It does come back as Hawking radiation over a lonnnnggggg period of time. All thermo laws obeyed. It can also annihilate with another like particle according to Feynman interactions and you get a pop.
Stewart Darkmattersalot.com On Tuesday, November 13, 2012, wrote: > In reply to ChemE Stewart's message of Tue, 13 Nov 2012 15:54:12 -0500: > Hi, > [snip] > >Maybe some of that GeV went to those 6 or 7 additional dimensions of space > >all curled up... > > In that case, energy should be able to come from there too, and it would > happen > all the time, so we would have no law of conservation of energy. > (I mean that experiment would have revealed that energy is not conserved). > > > > > > >On Tuesday, November 13, 2012, wrote: > > > >> In reply to ChemE Stewart's message of Sat, 10 Nov 2012 14:44:40 -0500: > >> Hi, > >> [snip] > >> >Guys, > >> > > >> >Just a short update on my research: > >> > > >> >Guys, > >> > > >> >I am not a Nuclear Engineer so I fall short there but please accept me > for > >> >who I am. > >> > > >> >1) My research tells me LENR is basically atomic Hydrogen collapsing > to a > >> >Neutrino, which can then bombard its surroundings, including other > >> >hydrogen, triggering +/- Beta Decays, Fission and Fusion > >> > >> Atomic Hydrogen has a "mass" of over 900 MeV. A neutrino may have a tiny > >> mass on > >> the order of a fraction of an eV. That's about a billion times less, so > >> atomic > >> Hydrogen can't collapse to a neutrino. Perhaps you meant a neutron? > >> > >> Regards, > >> > >> Robin van Spaandonk > >> > >> http://rvanspaa.freehostia.com/project.html > >> > >> > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
