Torulf: *The first modern accomplishment of a relative high-power(but easily containable) Chemonuclear Transition cascading reaction was accomplished by a kid named David Adair who designed and fabricated what he called a 'Controlled Fusion Rocket-Reactor.' No kidding; exactly what kid-Adair claimed happened and it eclipsed expectations when tested at White Sand NM and handily pin-point landed at Groom Lake Nevada runway. He had been mentored by Werner von Braun. Adair's been designing for NASA ever since. He simply used quasi-conventional chemical fuel reactions but 'bottled' within a powerful Electro-Magnetic Sleeved Reactor Chamber. . . they build and use large versions of this a MIT often and it's all tantamount to 'cutting' a 'chunk' from the Magneto-Track of Fermi or Hadron Collider in miniature. Using H2-O2 as fuel has let us accomplish much of the 'not as conventional as it looked' NASA rocketry success. But they also got a yeild of notable transitory He/Helium. . . we getting this yet? Per my description: any reaction~uh like 'cold fusion'~would reach easily the energy thresh-holds to accomplish the cascading energy exchange at the atomic-molecular level that we're looking for with the 'high-yield' of the transitional nuclear bonding energy that we're looking for. The atomic 'proton-micro-singularity' eyes are DIALATED within this type of Adair-Bottle which ingress and then yield the desired 'higher quasi-unstable' energy levels that even at the level of prozaic chemical reactions can achieve what Dave Adair called 'Controlled Fusion' controlled reaction 'profound' energy output levels. . . these actually have been accomplish functional overunity for years but nobody bothered to use scrutinized exactly what the Mag-Bottle Reactors were actually accomplishing so did not subsequently exploit it. . . But this is the NATURAL marriage of technologies that 'Cold Fusion' has been waiting for that has been staring us all in the face. . . Cheers Dudes~:) Jack
Date: Fri, 25 Jan 2013 23:49:32 +0100 From: [email protected] To: [email protected] CC: [email protected] Subject: Re: [Vo]:Chemonuclear Transitions Excuse my grammar. English is not my native language. Can energy and momentum be transferred from the new He4 to another nucleus at some distains? Energy can be transferred from one molecule to another threw a quantum mechanical mechanism. This occurs in photo synthesis there excitations can jump between electrons in different molecules. >From an older tread. http://www.mail-archive.com/[email protected]/msg75294.html Maybe a similar phenomenon can occur between nucleus? This means the excitation from a He4 and momentum can be transferred to one or more receiver nucleus. These receiver nucleus must be a special nuclide suitable for receive the energy and have a mechanism to get rid of it. If several nucleus can get energy from one He4 it may radiate it as UV. If this not is possible I suggest that the receiver nucleus is a C12 how decay to 3 He4 as an reversed triple alpha. In absence of receiver nucleus there will be no reactions. But this did not explain the overcome of the coulomb barrier and why its not works in absence of receiver nucleus. I have heard that the conservation of momentum in LENR is commonly explained to "something" how would be like the Mössbauer effect. But I understand this not so easily to explain more exactly. TG
