UDH/Hydrino!
There is only one nature and thus one physics. Mills created the
name/concept Hydrino to circumvent the Santilli Patent. The precision of
any Hydrino calculation is at best 1% as in all standard model guesses
that are potential only models.
The SO(4) version of H*/D* is in very good agreement (495.8eV e bond as
measured ) with hihly reliable Mills measurement of H*-H*. Holmlids UDH
measurements are not precise and may be off by more than 30% due to
cluster effects.
Further the SO(4) model explains the electron potential measured in:
Emission of highly excited electronic states of potassium from
cryptomelane nanorods
P. Stelmachowski,a P. Legutko T. Jakubek P. Indyk a Z. Sojk a L. Holmlid
b and A. Kotarb a, PHYSICAL CHEMISTRY CHEMICAL PHYSICS · SEPTEMBER 2015
This paper shows exactly how SO(4) spin matter behaves. The current name
is Rydberg matter but effectively there are two forms. Normal Rydberg
matter is just based on SO(4) electron-electron spin coupling - an SC
effect, where as the induction of H*-H* leads to a change in the p-e
potential that even can be seen at 500C. This is the best proof why LENR
also at T > 500C works as it is based on the the only deep orbit
Hydrogen that has a sound physical model.
Holmlid still references the Winterberg model for UDH, which is based on
2 fringe assumptions .. but still fewer than SM...
J.W.
Am 23.12.19 um 18:14 schrieb bobcook39...@hotmail.com:
Jones—
An environment with lots of neutrino and positrons may be required for
nucleon production, since these primary entities are apparently
needed in nucleons for stability. I think their magnetic dipoles are
key attractive forces to facilitate the necessary stability.
Bob Cook
Bob Cook
*From: *Andrew Meulenberg <mailto:mules...@gmail.com>
*Sent: *Monday, December 23, 2019 7:21 AM
*To: *VORTEX <mailto:vortex-l@eskimo.com>
*Subject: *Re: [Vo]:Dense hydrogen may facilitate water splitting
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
<mailto:jone...@pacbell.net>> wrote:
Sent from Mail <https://go.microsoft.com/fwlink/?LinkId=550986>
for Windows 10
*From: *Andrew Meulenberg <mailto: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
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