A `5.0 muF` capacitor having a charge of `20 muC` is discharged through a wire of resistance `5.0 Omega`. Find the heat dissipated in the wire between 25 to `50 mus` after the connections are made.

A 5.0(mu)F capacitor having a charge of (20 (mu)C) is discharged through a wire aof resistance (5.0 Omega) . Find the heat dissipated in the wire between 25 to 50 (mu)s after the connections are made.

A capacitance C charged to a potential difference V is discharged by connecting its plates through a resistance R. Find the heat dissipated in one time constant after the connections are made. Do this by calculating int i^(2)Rdt and also by finding the decrease in the energy stored in the capacitor.

If a current of 0.6 ampere is passed through a wire having resistance 15 Omega for 2 minute, calculate the heat generated in the wire in joule.

A charged capacitor of capacitance 40 muF is discharged through a 50Omega resistance. Determine the time constant of the circuit.

An electric current of 2.0 A passes through a wire of resistance 25 Omega . How much heat will be developed in 1 minute?

A 20(mu)F capacitor is joined to a battery of emf 6.0V through a resistance of 100(Omega) .find the charge on the capacitor 2.0ms after the connections are made .

A potential difference of 100 V is applied across a wire of resistance 50 Omega for one minute. Find the heat produced in joule.

An electric current of 2.0A passes through a wire of resistance 25Omega How much heat will be developed in 1 minute?

A 20 muF capacitor is connected to 45 V battery through a circuit whose resistance is 2000 Omega. What is the final charge on the capacitor ?