Magnet Repulsion: Understanding the Forces at Play

In summary, the conversation discusses the nature of magnet repulsion and why two like poles do not repel in a straight line. It is explained that the magnets shift to the side when forced together due to less force being applied in the side directions. It is also mentioned that there are no stable points in the magnetic field, causing the floating magnet to slide away and fall. The conversation concludes with the recommendation of some articles on magnetic levitation and Earnshaw's theorem.
  • #1
Bobshark
3
0
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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  • #3
Thank you Drakkith. Very helpful. Seems like there is a theory for everything these days!
 

1. What is magnet repulsion?

Magnet repulsion is the phenomenon where two magnets with like poles facing each other will push away from each other due to the repulsive force between them.

2. How does magnet repulsion work?

Magnet repulsion is caused by the repulsive force between like poles of two magnets. This force is a result of the alignment of magnetic dipole moments within the magnets, which causes them to push away from each other.

3. What factors affect the strength of magnet repulsion?

The strength of magnet repulsion is affected by the distance between the magnets, the size and strength of the magnets, and the material they are made of. The relative orientation of the magnets and any external magnetic fields can also impact the strength of repulsion.

4. Can magnet repulsion be used for any practical applications?

Yes, magnet repulsion is used in many practical applications such as magnetic levitation trains, magnetic bearings, and magnetic motors. It can also be used in magnetic separation processes and as a way to create motion in various mechanical systems.

5. Are there any other forces at play in magnet repulsion?

Yes, in addition to the repulsive force between like poles, there is also an attractive force between opposite poles. These two forces work together to create the phenomenon of magnet repulsion.

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