A: There may be an induced emf in a loop without induced current.
R: Induced current depends on the resistance of the loop as well.

The induced e.m.f. in a coil does not depend on

Statement-1 : The induced e.m.f. and current will be same in two identical loops of copper and aluminium, when rotated with same speed in the same magnetic field. Statement-2 : Induced e.m.f. is proportional to rate of change of magnetic field while induced current depends on resistance of wire.

Asseration:Induced coil are made of copper. Reason:Induced current is more in wire having less resistance.

A current carrying solenoid id approaching a conducting loop as shown in the figure. The direction of induced current as observed by an observer on the other side of the loop will be

A rectangular loop of wire with dimensions shown in figure is coplanar with a long wire carrying current 'I' . The distance between the wire and the left side of the loop is r . The loop is pulled to the right as indicated. What are the directions of the induced current in the loop and the magnetic forces on the left and right sides of the loop when the loop is pulled ?

The total charge induced in a conducting loop when it is moved in magnetic field depends on

A constant current I flows through a long straight wire as shown in figure. A square loop starts moving towards righ with as constant speed v . a Find induced emf produced i the loop as a function x b. If total resistance of the loop is R , then find induced current in the loop,

An electron is moving near to a conducting loop then the induced current in the loop is-

A : Total induced emf in a loop is not confined to any particular point but it is distributed around the loop in direct proportion to the resistances of its parts. R: In general when there is no change in magnetic flux, no induced emf is produced.

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.