A capacitor of capacitance `10 muF` is charged by connecting through a resistance of `20 Omga` and battery of 20 V. What is the energy supplied by the battery?

A capacitor of capacitance 10muF is connected to a resistance 2Omega and a battery of emf 5V of negligible interanl resistance. After 20mus of comleting the circuit find. a. power delivered by the battery b. power dissipated as heat c. rate of energy stored in the capacitor

A capacitor of capacitance 200mu F is connected across a battery of emf 10.0 V through a resistance of 40 k Omega for 16.0 s. The battery is then replaced by a thick wire. What will be the charge on the capacitor 16.0 s after the battery is disconnected ? (Given : e^(-1)=0.135 )

A capacitor of capacitance 200 muF is connected to a battery through a resistance of 5 kOmega at time t = 0. Charge stored in the capacitor in first second in larger than the charge stored in the next

Two capacitor of capacitance 4.0mmmmuF and 6.0muF are connected in series with a bettery of 20V . Find the energy supplied by the bettery .

Two capacitors of capacitances 4muF and 6muF are connected in series with a battery of 20 V. find the energy supplied by the battery.

Two capacitors of capacitance 20.0 pF and 50.0 pF are connected is series with a battery of 20 V. Find the energy supplied by the battery.

A capacitor of capacitance 100(mu)F is connected across a battery of emf6.0V through a resistance of 20k(Omega) for 4.0s after the battery is disconnecting?

A capacitor of capacitance 1muF is connected in parallel with a resistance 10Omega and the combination is connected across the terminals of a battery of EMF 50 V and internal resistance 1Omega . The potential difference across the capacitor at steady state is (in Volt)