When an electric field changes, what is the induced magnetic field in relation to the electric field?

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Multiple Choice

When an electric field changes, what is the induced magnetic field in relation to the electric field?

Explanation:
A changing electric field generates a magnetic field. This is described by Maxwell-Ampere law: curl B is proportional to the time rate of change of E (in vacuum, curl B = μ0 ε0 ∂E/∂t). Because curl B is aligned with how E changes, the magnetic field lines form around the axis of the changing E, placing B in a direction perpendicular to E. In a plane electromagnetic wave, E, B, and the direction of propagation are all mutually perpendicular, with B perpendicular to E. So the induced magnetic field is perpendicular to the electric field.

A changing electric field generates a magnetic field. This is described by Maxwell-Ampere law: curl B is proportional to the time rate of change of E (in vacuum, curl B = μ0 ε0 ∂E/∂t). Because curl B is aligned with how E changes, the magnetic field lines form around the axis of the changing E, placing B in a direction perpendicular to E. In a plane electromagnetic wave, E, B, and the direction of propagation are all mutually perpendicular, with B perpendicular to E. So the induced magnetic field is perpendicular to the electric field.

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