In reply to Peter Gluck's message of Sat, 14 May 2011 13:27:20 +0300: Hi, [snip] >not so close, perhaps. Is Randy speaking about something like this? Again >practical data not limits of theory [snip] Randy doesn't think Hydrinos can penetrate the electron shells of other atoms. I think he may be wrong, particularly for very small ones. Note also that if my variation on his model is correct, then my smallest Hydrinos are much smaller than his (about the size of an atomic nucleus).
Furthermore there are also other possibilities, i.e. 1) The Hydrino may acquire an additional electron becoming Hydrinohydride, then it might displace an inner electron of another atom, analogous to a negative muon, except that it is much heavier, and would try to take up a closer orbit. 2) Hydrinos have a strong magnetic field, hence they may bind magnetically to bare nuclei of other atoms that have a magnetic moment. This would keep them in close proximity until such time as they tunneled into the other nucleus. 3) Hydrino molecules are also neutral entities, and these may also be able to pass through the electron shells of other atoms. Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/project.html
