It depends what you mean by a field. If you imagine the field is made of
wire-like filaments which are fastened to an atom then you would expect the
field to translate and rotate whenever the atom translates and rotates. On
the other hand if you imagine the field is a vector field then the field
In reply to H L V's message of Tue, 5 Mar 2024 09:28:31 -0500:
Hi,
You don't need an experiment to figure this out. The field obviously rotates
with the magnet.
This is because the field is not a single entity. It is the sum of all the tiny
fields created by the electrons attached
to
Instead of measuring voltages, another approach would be to measure how the
entire assembly moves in response to the various relative rotations. In
order to observe such effects, the entire assembly should be self contained
so that it is free to slide over a level surface. The relative rotation of
Resolving the paradox of unipolar induction: new experimental evidence on
the influence of the test circuit (Free to download. Published 2022)
https://www.nature.com/articles/s41598-022-21155-x
This is an interesting paper from experimental point view. The authors
designed the test circuit so
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