In the figure the flux through the loop perpendicular to the plane of the coil and direciton into the paper varying according to the relation `phi=6t^(2)+7t+I` where `phi` is in milliweber and `t` is in loop at `t=2s` and direction of induced current through `R` are

The magnetic flux passing perpendicular to the plane of the coil and directed into the paper is varying according to the relation phi=6t^2 +7t+1 Where phi is in milliweber and t is in seconds. What is the direction of current through resistor R?

The magnetic flux passing perpendicular to the plane of the coil and directed into the paper is varying according to the relation phi=6t^2 +7t+1 Where phi is in milliweber and t is in seconds. what is the magnitude of e.m.f. induced in the loop when t=2s?

The magnetic flux passing perpendicular to the plane of the coil and directed into the paper is varying according to the relation phi = 3t^(2) + 2t + 3 , where phi is in milliweber and t is in second. Then the magnitude of emf induced in the loop when t = 2 second is-

The magnetic flux through a coil perpendicular to its plane and directed into paper is varying according to the relation phi = (5 t^(2) + 10 t + 5) milliweber. Calculate the e.m.f. induced in the loop at t = 5 s.

The magnetic flux passing prependicular to the plane of the coil directed into the paper is varying according to the relation phi=6t^(2)+8t+I0 , where phi is in weber and t in second. (a) What is the magnitude of emf induced in the loop when t=2sec ? (b) What is the magnitude and direction of current at t=2sec ?

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 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 magnetic flux through a coil perpendicular to its plane and directed into paper varying according to the relation phi= (5t^2+10t+5) mWb. Calculate the emf induced at t= 5 sec.