Magnet Repulsion: Understanding the Forces at Play

AI Thread Summary
Magnet repulsion occurs when like poles repel each other, but they do not do so in a straight line due to the nature of magnetic fields. Instead of moving directly away, magnets tend to shift sideways because the force applied in that direction is less than the force pushing them together. This results in a vertical repulsion that can lead to a hovering effect, but stability is not achieved. Without stable points in the magnetic field, any sideways movement causes the magnet to slide away rather than remain suspended. Understanding these dynamics is essential for grasping the complexities of magnetism.
Bobshark
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Hi Guys! I have a, rather general, question regarding the nature of magnet repulsion.

When two opposite poled magnets are put in contact, they naturally attract, but if two like poled magnets meet they would repel. Using such information:

-When two like poles repel, why do they not repel in a "straight" line (on a horizontal plane 180 degrees)? It seems like they naturally want to shift aside inside of away.

To put a visual concept to my question. If I were to lay dawn a south poled circular plate and then place another south poled plate on top of it, it would simply repel vertically until it essentially "hovers".

If you have some great reads, link'em!
 
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Thank you Drakkith. Very helpful. Seems like there is a theory for everything these days!
 
Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

So here is the motional EMF formula. Now I understand the standard Faraday paradox that an axis symmetric field source (like a speaker motor ring magnet) has a magnetic field that is frame invariant under rotation around axis of symmetry. The field is static whether you rotate the magnet or not. So far so good. What puzzles me is this , there is a term average magnetic flux or "azimuthal mean" , this term describes the average magnetic field through the area swept by the rotating Faraday...
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