Dave, Doesn't the Pauli exclusion principle come about from the quantum mechanical magnetic moment of the particle's spin state. That would seem to be a physical attribute of the particle and not something that can easily be wiped away.
On Mon, Oct 26, 2015 at 12:39 AM, CB Sites <[email protected]> wrote: > Thanks Eric. There are a lot of interesting ideas presented in that > slide show, many of the ideas I've seen commented on here. In one of his > last slides he mentions theoretical solutions, one being multibody fusion > hinting at a Chubb's style n-body fusion. Conceptually I've always found > the S & T Chubb line of theory for cold fusion to be elegant and plausible. > There is no reason why N-body solid state quantum mechanics can't apply to > hydrogen in metal like it does to electrons in a metal. Quantum band states > of H on Ni have been demonstrated (as a surface effect). *Sorry I don't > recall the 1980's paper* I think it was in Science. > > Anyway, as new experimental developments have come about, the solid state > concepts applied to protium/metal make their theories less applicable. The > Rydberg atomic fusion process would seem interesting if not so far > fetched. Maybe if I understood the quantum mechanics of how a Rydberg atom > formed in a metal lattice at temps above room temperature. And then how to > prove it. I think I need to understand the theory a little more. > > > > > > > On Sun, Oct 25, 2015 at 11:07 PM, Eric Walker <[email protected]> > wrote: > >> On Sun, Oct 25, 2015 at 9:52 PM, CB Sites <[email protected]> wrote: >> >> I found that to be a very interesting slide show. Is there an >>> audio/video track of the lecture to go with it? >> >> >> That is from HyperPhysics, a Web site authored largely by Rod Nave, now a >> retired physics professor from Georgia State University. There is no >> accompanying audio or video that I am aware of. It's inspired by the old >> HyperCard program. I have found it a very useful site. >> >> Eric >> >> >> >
