A coil of inductance 300 mH and resistance `2Omega` is conneted to a source of voltage 2 V. The current reaches half of its steady state value in

A coil of inductance 300mh and resistance 2Omega is connected to a source of voltage 2V . The current reaches half of its steady state value in

A solenoid of inductance 50 mH and resistance 10 Omega is connected to a battery of 6V. Find the time elapsed before the current acquires half of its steady - state value.

A solenoid of inductance 50 mH and resistance 10 Omega is connected to a battery of 6V. Find the time elapsed before the current acquires half of its steady - stae value.

A coil of inductance 8.4 mH and resistance 6 (Omega) is connected to a 12 V battery. The current in the coil is 1.0 A at approximately the time

A coil of inductance 8.4 mH and resistance 6 Omega is connected to a 12 V battery. The current in the coil is 1.0 A at approximately the time.

A coil of inductance 0.2 H and 1.0 ohm resistance is connected to a 90 V source. At what rate will the current in the coil grow at the instant the coil is connected to the source?

A coil of self inductance 2.5 H and resistance 20 Omega is connected to a battery of emf 120 V having internal resistance of 5 Omega . Find : The current in the circuit in steady state.

A potential difference of 6V is applied to a coil of inductance 0.5H and a resistance of 4 ohm connected in series. The time taken for the current to reach half the maximum value is (in seconds)

A coil of inductance 0.50H and resistance 100 Omega is connected to a 240V , 50Hz ac supply. What are the maximum current in the coil and the time lag between voltage maximum and current maximum?

A coil of self inductance 10 mH and resistance 0.1 Omega is connected through a switch battery of internal resistance 0.9Omega after the switch is closed, the time taken for the current to attain 80% of the saturation value is [taken ln5=1.6 ]