The magnetic flux linked with the coil varies with time as `phi = 3 t^2 + 4t + 9`. The magnitude of induced emf at `t = 2` second is

The magnetic flux linked with a coil varies as phi=3t^(2)+4t+9. Find the magnitude of the emf induced at t = 2S.

The normal magnetic flux passing through a coil changes with time according to the equation phi = 6t^2 - 5t + 1 . What is the magnitude of the induced current at t = 0.253 s and resistance 10 Omega ?

The magnetic flux (phi) linked with a coil is related to the area (A) of the coil as :

The magnetic flux phi (in weber) linked with a coil of resistance 10 Omega varies with time t (in second) as phi = 8t^2-4t+1 . The current induced in the coil at t = 0.1 sec is

The magnitude flux linked with a coil at any instant 't' is given by phi=5t^(3)-100t+300 , the e.m.f. induced in the coil at t=2 second is

The magnetic flux through a surface varies with time as follows : phi = 12t^2+7t+3 Here phi is in milliweber and t is in seconds. The induced emf at t=5s ?

The magnetic flux (phi) linked with a coil is related to the number (n) of turns of the coil as :

The current in a coil of inductance 0.2 H changes from 5 A to 2 A in 0.5 sec. The magnitude of the average induced emf in the coil is