In the circuit shown, `S_(2)` is closed first and is kept closed for a long time. Now `S_(1)` is closed. Just after that instant the current through `S_(1)`is

In the circuits shows in S_(1) and S_(2) are switches. S_(2) remains closed for a long time and S_(1) is opened. Now S_(1) is also closed. Just after S_(1) is closed, find the potential difference (V) across R and di//dt (with sign) in L .

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 given circuit switch S_(2) is Kept closed and S_(1) is kept open for a very long time such that the system is in steady- state . Now S_(1) is also slosed keeping S_(2) closed. Current passing through R just after S_(1) is closed , is :

In the given circuit switch S_(2) is Kept closed and S_(1) is kept open for a very long time such that the system is in steady- state . Now S_(1) is also slosed keeping S_(2) closed. Current passing through inductor L time after S_(1) is closed , is :

At t=0 switch S_(1) is closed and remains closed for a long time and S_(2) remains open. Now S_(1) is opened and S_(2) is closed. Find out (i) The current through the capacitor immediately after that moment (ii) Charge on the capacitor long after that moment. (iii) Total charge flown through the cell of emf 2_(epsilon) after S_(2) is closed.

In the circuit shown, the switch is closed at t=0. Select the correct alternative(s)

In the circuit shown in the figure, if switches S_(1) and S_(2) have been closed for a long time, then charge on the capacitor.

In the circuit shown in figure the switch S is closed at t = 0. A long time after closing the switch

As shown in diagram initial charge on capacitor is zreo . Now switch S_(1) is closed & it remains closed for a long time but S_(2) remains open . Now switch S_(1) is opened & switch S_(2) is closed at t=0, then after closing the switch S_(2) :

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.