In fig. A2.27, the charge that flows from P to Q when the switch S is closed is

Five identical capacitors each of magnityde 5 muF are arranged with a battery of emf 20V as shown in . Initially, the switch is open. The charge that flows from point A to point B , when the switch is closed. .

in given circuit initially both capacitors were uncharged. Amount of total charge that will flow through point B when the switch s is closed is:

Find the charge flown when the switch S is closed.

Figure shows two conducting thin concentric shells of radi r and 3r . The outer shell carries a charge q. Inner shell in neutral. Find the charge that wilL flow from inner shell to earth the switch S is closed.

Figure shows two conducting thin concentric shells of radi r and 3r . The outer shell carries a charge q. Inner shell in neutral. Find the charge that wilL flow from inner shell to earth the switch S is closed.

In the circuit shown, the emf of each battery is E. Find the charges that will flow when the switch S is closed, through sections 1, 2 and 3 in the directions indicated by the arrows.

The flow of charge through switch S if it is closed is

Consider the situation shown in figure. The switch S is open for a long time and then closed. Find the charge flown through the battery when the switch S is closed.

Consider the situation shown in figure (31-E23 ) . The switch S is open for a long time and then closed . (a) Find the charge flown through the battery when the switch S is closed (b)Find the work done by the battery .

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.