The magnetic flux passing through a metal ring varies with time `t` according to `phi_(B)=6t^(3)-I8t^(2)` , `t` is in second. The resistance of the ring is `3Omega` . Determine the maximum current induced in the ring during the interval from `t=0` to `t=2sec` .

The magnetic flux passing through a metal ring varies with time t as: phi_(B)=3(at^3-bt^2)T-m^2 with a=2.00s^-3 and b=6.00s^-2 . The resistance of the ring is 3.0Omega . Determine the maximum current induced in the ring during te interval from t=0 to t=2.0s .

The magnetic flux passing through a metal ring varies with time t as: phi_(B)=3(at^3-bt^2)T-m^2 with a=2.00s^-3 and b=6.00s^-2 . The resistance of the ring is 3.0Omega . Determine the maximum current induced in the ring during te interval from t=0 to t=2.0s .

The magnetic flux passing through a coil perpendicular to is plane is a function of time and is given by Phi_(B)=(2t^(3)+4t^(2)+8t+8) Wb. If he resistance of the coil is 5Omega, determine the induced current through the coil at a time t = 3 second.

The normal magnetic flux passing through a coil changes with time according to the equation phi = 6t^2 - 5t + 1 . What is the magnitude of the induced current at t = 0.253 s and resistance 10 Omega ?

The magnetic flux through a surface varies with time as follows : phi = 12t^2+7t+3 Here phi is in milliweber and t is in seconds. The induced emf at t=5s ?

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 ?

The magnetic flux through a coil varies with time t as follows: phi_(t) = (8t^(3) - 6t^(2) + t - 5) Wb What is the induced current through the coil at t = 4 s, given that the resistance of the coil is 10 Omega and the magnetic flux through the coil is perpendicular to its plane?