Induced electric fields originate from electric charges.

Normal electric fields are produced by changing magnetic fields.

Normal electric fields have a non-zero curl.

Induced electric fields have field lines that loop.

It represents the strength of the electromotive force.

It indicates the magnitude of the magnetic field.

It ensures the right-hand rule is followed.

It shows the direction of the electric field.

It represents the work done by the electric field.

It measures the electric field's strength.

It shows the rate of change of electric charge.

It indicates the magnetic field's direction.

By remaining stationary near the conductor.

By changing the magnetic flux through the conductor.

By increasing the strength of the magnetic field.

By aligning with the electric field lines.

It determines the direction of the magnetic field.

It measures the total magnetic flux.

It calculates the electric field's magnitude.

It evaluates the electric field along a specific path.

They remain constant regardless of flux changes.

They enhance the existing magnetic field.

They oppose the change in magnetic flux.

They flow in the direction of increasing flux.

It flows in the same direction as the magnetic field.

It circulates to support the change in flux.

It remains unaffected by the magnetic field.

It circulates to oppose the change in flux.