Shows a part of a circuit. If all the capacitors have a capacitance of `2 muF`, then the
.

Each resistor in the following circuit has a resistance of 2 M Omega and the capacitors have capacitances of 1muF . The battery voltage is 3V. The voltage across the resistor A in the following circuit in steady state is

In the given figure the capacitors C_(1), C_(3), C_(4),C_(5) have a capaciance 4 muF each if the capaitor C_(2) has a capacitance 10 muF , then effective capacitance between A and B will be

In the network given below all the five capacitors have the same capacitance C each . Then the capacitance between the terminal A and B will be

A circuit has section AB as shown in The emf of the cell is 10 V , and the capacitors have capacitances C_(1)=1 muF and C_(2)=2 muF . Find the voltage across each capacitor. .

Find equivalent capacitance across AB (all capacitances in muF )

Find the equivalent capacitance between A and B. All the capacitors have capacitance C.

Find the equivalent capacitance between A and B. All the capacitors have capacitance C.

The capacitance of each capacitor as shown in the circuit is C. The effective capacitance of the circuit between terminals A and B is

A capacitor A of capacitance 4muF is charged to 30V and another capacitor B of capacitance 2muF 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 of capacitance C_(1)=1 muF withstand a maximum voltage of V_(1)=6 KV , and another capacitor of capacitance C_(2)=2 muF , can with stand a maximum voltage of V_(2)=4KV . If they are connected in series, what maximum voltage will the system withstand?