Understanding Electromagnetic Induction

It changes the direction of the magnetic field.

It allows the magnetic field to become variable.

It increases the strength of the magnetic field.

It enables the change in magnetic flux.

It decreases the magnetic flux.

It has no effect on the magnetic flux.

It reverses the direction of the magnetic flux.

It increases the magnetic flux.

A constant magnetic field.

A decrease in resistance.

A change in magnetic flux.

A stationary loop.

The electromotive force.

The magnetic field strength.

The velocity of the loop.

The area of the loop.

By adding the initial and final areas.

By multiplying the velocity by the magnetic field.

By multiplying the distance traveled by the length of the rod.

By dividing the magnetic field by the velocity.

E = B - v - l

E = B / v / l

E = B * v * l

E = B + v + l

It reverses the magnetic field.

It remains unchanged.

It opposes the change in flux.

It enhances the change in flux.

To decrease the magnetic flux.

To enhance the electromotive force.

To increase the magnetic flux.

To oppose the increase in flux.

The current is independent of resistance.

The current is equal to the resistance.

The current is directly proportional to resistance.

The current is inversely proportional to resistance.

It would have no effect on the system.

It would violate the law of conservation of energy.

It would increase the magnetic field strength.

It would decrease the electromotive force.