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When a dipole composed of an oscillation of electron and an ion encounters a boundary cndition, a ring like circulation of current is induced in the motion of the electron. Does that revelation help you understand anything about the production of a large magnetic field? Well it should. On Sat, Jul 27, 2013 at 1:21 AM, David Roberson <dlrober...@aol.com> wrote: > My recent way of thinking suggests that heat energy is just random sound. > If some way is found to direct the movements of the atoms in a coordinated > manner, then that would look very much like a sound wave passing through > the medium. I bet we could figure out how much the effective temperature > of that wave is by the speed change of the atoms subjected to that signal. > Double the instantaneous velocity of the atoms and you multiply the > instantaneous energy by a factor of 4. This is like heating up the > material a large amount. > > Since heat is apparently what makes Rossi's ECAT function, then this > type of sound wave traveling through it should do something similar. At > least that is the concept. > > Heat appears to equal sound with a random momentum vector that balances > out over the entire mass of material while still having energy due to the > motion of the atoms. The energy always adds regardless of the direction of > the motion, while the momentum is a vector that can balance out. Sound to > me is just the condition where momentum is directed by some source. That > is why sound travels rapidly through materials while heat slowly spreads > out. Give the idea some thought. > > Dave > > > -----Original Message----- > From: Terry Blanton <hohlr...@gmail.com> > To: vortex-l <vortex-l@eskimo.com> > Sent: Sat, Jul 27, 2013 12:59 am > Subject: Re: [Vo]:Defkalion/MFMP implications for electrolysis? > > > > On Sat, Jul 27, 2013 at 12:55 AM, David Roberson <dlrober...@aol.com>wrote: > > >> It just might be possible for sound waves alone to do the job. >> > > It's not really sound. It's quantized heat energy. When you understand > that, you realize that spin up and spin down electrons can mate if only for > a brief period. >