How does the wire know the magnetic flux has changed?

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A metal wire reacts to changes in magnetic flux by inducing an electric current, which is driven by a surrounding electric field created by the changing magnetic field. The wire does not need to "remember" past magnetic flux values; it simply responds to the presence of the induced electric field. This understanding resolves the confusion about how inanimate objects can detect changes over time. The wire's reaction is instantaneous, relying solely on the existence of the electric field rather than any memory of previous states. Thus, the process of induction is straightforward and relies on the immediate effects of the changing magnetic environment.
Loniuc
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If we have a metal wire and a magnetic field "inside" it, when the flux of the magnetic field changes, then the wire "reacts" by "creating" an induced current.

After learning this law, it eventually came to my mind the question: how does the wire know that the magnetic field flux has changed? I mean, in order to note the change, the wire somehow needs to have memory: "the magnetic field flux was x one second ago, and now it's x+dx... ok, it's time to induce a current".

Inanimate objects, such as wires, i.m.o. only know what happens around them instantly, so i find very hard to understand the fact that an inanimate object can detect a change of a physical variables in two different moments.
 
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Good thinking. There must be something going on at the wire to "tell" it to induce a current. And there is. The changing magnetic field induces a surrounding electric field--it's that electric field which drives the current.
 
Ok, that makes much more sense. The change in the magnetic flux induces an electrical field, so the wire does not need to pay any attention to anything but to the existence (or not) of an electric field. This way the "memory problem" is solved: once there is an electric field (and the wire does not mind about its origin at all), the wire says: "hey, what's up? an electric field is present: ok electrons, it's time to woark: moving on...".

Thanks for your answer: it has been very clear and precise.
 

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