An LR circuit has L= 1.0 H and `R=20 Omega`. It is connected across an emf of 2.0 V at t=0. Find di/dt and Ldi/dt at t=50ms.

An LR circuit has L = 1.0 H R =20 Omega . It is connected across an emf of 2.0 V at t=0 . Find di/dt at (a) t =100ms, (b) t =200 ms and (c )t = 1.0 s .

An LR circuit has L = 1.0 H R =20 Omega . It is connected across an emf of 2.0 V at t=0. Find di/dt at (a) t =100ms, (b) t =200 ms and (c ) t = 1.0 s.

An LR circuit has L = 1.0 H R =20 Omega . It is connected across an emf of 2.0 V at t=0. Find di/dt at (a) t =100ms, (b) t =200 ms and (c ) t = 1.0 s.

An LR series circuit has L=1 H and R=1 Omega .It is connected across an emf of 2 V .The maximum rate at which energy is stored in the magnetic field is:

An LR series circuit has L=1 H and R=1 Omega .It is connected across an emf of 2 V .The maximum rate at which energy is stored in the magnetic field is:

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 .

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 .

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 coil A and B have inductances 1.0 H and 2.0 H respectively. The resistance of each coil is 10 Omega . Each coil is connected to an ideal battery of emf 2.0 V at t = 0 Let i_A and i_B be the current in the two circuit at time t. Find the raito i_A/ I_B at (a) t=100ms, (b) t= 200 ms and (c ) t = 1 s.

Two coil A and B have inductances 1.0 H and 2.0 H respectively. The resistance of each coil is 10 Omega . Each coil is connected to an ideal battery of emf 2.0 V at t = 0 Let i_A and i_B be the current in the two circuit at time t. Find the raito i_A/ I_B at (a) t=100ms, (b) t= 200 ms and (c ) t = 1 s.