On Sun, Nov 22, 2020 at 4:24 PM Jürg Wyttenbach <ju...@datamart.ch> wrote:
> Hydrinos are based on speculative math and contradict the basic law of > charge invariance --> nonsensical. But there are Hydrino like resonances > based on magnetic resonance that is pretty close to the calculated values. > So wrong model - pretty good results. > > > Yes I recall reading that a charge on the proton changes slightly when one of Mill's hydrino forms. Dark matter is based on pretty bad understanding of physics only... There > are no flat orbits in nature and thus SM/GR is incomplete. > > > Do you mean no closed orbits? Harry > J.W. > On 22.11.2020 19:55, JonesBeene wrote: > > *From: *H LV <hveeder...@gmail.com> > > > > - Mills says his hydrino model of a below ground state hydrogen atom > is stable. However, if hydrinos were stable they should be more common than > ordinary hydrogen atoms which is not the case. Therefore, if below ground > states of hydrogen atoms can exist I think it is more likely that such > an atom is typically less stable than its above ground state counterpart > and a special environment is needed to favour the formation of such a 'cold > atom'. > > > > Harry > > > > > > This is the beauty of the further related hypothesis, also espoused by > Holmlid, Mills and others… > > > > Which is basically this: dense hydrogen = dark matter > > > > This solves the precise problem you mention on the universal scale. Now > there is far more dark matter (dense hydrogen)than primordial hydrogen and > this is indicative of eons of densification of light hydrogen followed by > accumulation as dark matter. > > > > IOW billions of years ago there was much more hydrogen and much less of > what is now dark matter. > > -- > Jürg Wyttenbach > Bifangstr. 22 > 8910 Affoltern am Albis > > +41 44 760 14 18 > +41 79 246 36 06 > >
