The following paper has a video at it bottom that shows what a vortex shaped plasmoid looks like when it hits the substrate (piston)
http://arxiv.org/pdf/0910.3175 On Sun, Nov 11, 2012 at 12:11 AM, Axil Axil <janap...@gmail.com> wrote: > The crystal, moving at supersonic and greater speeds, is surrounding by a > bow shock like a fighter plane. This supersonic speed is determined by the > speed of sound of the material that carries the shockwave. The positively > charged crystal is attracted to its own negatively charged bow shock by the > Casimir Force and coherently extracts zero point energy on a large scale. > > Because electrons are 1800 times lighter than ions at a minimum but up to > 1,000,000 times lighter than a complex crystal, the electron shockwave > precedes the ion wave. In the Papp reaction, the electron shock wave > precedes the ion shockwave and pulls the ions along with it but does not > touch it. > > The crystal then accelerates to what appears to be relativistic speeds in > very short distances. We can get an idea about what this distance is from > our study of cavatation. > > From cavatation, the plasmoid imparts maximum force when the plasmoid is > offset by six plasmoid diameters of the substrate wall. This bubble > standoff distance results in the maximum shockwave impact damage. > > > Cheers: Axil > > On Sat, Nov 10, 2012 at 11:43 PM, David Roberson <dlrober...@aol.com>wrote: > >> A thought just occurred to me. If the ionic crystals are riding upon a >> force generated by the Casimir effect, does this represent some form of >> reactionless force? What is pushed in the opposite direction to compensate >> for the momentum of the LeClair crystals? It appears that they exhibit >> enormous momentum and energy that cuts long grooves into the nearby metals. >> >> Has anyone explored this issue? >> >> Dave >> >> >> >> -----Original Message----- >> From: Axil Axil <janap...@gmail.com> >> To: vortex-l <vortex-l@eskimo.com> >> Sent: Sat, Nov 10, 2012 10:39 pm >> Subject: [Vo]:Supersonic shockwave acceleration processes >> >> I am interested in the possible association of >> zero-point-energy/electrostatic based supersonic shockwave acceleration >> processes that occur as a consequence of ionic crystal formation during >> cavatation bubble collapse and the closely related plasma reaction in the >> Papp engine which might occur in the plasmoid formation process in heavy >> noble gases. >> >> The Plasmoid that is formed by the spark discharge in a noble gas mix >> might be analogous to what happens in the collapse of a single large >> cavatation bubble. >> >> The Plasmoid both acts like and might be thought of as a manifestation of >> a single large collapsing cavitation bubble. >> >> In more detail, what Mark LeClair has observed as positive ionic >> crystallization formation in water that is catalyzed in the high pressure >> plasma generation during cavatation in water may also be happening in ionic >> positively charge krypton and xenon crystal formation in the Papp reaction. >> >> I believe that this idea is justifiable since cavatation damage also >> occurs in liquid sodium and molten salt pumps at levels of up to ten times >> more intense as is happening in water. >> >> Positive ionic crystallization formation can happen in many types of >> ionic elements and chemical compounds in both liquids and gases. >> Here is a recent YouTube based interview covering cavitation with Mark >> LeClair. >> http://www.youtube.com/watch?v=a7Gqd34R5OQ >> >> In this interview, Mark LeClair believes that LENR happens in cavatation. >> But a deeper level of abstraction is needed in his thinking. LENR >> actually is based on the action of positively charged ionic super-atomic >> crystals. >> >> >> > >