Two inductors ` underset(1)(L) `and ` underset(2)(L) ` are connected in parallel and a time varying current flows as shown in figure. Then the ratio currents ` underset(1)(l) ` / `underset(2)(l) ` at any time t is

Two inductors L_(1) and L_(2) are connected in parallel and a time varying current flows as shown. the ratio of current i-(1)//i_(2)

Current l in the network shown in figure is

For series L-C-R circuit shown in the figure, the readings of underset(1)(V) and underset(3)(V) are same and each equal to 100 V .Then

Current l in the network shown is figure is

If the Wheateston's network shown in the figure, the current l in the circuit is

A Zener diode is connected to a battery and a load as shown below. The currents l, l_(Z) and l_(L) are respectively :-

Two identical charged particles are projected simul- taneously from origin in xy plane. Each particle has charge q and mass m and has been projected with velocity v as shown in the figure. There exists a uniform magnetic field B in negative z direction. (i) Find underset(V)to_(1).underset(V)to_(2) at time t where underset(V)to_(1) and underset(V)to_(2) are velocities of the particles at time t. Find underset(V)to_(1).underset(V)to_(2) at time t=(pim)/(qB) where underset(r)to_(1).underset(V)to_(2) are the position vectors of the two particles.

Two coils of self inductance L_(1) and L_(2) are connected in parallel and then connected to a call of emf epsilon and internal resistance - R. Find the steady state current in the coils.