In given circuit initially switch `S_(w_(1))` is closed and `S_(w_(2))` is open, Now `S_(w_(1))` is opened and `S_(w_(2))` is closed, what is the heat liberated in resistance R?

In the given circuit, initially switch S_(1) is closed, and S_(2) and S_(3) are open. After charging of capacitor, at t = 0 , S_(1) is opened and S_(2) and S_(3) are closed. If the relation between inductance, capacitance and resistance is L = 4 CR^(2) , tehn find the time (in s) after which current passing through capacitor and inductor will be same (given R = In2 m Omega,L = 2 mH )

Consider the network shown in initially, the switch S_(1) is closed and S_(2) is open. a. Calculate V_(A) - V_(B). b. When S_(2) is also closed, what is V_(A) - V_(B) i. just after closing , ii. After long time.

In the circult shown the switch S_(1) is closed at time t=0 and the swith S_(2) is kept open. At some later time (t_(0)) ,the swith S_(1) is opened and S_(2) is closed .The behaviour of the current I as a function of time 't' is given by :

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 given circuit the power dissipated through resistance R_(1) = 9 Omega is P_(1) , when switch S_(1) is closed and S_(2) is opened and the power dissipated through resistance R_(2) = 4 Omega is P_(2) , when switch S_(2) is closed and S_(1) is opened. If P_(1) = P_(2) , then r is equl to :

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) :

In the circuit shown, when switch S_(1) is closed and S_(2) is open, the ideal voltmeter shows a reaiding of 18 V . When switch S_(2) is closed and S_(1) is open, the reading of voltmeter is 24 V . When S_(1) and S_(2) both are closed, the voltmeter reading will be

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 .

In a circuit S_(1) remains closed for a long time and S_(2) remain open. Now S_(2) is closed and S_(1) is opened. Find out the di//dt in the right loop just after the moment.

In a circuit S_(1) remains closed for a long time and S_(2) remain open. Now S_(2) is closed and S_(1) is opened. Find out the di//dt in the right loop just after the moment.