A capacitor of capacitance `C= 500 mu F` is connected to a source of constant e.m.f `E = 200 V`. Then the switch Sw was thrown over from contact 1 to contact 2. Find the amount of heat generated in a resistance `R_(1) = 500 Omega` if `R_(2) = 330 Omega`

A capacitor of capacitance C = 5.00 muF is connected to a source of constant emf xi = 200 V (Fig). Then the swich Sw was thrown over from contact 1 to conatact 2. Find the amount of heat generated in a resistance R_(1) = 500 Omega if R_(2) = 300 Omega

A capacitor of capacitance 5muF is connected to a source of constant emf of 200 V ,Then switch was shifted to contact 2 from contact 1. Find the amount of heat generated in the 400Omega resistance.

To the cirucit shown in figure-3.254 a capacitor of capacitance 5muF is connected to a source of constant emf of 200V. Then the switch was shifted to contact 2 from contact 1. Find the amount of heat generated in the 400Omega resistance.

A capacitor of capacitance 5muF is connected to a source of constant emf of 200V for a long time then the swict was shifited to contact 2 form contant 1. The total amount fo heat generated in the 500 omega resistance thereafter .

A coil of inductance L = 2.0 mu H and resitance R = 1.0 Omega is connected to a source of constant emf E = 3.0 V . A resistance R_(s) = 2.0 Omega is connected in parallel with the coil. Find the amount of heat generated in the coil after the swich Sw is disconnecied. The internal resistance of the source is negligible.

An uncharged capacitor of capacitance 100 mu F is connected to a battery of emf 20V at t = 0 through a resistance 10 Omega , then (i) the maximum rate at which energy is stored in the capacitor is :

An uncharged capacitor of capacitance 8.0 mu F is connected to a battery of emf 6.0 V through a resistance of 24 Omega , then (ii) The current in the circuit at one time constant after the connections are made is :