Jones, Yes, this was the reason for my citation and snip, and also how it might relate to relativistic hydrogen in lattice per Naudts paper that instead of increasing the inertia of the object that regions of space could have their isotropy broken, easier to imagine in nano geometry that Casimir pressure could build segregated regions where vacuum wavelengths are either increased or decreased by conductive boundaries subjecting any physical objects existing in these regions to an inertial frame in opposition to the isotropy [changing value at the inverse cube of space between boundaries overriding the square law of gravity. IMHO the black hole article suggestion that molecular gas can exist near C may imply a similar mechanis via intense magnetic fields – I don’t know if this requires the dense plasma and Mills like self catalization to occur or if the fields can “suppress” vacuum wavelengths on a larger macro scale.. my conjecture is related to my ongoing theme that time as distance can be very significant to the local observer – wheras we only see contraction in a hydrino the local hydrogen atom sees itself at near C velocity along a vector we perceive as time …and tritum decays would now be on an axis much more perpendicular to all 3 spatial axis ..again making me think this is what Mills see as black light plasma and Ref.. sees as anomalous decay / half- lives. I don’t know still Mulling :_) it over. Fran
From: Jones Beene [mailto:[email protected]] Sent: Tuesday, July 08, 2014 11:07 AM To: [email protected] Subject: EXTERNAL: RE: [Vo]:H2 at velocity approaching C Fran - The article is behind a paywall, so it is not clear how the authors interpret the gas as being molecular (other than it being charge neutral). One way to look at this event, the way that Randell Mills would possibly explain it (or his supporters) is that the “molecular gas” which looks like hydrogen is a good fit for his definition of “dark matter” … which is protons bound by electrons at the minimum radius– the deep Dirac level. The Meulenberg paper has been mentioned before: http://www.borderlands.de/Links/DDLemission7.pdf Dark matter can be equated, in this viewpoint, with “dense hydrogen,” DDL, virtual neutrons, “Rydberg hydrogen” or IRH (inverted Rydberg hydrogen) all of which names and concepts are pushing towards a species in which stability is achieved in a very dense state, trillions of time denser than “normal” molecular hydrogen but less dense than a neutron star. Of course, in terms of actual mass across the Universe, this dark matter species is probably “normal” and what we have on earth in the form of H2 is probably an extremely rare form of molecular hydrogen ☺ From: Roarty, Francis X Supermassive black hole blows molecular gas out of a galaxy at one million kilometers per hour http://www.sciencedaily.com/releases/2014/07/140707121413.htm [snip] Professor Clive Tadhunter, from the University's Department of Physics and Astronomy, said: "Much of the gas in the outflows is in the form of molecular hydrogen, which is fragile in the sense that it is destroyed at relatively low energies. It is extraordinary that the molecular gas can survive being accelerated by jets of electrons moving at close to the speed of light." [/snip]
