Previous Message:Is it posible the RF signal is warming the superconductor just abovethe critical temperature so that it drops?
Actually, a strong-enough magnetic field can also overcome the superconducting condition. The super conductivity returns as soon as the field is weakened or removed.I know how to get around this if anyone would like to work with me on a simple experiment.Scott Harry On Tue, Oct 18, 2011 at 11:48 PM, <fznidar...@aol.com> wrote: > A new understanding of flux pinning is the most important relation in 100 > years. The magnet floats on the superconductor. Apply an RF field of 10 > mega hertz to a small disk and the magnet drops. That what I saw, so what > you say. Now we know how energy is released. Energy is pinned with the > atom by the same mechanism, discontinuities. Where are the discontinuities > in the atom, here there are below. > http://academic.research.microsoft.com/Publication/10710753/the-elastic-limit-of-space-and-the-quantum-condition > What can you predict knowing the observed release condition? Try the energy > levels of the hydrogen atom, the intensity of spectral emission, > the distribution of electrons in the atom, and the frequency and energy of > the photon. see below > http://academic.research.microsoft.com/Publication/10755558/the-control-of-the-natural-forces > If you are so bright, where is your peer reviewed paper. Here it is below. > http://www.sciencedirect.com/science/article/pii/S1875389211006092 > > An understating of flux pinning and flux release has the potential > to transform the study of physics and our society. That my story > and I am sticking to it, no matter what Jones says. > Frank Znidarsic > > > -----Original Message----- > From: fznidarsic <fznidar...@aol.com> > To: vortex-l <vortex-l@eskimo.com> > Sent: Tue, Oct 18, 2011 7:20 pm > Subject: Re: [Vo]:quantum levitation > > > All this talk of pinning is just fine, but all of this is nicely predicted > by the basic laws of electrical induction and the zero resistivity offered > by a superconductor, you would expect repulsion or attraction to occur. > > No it is not. This flux pinning thing is a big deal. The same mechanism > accounts for the pinning of flux in a superconductor accounts for the energy > levels of the atom. > A solution that includes both provides for a classical foundation for > quantum physics. > Flux is pinned in the nucleus too. An understanding of the > release mechanism provides for a new understanding of the cold fusion > reaction. > Flux is pinned at discontinuities. It is shook free by a vibration at a > dimensional frequency of 1,094,000 meters/second. Thats it. > I did the experiment with the superconductor, Horace now has it. > > > Frank Znidarsic > >
