If we look at a copper conductor mass as circulating an electron hole in trying to fill it's valence shell we can see that application of voltage at one termination of the conductor causes a migration of these charge carriers away or towards the voltage scource as in a semiconductor. These charge carriers are created by the intrinsic energy of the atoms within the conductor. If the voltage pulse is such that it results in a concentration of the charge carriers we have effectively taken energy from the atomic mass field and now have it in a different form of matter within the space near the terminal. The atomic mass field continously generates these charge carriers as a result of it's prime #valence electron shell.
Now it is a matter of what to do with the new matter. :)
I read that if we want to achieve OU, we haven't to user copper as conductor wire. We have use special alloys to use as a conductor wire 98% Aluminum and 2% Iron is a good alloy to use.
And of course, the electrons I think it's not a correct theory. Henrey Moray said:
It's all about the Ions, not electrons
Quote from: Magnethos on September 20, 2008, 12:30:42 PM
I read that if we want to achieve OU, we haven't to user copper as conductor wire. We have use special alloys to use as a conductor wire 98% Aluminum and 2% Iron is a good alloy to use.
And of course, the electrons I think it's not a correct theory. Henrey Moray said:
It's all about the Ions, not electrons
somes interests?
http://www.jstor.org/pss/99973
http://en.wikipedia.org/wiki/Ion
http://campus.northpark.edu/biology/cell/atoms-ions.html
http://www.azonano.com/News.asp?NewsID=396
http://www.freepatentsonline.com/4361761.html
Pese
I look on the impulse energy as shockwaving the conductor field. The electron field as a whole due to it's low mass and speed of the wave is stretched out in a linear plane chasing the wave. This plane acts like a sling shot on the neucleus mass. The radio wave energy therefore resulting in a kinetic energy flow of the neucleus. This is a non-ionizing reaction but could easily result in the neucleus bombarding a cap plate or disassociation of molecules.