A capacitor `A` of capacitance `4muF` is charged to `30V` and another capacitor `B` of capacitance `muF` is charged to `15V`. Now, the positive plate of `A` is connected to the negative plate of `B` and negative plate of `A` to the positive plate of `B`. find the final charge of each capacitor and loss of electrostatic energy in the process.

A capacitor A of capacitance 4muF is charged to 30V and another capacitor B of capacirtance muF is charged to 15V . Now, the opositive plate of A is connected to the negative plate of B and negative plate of A to the positive plate of B . find the final charge of each capacitor and loss of electrostatic energy in the process.

Two parallel plates capacitors A and B having capacitance of 1 muF and 5 muF are charged separately to the same potential of 100 V. Now, the positive plate of A is connected to the negative plate of B and the negative plate of A to the positive plate of B. Find the final charges on each capacitors.

Two parallel plate condenser A and B having capacitances of 1 mu F and 5 mu F are charged separately to the same potential of 100V. Now the positive plate of A is connected to the negative plate of B and the negative plate of A to the positive plate of B. Common potential is

Two parallel plate condenser A and B having capacitances of 1 mu F and 5 mu F are charged separately to the same potential of 100V. Now the positive plate of A is connected to the negative plate of B and the negative plate of A to the positive plate of B. Final energy stored in capacitor is

Two parallel plate condenser A and B having capacitances of 1 mu F and 5 mu F are charged separately to the same potential of 100V. Now the positive plate of A is connected to the negative plate of B and the negative plate of A to the positive plate of B. Energy stored in capacitor is

47-A capacitor of capacitor 5.00 muF is charged to 24.0 V and another capacitor of capacitance 6.0muF is charged to 12.0V (a) Find the energy stored in each capacitor .(b)The positive plates of the first capcitor is now connnected to the negative plate of the second and vice versa . Find the new charges on the capacitors .(c)Find the loss of electrostatic energy during the process .(d)Where does this energy go?

A capacitor of capacitance 4muF is charged to 80V and another capacitor of capacitance 6muF is charged to 30V are connected to each other using zero resistance wires such that the positive plate of one capacitor is connected to the positive plate of the other. The energy lost by the 4muF capacitor in the process in X**10^(-4)J . Find the value of X.

A capacitor of capacitance 5 muF is charged to a potential difference of 10 volts and another capacitor of capacitance 9 muF is charged to a potential difference of 8 volts. Now these two capacitors are connected in such a manner that the positive plate of one is connected to the positive plate of other. Calculate the common potential difference across the two capacitors.

Two capacitors of capacitance 2muF and 4muF respectively are charged to a potential of 12 V. they are now connected to each other, with the positive plate of each joined to the negative plate of the other. The potential difference across each capacitor will be

A capacitor 4 muF charged to 50 V is connected to another capacitor of 2 muF charged to 100 V with plates of like charges connected together. The total energy before and after connection in multiples of (10^(-2) J) is