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`.

Magnetic flux passing through a coil varies with time as, phi=(2t^(2)-4) weber, Resistance of the coil is 10Omega .

The magnetic flux through a coil varies with time as phi=5t^2-6t+9. The ratio of E.M.F. at t=0s" to "t=0.5s will be

The magnetic flux through a coil varies with time as phi=5t^2+6t+9 The ratio of emf at t = 3 s to t = 0 s will be

Current (i) passing through a coil varies with time t as i=2t^(2) . At 1 s total flux passing through the coil is 10 Wb. Then

A conducting loop of area 5.0 cm^2 is placed in a magnetic field which varies sinusoidally with time as B = B_0 sin omegat where B_0 = 0.20 T and omega = 300 s^(-1) . The normal to the coil makes an angle of 60^@ with the field. Find (a) the maximum emf induced in the coil, (b) the emf induced at t = (pi/900)s and (c) the emf induced at t = (pi/600)s .

The magnetic flux (phi) in a closed circuit of resistance 20 Omega varies with time (t) according to the equation phi = 7t^(2) - 4t where phi is in weber and t is in seconds. The magnitude of the induced current at t =0.25s is

Displacement of a particle of mass 2 kg varies with time as s=(2t^(2)-2t + 10)m . Find total work done on the particle in a time interval from t=0 to t=2s .

The magnetic flux through a coil perpendicular to its plane is varying according to the relation phi_(B)= (5t^(3) +4t^(2) + 2t - 5) weber. Calculate the induced current through the coil at t = 2 second. The resistance of the coil is 5 Omega .

A magnet is taken towards a conducting ring in such a way that a constant current of 10mA is induced in it. The total resistance of the ring is 0.5Omega . In 5s , the magnetic flux through the ring changes by

A magnet is taken towards a conducting ring in such a way that a constant current of 10mA is induced in it. The total resistance of the ring is 0.5Omega . In 5s , the magnetic flux through the ring changes by