“where one of the two protons fuses, and the other is ejected carrying the energy of the fusion reaction of the first proton.”
Could these two protons derive from a cooper pair of protons coming from a Bose-Einstein condensate of entangled protons? On Tue, Nov 29, 2011 at 3:59 PM, <[email protected]> wrote: > In reply to Jed Rothwell's message of Tue, 29 Nov 2011 14:38:04 -0500: > Hi, > [snip] > >* Confirms the presence of 6-7 Mev Protons > > The suggestion that 6-7 MeV protons are responsible doesn't add up. If you > bombard Nickel with 6-7 MeV protons you don't get enough energy from the > fusion > reactions to accelerate the original protons (otherwise this method would > have > been employed years ago). It also leaves open the question of where the > 6-7 MeV > protons came from in the first place. IOW this sounds like a half-baked > theory. > > Of course it's possible that either a small Hydrino molecule or IRH is > fusing > with the Ni, and the energy is being carried away by unfused protons, some > of > which achieve an energy of 6-7 MeV. A few of these would then also undergo > the > occasional fusion reaction, contributing a little extra. However most of > the > energy must of necessity come from the original reaction that gave the > protons > their energy. > Note also that 6-7 MeV is the energy that you get from fusing a proton > with a Ni > nucleus, so a likely reaction is the fusion of a Hydrino molecule with a Ni > nucleus, where one of the two protons fuses, and the other is ejected > carrying > the energy of the fusion reaction of the first proton. > > > > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
