The magnetic flux through a stationary loop with resistance R varies during interval of time T as `phi` = at (T – t). The heat generated during this time neglecting the inductance of loop will be

A magentic flux through a statinary loop with a resistance R varies during the tiem interval tau as Phi = at (tau - t) . Find the amount of heat generated in the loop during that time. The inductance of the loop is to be neglected.

A magnetic flux through a stationary loop with a resistance R varies during the time interval tau as phi=at(tau-t) . Find the amount of the generated in the loop during that time

The charge flowing through a resistance R varies with time t as Q = at - bt^(2) . The total heat produced in R is

The magnetic flux (in weber) linked with a coil of resistance 10 Omega is varying with respect to time t phi = 4t^(2) + 2t + 1 . Then the current in the coil at time t = 1 second is

The magnetic flux through a circuit of resistance R changes by an amount Delta phi in a time Delta t . Then the total quantity of electric charge Q that passes any point in the circuit during the time Delta t is represented by

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

The magnetic flux through a coil perpendicluar to its plane and directed into paper is varying according to the relation phi=(2t^(2)+4t+6)mWb . The emf induced in the loop at t=4 s is

The flux of magnetic field through a closed conducting loop of resistance 0.4 Omega changes with time according to the equation Phi =0.20 t^(2)+0.40t+0.60 where t is time in seconds.Find (i)the induced emf at t=2s .(ii)the average induced emf in t=0 to t=5 s .(iii)charge passed through the loop in t=0 to t=5s (iv)average current.In time interval t=0 to t=5 s (v) heat produced in t=0 to t=5s