Find the charge stored in the capacitor.

The charge stored in the capacitor is

Find the energy stored in the capacitor.

The charge stored in 2muF capacitor is

The distance between the two plates of a parallel plate air capacitor is 3mm, and the radius of earch plate is 9 cm. It is given a charge of 10^(-7)C with a battery. Determine the energy stored in the capacitor. What will be the values of energy stored if a slab of dielectric constant 4 is introduced between the two plates Keeping the battery connected

The distance between the two plates of a parallel plate air capacitor is 3mm, and the radius of earch plate is 9 cm. It is given a charge of 10^(-7)C with a battery. Determine the energy stored in the capacitor. What will be the values of energy stored if a slab of dielectric constant 4 is introduced between the two plates After removing the battery?

In the circuit shown in figure, find the charge stored in each capacitance

In the circuit shown in figure switch s is closed at time t = 0. Find the current through different wires and charge stored on the capacitor at any time t.

Two capacitors of capacitances 0.5 mu F and 0.75 mu F are connected in parallel. A potential difference of 600 V is applied to this combination. What are the charges on the two capacitors? Now, the two capacitors are connected in series and the same potential difference is applied. Find out the charges on the capacitors in this case.

A capacitor of capacitance C is charged fully by connecting it to a battery of emf B. It is then disconnected from the battery. If the separation between the plates of the capacitor is now doubled, how will the following change ? charge stored by the capacitor.

A battery continues to charge a parallel plate capacitor until the potential difference between its plates becomes equal to the battery. The ratio of the energy stored in the capacitor to the work done by the battery will be