Eric,
The geometry of a solid skeletal catalyst is the same as the
geometry formed by multiple grains of nano powders. Both environments form
tapestries of different sized and shaped Casimir cavities. This environment is
where hydrinos are created and there is no reason to assume the hydrino can
exist outside the environment. The paper by Naudts in 2005 makes a good case
for the hydrino being relativistic hydrogen and as such would be unaware of any
change in ground state from it’s own local perspective.
* What happens when a hydrino enters into a covalent bond with another
atom, as in the case of H2O? What does it mean for an electron at a redundant
level to partially orbit another atom? Or are no covalent bonds allowed?
IMHO covalent bonds of the same hydrino level form easily but random motion of
gas is opposed by the atoms trying to migrate to a new fractional value while
still bound together in molecular form.. my posit is that this opposition
lowers the disassociation threshold to the point where regions of the smallest
geometries can discount the threshold of hydrino molecules below the energy
released after the disassociated hydrinos modify their ground states and
immediately reform a hydrino molecule at the new ground states. I think this
has been going on since the days of the Langmuir’s atomic welder, Mohler’s
atomic hydrogen generator and both Rossi and Mills devices.
Fran
