The flux (in weber) in a closed circuit of a resistance `10Omega` varies with time t (in seconds) according to equation `phi=12t^(2)-5t+1`. What is the magnitude of induced current at t=0.25 s?

The magnetic flux phi (in weber ) in a closed circuit of resistance 10 Omega varies with time t (in secnod) according to equation phi=6t^(2)-5T+1 . The magnitude of induced current at t=0.25 s is

The magnetic flux phi (in weber ) in a closed circuit of resistance 10 Omega varies with time t (in secnod) according to equation phi=6t^(2)-5T+1 . The magnitude of induced current at t=0.25 s is

The magnetic flux phi (in weber) in a closed circuit of resistance 10 Omega varies with time t ( in second) according to equation phi=5t^2-6t +2 . The magnetic of induced current at t = 0.5 s is

The magnetic flux in a closed circuit of resistance 10Omega varies with time according to equation , phi=6t^(2)-5t+1 . What is the magnitude of the induced current at t=0.25s ?

Flux phi (in weber) in a closed circuit of resistance 5 omega varies with time (in second) according to equation phi=3t^2-5t+2 . The magnitude of average induced current between 0 to 2s is

Flux phi (in weber) in a closed circuit of resistance 5 omega varies with time (in second) according to equation phi=3t^2-5t+2 . The magnitude of average induced current between 0 to 2s is

The magnetic flux in a closed circuit of resistance 20 Omega , varies with time (t) according to equation phi=8t^(2)-6t+5 . What is the magnitude of induced current at time t=1 sec ?

Magnetic flux in a closed circuit of resistance 20Omega varies with time tin accordance with equation phi = 6t^2-5t +1 . Find the magnitude of induced current at t=0.25 sec.