Show that, if the flux of magnetic induction through a coil changes from `phi_1` to `phi_2` , then the charge q that flows through the circuit of total resistance R is given by `q = (phi_2+phi_1)/R`

The magnetic flux through a coil of 50 turns changes from 0.3wb per turn to zero in 1sec. Calculate the emf induced across the two ends of the coils.

Show that the magnetic flux through a surface of area A placed in a uniform magnetic field B is defined as phi_B = BA cos theta where theta is the angle between vec A and vec B .

Two parallel Co-axial Coils of equal radius R and- numbers of turn N carrying equal currents I in same direction.are separated by a distance | R. Show that the magnetic field intensity B on the axis around the mid point between the coils is uniform over a very small distance as compared to R and is given by- B = (4/5)^(3/2) (mu_0IN)/R

Deduce the expression of total flux Phi through a surface S.

Show that the flux delta Phi of electric field E through a small area element delta S is given by delta Phi=E deltaS when delta S = |deltaS|hatn

A pair of adjacent coils has a mutual inductance of 1.2H. If the current in one coil changes from 0 to 18A in 0.4s, what is the change in flux linkage with the other cell?