The wire must be insulated.

The wire must be stationary.

The wire must be part of a complete circuit.

The wire must be at a high temperature.

When a conductor is stationary in a magnetic field.

When a conductor moves relative to a magnetic field.

When a conductor is heated.

When a conductor is cooled.

The current decreases in magnitude.

The current increases in magnitude.

The current remains unchanged.

The current flows in the opposite direction.

To increase the voltage across the circuit.

To decrease the resistance in the circuit.

To increase the speed of the magnet.

To conserve energy and prevent perpetual motion.

The magnet will stop moving.

The magnet will accelerate towards the loop.

The magnet will move at a constant speed.

The magnet will reverse direction.

It has no effect on the magnetic field.

It creates a weaker magnetic field.

It creates a greater magnetic field.

It reduces the magnetic field strength.

It would create a stable system.

It would violate the law of conservation of energy.

It would increase the efficiency of the system.

It would decrease the resistance in the circuit.