A `5muF` capacitor is connected in series with a `10muF` capacitor. When a 300 volt potential difference is applied across this combination, the total energy stored in the capacitors is

A 5 mu F capacitor is connected in series with a 10 mu F capacitor. When a 300 Volt potential difference is applied across this combination, the total energy stored in the capacitors is

The charge stored in 2muF capacitor is

A 2muF capacitor is charged to a potential of 20V. Another 3muF uncharged capacitor is connected in parallel with the first capacitor. What would be the terminal potential difference of the combination? Find out the charges on the two capacitors?

The capacitances of two capacitors are 2 mu F and 8 mu F . They are connected in series and a potential difference of 100 V is applied across the combination. What are The potential differences across the two capacitors?

The capacitances of two capacitors are 2 mu F and 8 mu F . They are connected in series and a potential difference of 100 V is applied across the combination. What are Charges on both the capacitors, and

Deduce an expression for the potential energy stored in a parallel plate capacitor.

The capacitances of two capacitors are 2 mu F and 8 mu F . They are connected in series and a potential difference of 100 V is applied across the combination. What are The total charge of the combination

Deduce an expression from the potential energy stored in a parallel plate capacitor.

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.

If the potential difference between the plates of a capacitor is increased by 20%, the energy stored in the capacitor increase by exactly