Five identical capacitors, of capacitance `20 muF` each, are connected to a battery of 150 V, in a combination as shown in the diagram. What is the total amount of charge stored ?

Two identical capacitors of 12 pF each are connected in series across a battery of 50 V. How much electrostatic energy is stored in the combination ? If these were connected in parallel across the same battery, how much energy will be stored in the combination now? Also find the charge drawn from the battery in each case.

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

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.

n capacitors, each of capacity C, are connected in series and to a source of V volt. What will be the energy stored in the arrangement?

Four capacitors of values 6muF, 6muF, 6muF and 2muF are connected to a 6v battery as shown in the figure. Determine the equivalent capacitance of the network (ii) the charge on each capacitor

A capacitor of capacitance 6 mu F is charged to a potential equal to 150 V. Its potential falls to 90 V, when another capacitor is connected to it. Find the capcitance of the second capacitor and the amount of energy lost due to the connection.

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 parallel plate capacitor of capacitances C is connected to a battery to charge it to a potential V. Similarly, another capacitor of capacitance 2C is charged to a potential 2V. Now the batteries are removed, and the two capacitors are connected in parallel by joining the positive plate to one with the negative plate of the other. Find out the final energy of the system.