An LR combination is connected to an idal battery. If l = 10 mH, R = 2.0 Omega and epsilon = 2.0 V, how much time will it take for the current ot reach 0.63 A?

An L-R combination is connected to an ideal battery. If L = 20 mH, R = 100 Omega and epsilon = 10V , find (i) the time constant (ii) the maximum current and (iii) the time elapsed before the current reaches 90% of the maximum value.

A L-R combination is connected to a battery of emf 4 volt. If L = 0.1 H and R = 4.0 Omega , then the time taken to reach a current of 0.631 ampere is:-

A solenoid having inductance 4.0 H and resistance 10 Omega is connected to a 4.0 V battery at t = 0. Find (a) the time constant, (b) the time elapsed before the current reached 0.63 of its steady state value, (c ) the power delivered by the battery at this instant and (d) the power dissipated in Joule heating at this instant.

A solenoid has an inductance of 50 mH and a resistance of 0.025 Omega . If it is connected to a battery, how long will it take for the current to reach one half of its final equilibrium value?

A coil of self inductance 10 mH and resistance 0.1Omega is connected through a switch to a 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: [take ln 5 = 1.6]

An LR circuit having L = 4.0 H, R = 1.0 Omega and epsilon = 6.0 V is switched on at t = 0 . find the power dissipated in joule heating at t = 4.0 s .

Two resistors of resistances 2Omega and 6Omega are connected in parallel. This combination is then connected to a battery of emf 2 V and internal resistance 0.5 Omega . What is the current flowing thrpough the battery ?

An inductor of inductance 10 mH and a resistance of 5 is connected to a battery of 20 V at t = 0. Find the ratio of current in circuit at t =  to current at t = 40 sec