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Magnet spinning pendulam

symbio

By symbio
in Quantum Theory

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symbio

symbio

Posted
Posted

Hello everyone (a formality for my first post only)

 

So, I built two objects out of neodymium magnets and ball bearings, and then hung one from the bottom of the other. When I spin the bottom object it remains spinning for an impressive amount of time, but it does stop. It's momentum appears to be sustained (it seems to spin longer than the mechanical force applied would provide momentum for) by the force of alternating magnetic fields as they (the magnets on both top and bottom objects) pass by oneanother. My question is simple. Would it keep spinning forever in the vacuum of space or under some set of unknown (to me) circumstances.

 

I'm not a scientist, just a curious mind. So please try to keep your answers simple.

 

also, since this is my first posting, I would also like to thank the people in this community for remaining true to their curiosity and their willingness to share the fruits which were plucked in it's name. I look forward to eating them up like the voracious animal I am, and promise to serve them up as the man I will become. :) Jeremy

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5614

5614

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nice one swansont (answer and the joke at the end)... thats a line for one of your cartoons (or is that where ya got it from?)

 

can i just ask, you say you had a neodymium magnet, was it an NIB (neodymium iron boron) or just a plain neodymium magnet?

if it was an NIB how big and where did you get it from?

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Severian

Severian

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No. There will always be friction. You can't get around the second law of thermodynamics, not even with a good lawyer.

 

Give me any definition of 'forever' and I can give you a value of the frictional force which is small enough to allow the thing to spin 'forever'.

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jordan

jordan

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Severian, I think the definition of "forever" in this case is an infinite time span. Even the most minute co-efficient of friction will cause it to stop spinning eventualy (even if that is theoreticly longer than the universe itself will survive). By the definition of infinite time span, the cannot be any friction acting on it.

 

5614, you seemed to have missed his point.

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ecoli

ecoli

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Correct me if I'm wrong, but won't an object thrown in space keep moving for ever (Newtons Laws), as long as no force is applied. So shouldn't Symbio's pendulum keep spinning?

 

I guess I don't know enough about how virtual particles work to make this sort of assumption.

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Rasori

Rasori

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Space isn't a perfect vaccuum (as I'm told time and again). If it were, where would the gases that made the sun have come from? There are still pockets of hydrogen floating around (and probably other stuff, too).

What if you were to use a vaccuum created by man, though? Is it not theoretically possible to pump the air out of a building (that's completely airtight) completely? Granted, you'll have to make a support structure capable of withstanding the atmospheric pressure, but I'm pretty sure that wouldn't be too hard...

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symbio

symbio

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Sorry for the delayed reaction, I wasn't plugged in till late last night and had to reharge all day.

 

OK, let's forget the vaccum and infinity for a moment. Is the pendulam spinning or a longer time than the mechanical input provided force to spin, or not. In other words, are the overlapping magnetic fields providing motive power, or does it just appear that way? Just curious and hoping to find some answers here.

 

P.S. I buy my grade 50 neodymium magnets from http://www.leevalleytools.com and I am using both 1/8" and 1/4" magnets in the mechanism which wasn't described above

 

Thanks again for your thoughts in this matter. Jeremy

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swansont

swansont

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Posted
Sorry for the delayed reaction' date=' I wasn't plugged in till late last night and had to reharge all day.

 

OK, let's forget the vaccum and infinity for a moment. Is the pendulam spinning or a longer time than the mechanical input provided force to spin, or not. In other words, are the overlapping magnetic fields providing motive power, or does it just appear that way? Just curious and hoping to find some answers here.

 

P.S. I buy my grade 50 neodymium magnets from http://www.leevalleytools.com and I am using both 1/8" and 1/4" magnets in the mechanism which wasn't described above

 

Thanks again for your thoughts in this matter. Jeremy[/quote']

 

No. You aren't tapping in to magnetic stored energy - all of it is provided by the spinning.

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ydoaPs

ydoaPs

Posted
Posted
Correct me if I'm wrong' date=' but won't an object thrown in space keep moving for ever (Newtons Laws), as long as no force is applied. So shouldn't Symbio's pendulum keep spinning?

 

I guess I don't know enough about how virtual particles work to make this sort of assumption.[/quote']

 

Space isn't a perfect vaccuum (as I'm told time and again). If it were' date=' where would the gases that made the sun have come from? There are still pockets of hydrogen floating around (and probably other stuff, too).

What if you were to use a vaccuum created by man, though? Is it not theoretically possible to pump the air out of a building (that's completely airtight) completely? Granted, you'll have to make a support structure capable of withstanding the atmospheric pressure, but I'm pretty sure that wouldn't be too hard...[/quote']

 

vacuums are impossible. since there are particles, there will be a froce applied to the object(friction). also, gravity will accelerate/deccelerate the object.

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swansont

swansont

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Posted
Is it possible to tap into that energy?

 

In general, yes, you can tap into stored energy of a magnetic field. But in a permanent magnet I don't think it's so easy, because you'd have to be able to re-orient the domains to do so.

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symbio

symbio

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In general, yes, you can tap into stored energy of a magnetic field. But in a permanent magnet I don't think it's so easy, because you'd have to be able to re-orient the domains to do so.

 

 

Could you explain that for me?

 

I was also wondering if there was anyway to overlap the stationary magnetic fields so that there is no where the magnets in motion have to rest?

 

Thanks again,

 

Jeremy

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[Tycho?]

[Tycho?]

Posted
Posted
In general, yes, you can tap into stored energy of a magnetic field. But in a permanent magnet I don't think it's so easy, because you'd have to be able to re-orient the domains to do so.

 

And even if you did, so called "permanent" magnets do eventually lose their magnetism.

 

Perpetual motion remains and impossibility I'm afraid.

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symbio

symbio

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I think getting stuck on the word perpetual is a mistake. Would it not be useful, if all we could do is extend the productive output of an existing power source?

 

So, any ideas on tapping the magnetic forces within neodymium magnets?

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