In a coil of resistance R, magnetic flux due to an external magnetic field varies with time as `phi=k(C-t^(2))`. Where k and C are positive constants. Find the total heat produced in coil in time t=0 to t=C.`

The charge flowing through a resistance R varies with time t as Q=at-bt^(2) , where a and b are positive constant. The total heat produced in R is

The magnetic flux (phi) linked with the coil depends on time t as phi=at^(n) , where a and n are constants. The emf induced in the coil is e

The magnetic flux linked with a coil varies with time as phi=3t^(2)+4t+9 webers. The induced emf at t=2s is

The magnetic flux phi linked with a conducting coil depends on time as phi = 4t^(n) + 6 , where n is positive constant. The induced emf in the coil is e

Two coils, 1 & 2, have a mutual inductance = M and resistances R each. A current flows in coil 1, which varies with time as: I_(1)=kt^(2) , where K is a constant and 't' is time. Find the totalcharge that has flown through coil 2, between t=0 and t=T.

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