Jones, You have raised an interesting point. In comparing the sub-atom-sized hydrino with the nuclear-sized femto-H, we might see growth (to a steady-state) of "compact" molecules and of heavier nuclei (via nucleo-synthesis) in a non-stellar environment. I think that there is room for both species to exist and to "hide" in the terrestrial environment.
Andrew On Mon, Dec 23, 2019 at 9:32 AM JonesBeene <jone...@pacbell.net> wrote: > > > > > Sent from Mail <https://go.microsoft.com/fwlink/?LinkId=550986> for > Windows 10 > > > > *From: *Andrew Meulenberg <mules...@gmail.com> > > > > - I am presently writing a paper on the transition from a femto-H atom > to a neutron (as a proton with an occupied deeper-electron orbit), so my > responding to your comments has been useful in my thinking. Thank you. > > > > Andrew > > > > Another related topic to this is the ubiquitous nature of hydronium, and > whether dense hydrogen can be a natural component of our oceans.. > > > > At any given moment in all the worlds oceans, water is technically not H2O > but instead consists of a known percentage of hydronium, even though the > pH of the ocean itself is alkaline. This should not be possible in theory > since the alkalinity should cancel out the positive charge immediately. > > > > One wonders if Mills conception of “hydrino hydride” or a version of it - > would explain this situation since hydronium in the form of a stable anion > would be both dense and charged with greater than expected lifetime as an > ion in solution. This also offers and explanation of where all the hydrinos > (which are made in the solar corona and transported to earth via the solar > wind) accumulate. > > > > Jones >