When steady state is reached, switch `S` is opened. Then the amount of heat rejected by the resistor is `800K` Joule. Then find the value of `K`.

In the connection shown in the figure, initially the switch K is open and the capacitor is uncharged. Then the switch is closed, and the capacitor is charged up to the steady state and the switch is opened again. Determine the values indicated by the values indicated by the ammeter just after closing the switch [Given V_0 = 30 V, R_1 = 10k Omega, R_2 = 5kOmega ] . A long time after switch was closed.

Initially the circuit is in steady state. When the switch S is closed, the heat generated in the circuit will be

In the connection shown in the figure, initially the switch K is open and the capacitor is uncharged. Then the switch is closed, and the capacitor is charged up to the steady state and the switch is opened again. Determine the values indicated by the values indicated by the ammeter. [Given V_0 = 30 V, R_1 = 10k Omega, R_2 = 5kOmega ] . A long time after the switch was closed.

In the connection shown in the figure, initially the switch K is open and the capacitor is uncharged. Then the switch is closed, and the capacitor is charged up to the steady state and the switch is opened again. Determine the values indicated by the values indicated by the ammeter. [Given V_0 = 30 V, R_1 = 10k Omega, R_2 = 5kOmega ] . A long time after the switch was closed.

An inductor of inductance L=400 mH and resistors of resistances R_1=2Omega and R_2=2Omega are connected to a battery of emf E=12 V as shown in the figure. The internal resistance of the battery is negligible. The switch S is closed at time t=0 . What is the potential dro across L s a function of time? After the steady state is reached, the switch is opened. What is the direction ad the magnitude of current throough R_1 as a function of time?

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.

Analyse the given circuit in the steady state condition. Charge on the capacitor is q_(0)=16muC . If the e.m.f. of the battery is 6k then find the value of k .

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, the switch 'S' is closed at t = 0 . Then the current through the battery steady state reached is

In the circuit diagram shown in figure, initially switch S is opened and the circuit is in steady state. At time t=0, the switch S is closed and the new steady state is reached after some time. Choose the correct option(s)