In the given diagram. Find the heat generated on closing the switch S (Initially the capacitor of capacitance C is uncharged ) -

(i) Find the total charge flown through the battery in the arrangement shown in figure after switch S is closed (initially all the capacitors are uncharged). (ii) Find out final charge on each capacitor.

A 2muF capacitor that was initially uncharged is connected to a battery of EMF 100V and a resistance and the switch is closed. The heat generated in the resistance until the capacitor becomes fully charged is (in mJ):

The capacitor of capacitance C can be charged (with the help of a resistance R ) by a voltage source V, by closing switch S_(1) while keeping switch S_(2) open. The capacitor can be connected in series with an inductor 'L' by closing switch S_(2) and opening S_(1) . Initially, the capacitor was uncharged. Now , switch S_(1) is closed and S_(2) is kept open. if time constant of this circuit is tau , then

The current through the battery just after the switch S is Closed is (the capacitors are initially uncharged )

The capacitor of capacitance C can be charged (with the help of a resistance R ) by a voltage source V , by closing switch S_(1) while keeping switch S_(2) open.The capacitor can be connected in series with an series with an inductor L by closing switch S_(2) and opening S_(1) . Initially the capacitor was uncharged.Now switch S_(1) is closed and S_(2) is kept open.If time constant of this circuit is t , then

In the adjacent circuit, the capacitor 'A' of capacitance '3C' and the capacitor 'B' of capacitance 'C' are initially charged by potential drops 4_(varepsilon) and 8_(varepsilon) respectively and connected through and inductor of inductance 'L' with zero initial current as shown. The switch 'S' is closed at t = 0 . then the maximum current through the inductor is

Consider the circuit shown. Switch is closed at t=0. Find the current through the battery as a function of time. Initially capacitor was uncharged.

Find the charge that will flow through the wire A and B if the switch S is closed. The capacitance of each capacitance of each capacitor shown in the figure is C.

In the circuit diagram shown, initially there is no energy in the inductor and the capacitor, The switch is closed at t = 0 . Find the current I as a function of time if R=sqrt(L//C)

Find heat produced in the capacitors on closing the switch S after long time (in joules).