are counter-rotating magnets DANGEROUS?

Yeah, you are pretty much limited to power line frequencies, maybe up into the audio band. And since one of the 'other' limitations I mentioned includes that the physical dimensions of the emitter need to be at least of the same order of size as the wavelength of the e/m wave for efficeint wave formation, you're pretty well sunk.

 

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Agreed. And allow me to modify that last statement to read: "Metakron's idea is pretty well sunk."

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That's putting words in my mouth. When you have two magnets near each other and one or more is spinning, what you may potentially get as radiation is nearly a total mystery to me. I won't make any serious statements about that, two magnetics parallel to each other, one or more spinning, without looking it up or experimenting. The interactions between field lines not only would be interesting, they might settle a question or two about magnets.

You don't seem to know much about electromagnetism, seriously. All that is needed for electromagnetic radiation is a changing magnetic field and everything else is a technicality. It wouldn't be all that difficult to produce a sine wave of over 100 Hz and the limitation is obviously how fast you can spin the magnet. The magnet can be spinning or vibrating. Schemes can be made to shake the magnet back and forth at frequencies up to several thousand hertz can be created.

It doesn't matter to the detector if the detector is moving or the magnet is moving or both. It will still detect a changing magnetic field. This is first year physics.

(edit) When you have two counter-rotating magnets their field lines cut each other an unknown but large number of times.

 

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Incorrect. As I already said, permanent magnets are magnets because more of its electrons orbit in one given plane than the rest. That is the electrical component. The "pure" magnetic field is much larger than the electron orbits that generate it, or the mass that contains those electrons, but it also still has an electrical component at right angles to the magnetic component. The relationship is reflexive. A magnetic field is generated by a moving electrical charge and the magnetic force lines have an electrical charge to them. "Out there" it is a static electrical charge.

 

It really depends on how powerful the magnet is. I have seen some electromagnets that weigh more than a small car and need to be water cooled.

 

No, because you said electric field, not electric current. You have an essentially static magnetic field, so the electrical field at right angles to it is essentially static on the macro scale.

Thinking about it this way, it's not just because there is a current through a wire that there is a magnetic field. It is also because the electrical charges moving through the wire are aligned with each other.

http://en.wikipedia.org/wiki/Magnetic_field

I will consider Einstein's theory to be adequate for this purpose for the time being.

 

Disagree.

 

God makes it.

I already gave you a link that mentioned what Einstein proved about that. If you're not happy with that, go fish.

 

You don't seem to know the basic theory and don't seem to want to learn. Yep, we're done.

 

No, it does not take current flowing in a conductor to create EM radiation. The magnet can be moved back and forth. It's pretty easy these days to mount a strong permanent magnet on a vibrating diaphragm. Some of the supermagnets that you can get these days are extremely small, smaller than a BB shot. You can also mount the magnet on a spinning disk.

 

still curious about rotating magnets

I was fiddling with magnetic coupling on the gas turbine (90Krpm), and I was thinking the NIB magnets spinning perpendicular to their poles would really be a 1,500 HZ EM field of some sort (E because the magnet moves and M because it doesn't move fast enough). In fact just eyeballing it the M component looks like the M component of a 1.5KHZ radio wave (in the ULF band).

Wikipedia claims the ULF band is used for communication in mines, which implies to me that it's fairly short range but penetrates rock well.

Does anyone really have a clear idea of what spinning the magnets could do, EM wise?

The magnets are the japanese type: put them under a plate with water in it and they'll make a dimple in the water. They're pretty strong.

Also, I realized late in my ruminations that I had simplifyingly assumed that there was a single magnet centered, but in fact there are four offset from the axis.

 

I've had 2 meal cards destroyed due to magnets, they are more dangerous than you think! Especially if you are hungry!!

 

Since no one answered your question I will

There is a danger. The specificity of why is arbitrary to the question. If you plan on playing with this be careful of microwave especially, or if you are near an airport. Think of the electromagnetic spectrum as the waves they are. Using to magnetic fields with energy input will cause varying oscillation of wave and function of the wave.

Its like how a musical instrument can alter sound waves.

Fin

 

they're only dangerous if they become a counter-rotating magnet golem, then you better run. throw your atm cards at them, it slows them down. credit cards anger them though.