The figure below shows a battery of emf `epsilon` connected to an inductor L and resistance R in series. If the switch is closed at t=0, then the total charge that flows from the battery in time constant of the circuit is

As shown in the figure, a battery of emf is connected to an inductor L and resistance R in series. The switch is closed at . The total charge that flows from the battery, between t=t_e and t=2t_e ( t_e is the time constant of the circuit) is:

As shown in the figure, a battery of emf epsilon is connected to an inductor L and resistance R in series. The switch is closed at t=0 . The total charge that flows from the battery, between t=t_e and t=2t_e ( t_e is the time constant of the circuit) is:

As shown in the figur a battery of emf in is conneced to an inductor L and resistance R in series . The swith is closed at t =0 . The total charge that flows form the battery between t 0 and t= t_(c) ( t_(c) is the time constant of the circuit )is :

The switch shown in figure is closed at t=0 find the charge throuh battery till time t=(L)/(R)

The switch shown in figure is closed at t=0 find the charge throuh battery till time t=(L)/(R)

In the circuit shown in figure switch S is closed at time t=0 . The charge which passes through the battery in one time constant is

Consider the LR circuit shown in the figure. If the switch S is closed at t = 0 then the amount of charge that passes through the battery between t=0 and t=L/R is

In the circuit shown in figure switch S is closed at time t=0, which statement is true after one time constant of L-R circuit?

A circuit is connected as shown in the figure with the switch S open. When the switch is closed, the total amount of charge that flows from Y to X is .

In the circuit shown in figure switch S is closed at time t=0 Current I from the battery at time t is given by