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Electric fields and magnetic fields are interconnected and can interact with each other through a phenomenon known as electromagnetic induction. This interaction forms the basis of electromagnetism and is described by Maxwell's equations.

When a changing electric field is produced, it generates a magnetic field in the surrounding space. Similarly, a changing magnetic field induces an electric field. This mutual induction occurs due to the fundamental relationship between electric charges and magnetic fields.

Specifically, when an electric charge moves or experiences a change in velocity, it creates a magnetic field around it. This magnetic field is perpendicular to the direction of the moving charge. Conversely, when a magnetic field changes, it induces an electric field in the region surrounding it.

These interactions are governed by Faraday's law of electromagnetic induction and Ampère's law with Maxwell's addition. Faraday's law states that a changing magnetic field induces an electromotive force (EMF) and thus an electric field in a nearby conductor. This principle is the basis of electrical generators, transformers, and many other electromagnetic devices.

In summary, changing electric fields produce magnetic fields, while changing magnetic fields induce electric fields. This mutual interplay of electric and magnetic fields gives rise to various electromagnetic phenomena and is fundamental to the understanding and application of electromagnetism.

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