I seems to me that an object as complicated as a negative hydrogen ion would participate in a reaction with all the conservation laws conserved.
should read I seems to me that an object as complicated as a negative hydrogen ion would find it very hard to participate in a reaction with all the conservation laws conserved. On Sun, Aug 10, 2014 at 4:19 PM, Axil Axil <janap...@gmail.com> wrote: > In the explanation of the Piantelli reaction , Piantelli has a hydrogen > negative ion catalyzing the fusion reaction. I wonder if all the > conservation laws are conserved in this reaction? I seems to me that an > object as complicated as a negative hydrogen ion would participate in a > reaction with all the conservation laws conserved. > > Piantelli needs to lay out how all the conservation laws are maintained in > his reaction. > > On the other hand, the virtual meson production through magnetic > excitation of the proton is almost all verified in terms of all the > conservation laws by existing science. > > > On Sun, Aug 10, 2014 at 4:07 PM, Axil Axil <janap...@gmail.com> wrote: > >> Remember the conservation of Byron number. >> >> Nature has specific rules for particle interactions and decays, and these >> rules have been summarized in terms of conservation laws. One of the most >> important of these is the conservation of baryon number. Each of the >> baryons is assigned a baryon number B=1. This can be considered to be >> equivalent to assigning each quark a baryon number of 1/3. This implies >> that the mesons, with one quark and one antiquark, have a baryon number >> B=0. No known decay process or interaction in nature changes the net baryon >> number. >> >> >> On Sun, Aug 10, 2014 at 4:00 PM, Axil Axil <janap...@gmail.com> wrote: >> >>> Both linear and angular momentum are conserved through the emission of >>> muon neutrinos as the meson decays to a negative muon. It is this muon that >>> catalyzes fusion of hydrogen in the proton proton (PP) reaction. >>> >> >> >
