Capacity of a capacitor is `48mu F`. When it is charged from `0.1` C to `0.5` C , change in the energy stored is

The capacity of a parallel plate air capacitor is 10muF and it is given a charge of 40muC . The electrical energy stored in the capacitor is

The charge on a 48 muF capacitor is increased from 0.1 C to 0.5 C. the enerrgy stored in the capacitor increases by

A capacitor of capacity 10muF is subjected to charge by a battery of 10 V. Calculate the energy stored in the capacitor.

Three series capacitors of capacitances 2.0, 3.0 and 6.0 mu F are charged by a 60 V vattery. Find the total energy stored.

A capacitor of 8mu F is charged to a potential of 1000 V.The energy stored in the capacitor is ......

A capacitor of capacitance 6 mu F is charged upto 100 volt. The energy stored in the capacitor is

Two capacitors of equal capacitance ( C_1 = C_2 ) are shown in the figure. Initially, while the switch S is open, one of the capacitors is uncharged and the other carries charge Q0. The energy stored in the charged capacitor is U0. Sometimes after the switch is colsed, the capacitors C_1 and C_2 carry charges Q_1 and Q_2, respectively, the voltages across the capacitors are V_1 and V_2 , and the energies stored in the capacitors are U_1 and U_2 . Which of the following statements is INCORRECT ?

A capacitor carries a charge of 6 mu C at a potential 500 V. The electrostatic energy stored in it is

A parallel plate capacitor of capacity C_(0) is charged to a potential V_(0), E_(1) is the energy stored in the capacitor when the battery is disconnected and the plate separation is doubled, and E_(2) is the energy stored in the capacitor when the charging battery is kept connected and the separation between the capacitor plates is dounled. find the ratio E_(1)//E_(2) .