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What happens to opposing magnets over time?
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I have two Neodymium disc magnets, with poles top and bottom.
If I forced the opposing poles together, what would happen to the magnets over a long period of time? Would the magnetism dissipate? Would one magnet change polarity? Or would nothing happen?
If I forced the opposing poles together, what would happen to the magnets over a long period of time? Would the magnetism dissipate? Would one magnet change polarity? Or would nothing happen?
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For more on marking an answer as the "Best Answer", please visit our FAQ.Neodymium magnets are magnetically "hard" and the magnetic domains are very difficult to shift. It is unlikely that opposing poles would cause the domains to randomise to any degree so the magnetic flux density of the individual magnets wouldn't change.
Strong magnets have their magnetic domains lined-up parallel. Shock and high temperature will randomise the domains so there is no net direction. This results in the magnetism being "destroyed".
Strong magnets have their magnetic domains lined-up parallel. Shock and high temperature will randomise the domains so there is no net direction. This results in the magnetism being "destroyed".
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