I Magnets, Outer space, and Rings

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The discussion centers on whether a ring of iron filings could form around a magnet in space, with initial consensus suggesting that no ring would form, as most filings would either drift away or cling to the magnet. The possibility of a ring forming under different conditions, such as a spinning magnet or multiple magnets, is questioned. It is noted that for a stable ring system to develop, there must be a situation that allows for the circulation of particles, akin to orbital dynamics. The conversation references a previous thread on the topic, indicating ongoing interest in the physics of magnetic fields and particle behavior in space. Ultimately, the inquiry remains focused on identifying scenarios where a ring could indeed form around a magnet.
James William Hall
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Awhile back there was a discussion about the following scenario: an astronaut sets free into space outside his window a round magnet so it just sits there a distance away ensuring the spaceship has no effect on the experiment. Then he wafts out gently a large pail of tiny iron filings and dust in the direction of the magnet and watches to see if a ring (ala Saturn) forms around the magnet at just the right distance from it. I believe the consensus was that no ring would form and that some filings would drift away and the rest cling to the magnet though there were dissenters. But I can’t remember if a different outcome, a ring, would form if the magnet was spinning or any other scenario where the ring would form. For instance if there were two magnet balls separated a short distance from one another or if they were bar magnets. So, the question is: is there any scenario where the ring would form?
 
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James William Hall said:
So, the question is: is there any scenario where the ring would form?
Any situation that supports circulation of particles, like in an orbit, must develop a ring system. That is the only topology that can avoid dynamic interactions and collisions, that is, once it has stabilised.
 
Berkeman, thank you for the thread.
 
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Thread 'Why higher speeds need more power if backward force is the same?'

Power = Force v Speed Power of my horse = 104kgx9.81m/s^2 x 0.732m/s = 1HP =746W Force/tension in rope stay the same if horse run at 0.73m/s or at 15m/s, so why then horse need to be more powerfull to pull at higher speed even if backward force at him(rope tension) stay the same? I understand that if I increase weight, it is hrader for horse to pull at higher speed because now is backward force increased, but don't understand why is harder to pull at higher speed if weight(backward force)...
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