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magnets and electromagnets

Started by pinestone, June 28, 2008, 12:51:26 PM

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pinestone

June 28, 2008, 12:51:26 PM
We all know that a moving electric field produces a magnetic field (electromagnet).
Also, the reverse is true- a moving magnetic field creates an electric field (generator).
These two phenomenon are the basis for just about everything electric we have made in the past 200 years or so.

To produce a magnetic field artificially, electrons must be put in motion though a conductor (electric field), which has resistance and generates heat. As soon as the electric field is stopped, the magnetic field stops, too (unless the conductor is supercooled).

From what I have read, a stationary magnet's electric field is equal to zero and not moving.
It remains cool to the touch and its field stays intact for many years (forever?).

Wouldn't this indicate that a magnet's electric field is actually moving internally and not static at all?
If so, why hasn't this movement been recognized or theorized?


Onevoice

#1
June 28, 2008, 01:44:04 PM
There is another thread around here about a magnetic battery. It seems you can pull a small current from a semiconductor place sandwiched between two permanent magnets. Thus indicates, at least to me, that there is a current flow between stationary domains. If there is only one domain and a conductor, then a current flow can still be gained, but only if the structure is in motion relative to the load.

The most interesting effect though is that the magnetic battery appears to go against what is most commonly accepted about magnetic domains. When two magnets are pushed together with like poles facing, the get hot and the fields are scattered, ruining the magnets. When magnets are together with opposite poles and the semi conductor pulls current too fast, the magnets are also damaged. I know of no theory to account for this behaviour. ???
quote: The needs of the one outweigh the needs of the many - Capt. James T. Kirk

pese

#2
June 29, 2008, 09:16:51 AM
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vzon17

#4
June 29, 2008, 08:37:08 PM
Quote from: pinestone on June 28, 2008, 12:51:26 PM
We all know that a moving electric field produces a magnetic field (electromagnet).
Also, the reverse is true- a moving magnetic field creates an electric field (generator).
These two phenomenon are the basis for just about everything electric we have made in the past 200 years or so.

To produce a magnetic field artificially, electrons must be put in motion though a conductor (electric field), which has resistance and generates heat. As soon as the electric field is stopped, the magnetic field stops, too (unless the conductor is supercooled).

From what I have read, a stationary magnet's electric field is equal to zero and not moving.
It remains cool to the touch and its field stays intact for many years (forever?).

Wouldn't this indicate that a magnet's electric field is actually moving internally and not static at all?
If so, why hasn't this movement been recognized or theorized?



You are correct the magnetic field is not static. Also when you turn off the current the magnetic field does not stop it collapses back down and generates an electron flow in the wire which is of a different nature than the electricity that made it in the first place. the magnetic fields are in constant motion. there are two vortexes of energy on each pole.
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