Magnets and their polarity - what would happen if

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When placing one neodymium magnet upright over another, the interaction depends on their polarities. If the flat magnet has its south pole facing up, it will attract the north pole of the upright magnet while repelling its south pole. This means the upright magnet will flip to align its north pole downwards, connecting both magnets. Understanding these basic magnetic principles can help in selecting the right magnets for limited space. Experimenting with the magnets can also lead to fun demonstrations, such as the magnet-under-the-table trick.
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If I were to take 2 neodymium magnets, and lay one down on the table, and stand the other on its end on top of it (resembling an upside-down T), would they attract, repel, or be neutral? Two poles of the standing magnet against the single pole that is facing up... what would the outcome be?

I would experiment myself and just buy two magnets, but this discussion will determine precisely what size magnets I buy, as my purpose has limited space, and I don't have weeks to wait for potentially wrong magnets to ship.

Thanks in advance!
 
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You can work this out for yourself, I think. Where will the N pole of the upright magnet be pulled and where will the S pole be pulled? That tells you what will happen to each pole. Where will that take you in deciding what happens to that magnet, finally?
 
Rudimentary physics is not my strong suit at the end of the day... or at the start, for that matter.

If the flat magnet's pole is S, does that mean it will try and repel the S of the upright and attract the N, thus flipping it N side down and connecting the two?

Sorry, I'm sure this is a very simple answer, I just lack the mental capacity to get there at this moment...
 
N to S and S to N. As you say.
But it would be better fun to buy two magnets. You can do the magnet-under-the-table /seance trick and amaze all your friends.
 
Thanks for walking me through that one, I just needed to be sure.

Cheers!
 
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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