S is closed is :

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 circuit is in steady state with switch S closed. Now the switch S is opened. Just after the switch S is opened. the current through resistance R_(1) is

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 circuit is in steady state with switch S closed. Now the switch S is opened. Just after the switch S is opened. the current through resistance R_(1) is

In the circuit shown in figure, the current through each resistor is I. Find the currents through the resistors immediately after the switch ‘S’ is opened. How much heat will get dissipated in the circuit after thw switch is opened ?

Consider the situation shown in the figure. The switch S is open for a long time and then closed and again steady state reached then (a) Find the charge flown through the battery after the switch S is closed. (b) Find the charge flown through the switch S from B to A. (c) Find the work done by the battery after the switch S is closed. (d) Find the change in energy stored in the system of capacitors. (e) Find the heat developed in the system after the switch S is closed.

Consider the situation shown in the figure. The switch S is open for a long time and then closed and again steady state reached then (a) Find the charge flown through the battery after the switch S is closed. (b) Find the charge flown through the switch S from B to A. (c) Find the work done by the battery after the switch S is closed. (d) Find the change in energy stored in the system of capacitors. (e) Find the heat developed in the system after the switch S is closed.

For the circuit shown in figure, the steady state current through each resistor