Let’s say we have two inactive electromagnets spaced one light-minute apart, with north poles pointing toward each other. One of the electromagnets is turned on for ten seconds, and then turned off again (or destroyed). Once the magnetic field from the first electromagnet has propagated to the second, the second electromagnet is turned on. Would the second electromagnet not be repelled away by the magnetic field without exerting a force on the first electromagnet? How is momentum conserved in this scenario?
Leypoldon
Answered question
2022-08-11
Answer & Explanation
Avah Leonard
Beginner2022-08-12Added 21 answers
The basic frame of all theories in physics, mainstream at present, is quantum mechanical, and the mainstream accepts that the standard model elementary particles are the basic constituents
In this model the static electric and magnetic fields are built up from very low energy photons, the basic constituents of light and all electromagnetic waves. When your electromagnet is turned off, a pulse is created traveling in vacuum of very long wavelength photons which carry momentum and energy and transfer it by collision to the live electromagnet.
Alternatively, within classical electrodynamics, again a pulse of light is generated (because changing magnetic fields generate electric fields and elecromagnetic radiation according to Maxwell's equations), and this pulse will have energy and momentum according to the classical model.
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