A conducting loop is being pulled with speed v from region I of magnetic field to region II. If resistance of the loop is R, current induced in the loop at the instant shown is

A conducting loop is pulled with a constant velocity towards a region of uniform magnetic field as shown in the figure then the current involved in the loop is ( d gt r ) -

A conducting loop is pulled with a constant velocity towards a region of unifrom maganetic field of induction B as shown in the figure. Then the current involved in the loop is (d gt r)

A triangle loop as shown in the figure is started to being pulled out at t=0 from a uniform magnetic field with a constant velocity v .Total resistance of the loop is constant and equals to R .Then the variation of power produced in the loop with time will be:

Radius of a circular loop placed in a perpendicular uniform magnetic field is increasing at a constant rate of r_(o)ms^(-1) If at any instant radius of the loop is r, then emf induced in the loop at that instant will be

A square conducting loop of side length L carries a current I.The magnetic field at the centre of the loop is

A square loop of side a carris a current I . The magnetic field at the centre of the loop is

Current in a long current carrying wire is I=2t A conducting loop is placed to the right of this wire. Find a. magnetic flux phi_B passing through the loop. b. induced emf|e| prodced in the loop. c. if total resistance of the loop is R , then find induced current I_("in") in the loop.

A triangular loop is placed in a dot o. magnetic field as shown in figure. Find the direction of induced current in the loop if magnetic field is increasing.