The heat generated through `4 Omega and 9 Omega` resistances separately , when a capacitor pf `100 my F` capacity charged to `200 V` is discharged one by one , will be

The heat generated through 2 ohm and 8 ohm resistances separately, when a condenser of 200 mu F capacity charged to 200 V is discharged one by one, will be

A capacitor of capacitance 500(mu)F is connected to a battery through a (10 k (Omega)) resistor.The charge stored on the capacitance 2(mu)F are separately charged by a common battery for a long time. The two capacitors are then separately discharged through equal resistors.Both the discharge circuits are connected at t=0.

A capacitor of capacitance 3 mu F is first charged by connecting it across a 10 V battery by closing key K_(1) , then it is allowed to get discharged through 2 Omega and 4 Omega resistors by opening K_(1) and closing the key K_(2) . The total energy dissipated in the 2 Omega resistor is equal to

A capacitor of capacitance 3muF is first charged by connecting it across a 10 V battery by closing key K_(1) . Then it is allowed to get discharged through 2 Omega and 4 Omega resistors by closing the key K_(2) . The total energy dissipated in the 4 Omega resistor is equal to

Calculate the heat in joules, generated in a coil of resistance 400 'omega' in 2 minutes when a potential difference of 200 V is applied to it.

Calculate the heat in joules, generated in a coil of resistance 400 'omega' in 2 minutes when a potential difference of 200 V is applied to it.

A mu F capacitor is charged by a 400 V supply through 0.1 M Omega resistance. The time taken by the capacitor to develop a potential difference of 300 V is : (Given log_(10) 4 = 0.602 )

The resistance of 100 Omega and 200 Omega are connected in series with the 220 V mains. When a voltmeter of 1000 Omega resistance is connected in parallel to 100 Omega , then the reading of voltmeter is –