If hydrinos are real, are they a cause or an effect? Do hydrinos emerge from more basic processes that only happen in rare and unusual conditions?
For example, cooper pairs of electrons only occur in superconductors. There are very specific and unusual conditions in a solid that produce cooper pairing. Clearly, hydrinos are not the usual condition of the electrons existence. If hydrinos were common, they would have shown up in many other experiments involving electrons. Another example is the fractional charge of the electron produced by the fractional Hall Effect. If Mills can demonstrate that hydrinos exist, this unusual state of electron behavior must be one of the 500 states of matter defined by each unique dance of the electrons between and among themselves. The question that must then be asked and answered, what is the strange music that these electrons dance to? In the presence of this new music, what other strange things are happening to other fermions in the neighborhood of these strange electrons: what are the protons doing, and the quarks inside the protons, and the other nuclei in the general vicinity? It maybe that the hydrino is just one small piece of a bigger puzzle and not the be all and end all of the Mills reaction. On Tue, Jan 14, 2014 at 10:47 PM, Eric Walker <eric.wal...@gmail.com> wrote: > On Tue, Jan 14, 2014 at 2:29 PM, James Bowery <jabow...@gmail.com> wrote: > > the detailed chemistry and identification of Hydrinos by ten analytical >> methods that laboratories can follow and replicate are given at >> http://www.blacklightpower.com/. > > > Without offering an opinion about whether Blacklight Power actually has a > gainful reaction, I will say that this particular detail sounds like pure > huxterism. > > Eric > >
