A capacitor of capacity C having charge q and `3q`, on the plate `P_(1)` and `P_(2)` respectively as shown in figure. Now switch 'S' is closed, find the work done by the battery. (take `q = CV` )

A capacitor of capacity C having charge q and 3q , on the plate P_(1) and P_(2) respectively as shoen in figure. Now switch 'S' is closed, find the work done by the battery. (take q = CV )

Consider the situation shown in figure. The switch S is open for a long time and then closed. Find the work done by the battery .

The plates of a capacitor of capacitance C are given the charges Q_1 and Q_2 as shown in figure. Now the switch is closed at t =0. Find the charges on plates after time t.

Three capacitors each having capacitance C=2uF are connected with a battery of emf = 30V as shown in figure. When the switch S is closed.

Three capacitors each having capacitance C=2 muF are connected with a battery of emf 30 V as shown in. when the switch S is closed, find a. the amount of charge flowing through the battery , b. the heat generated in the circuit, c. the energy supplied by the battery, d. the amount of charge flowing through the switch S. .

A capacitor of capacity C hasd charge Q and stored energy is W. if the charge is increased to 2Q, then the stored energy will be

Charges +q and -q are located at the corners of a cube of side as show in the figure. Find the work done to separate the charges to infinite distance

Charges q_(1) , q_(2) and q_(3) are placed on capacitors of capacitance C_(1) , C_(2) and C_(3) , respectively, arranged in series as shown. Switch S is there closed. What are the final charges q'_(1) , q'_(2) and q'_(3) on the capacitors? Given q_(1)=30muC , q_(2)=muC , q_(3)=10muC , C_(1)=10muF , C_(2)=20muF , C_(3)=30muF and epsilon=12"volt"

Three capacitors C_1,C_2,andC_3 of capacitance 1muF, 2muF, and 3muF , respectively, are charged separately as shown in the figure. Now these charged capacitors are connected to a battery of epsilon = 20 V and an uncharged capacitor of C = 2muF as shown in figure. , The potential of point P is

Three capacitors C_1,C_2,andC_3 of capacitance 1muF, 2muF, and 3muF , respectively, are charged separately as shown in the figure. Now these charged capacitors are connected to a battery of epsilon = 20 V and an uncharged capacitor of C = 2muF as shown in figure. , The charge on capacitor marked C is