Nuclear mechanical process for determining atomic structures and its application to materials science

摘要

As a result of the novel geometric model on which it is based, the present process of nuclear mechanics supplies for the first time more accurate statements about nuclear and atomic structures, as a result of which inter alia improved "chemical engineering" can be achieved. Likewise, on the basis of this model, an exact calculation of the dipole moments is now possible. Fig. (2) shows the beryllium-9 nuclide consisting of an He-5 and a (spin-compensated) He-4 nuclear ring. The magnetic dipole moments of the non-spin-compensated neutrons (white) are symbolised by arrows - the protons are hatched - the resulting nuclear moment resulting directly from the sum of the individual moments which are to be multiplied by the cosine of the given angles. On the basis of the nuclear ring chain node structures, which are now identified, of lead and uranium, including the correct fission fragment distribution, there is now also the capability of synthesising of as yet unknown elements or isotopes. Furthermore, pointers are given to the finding of non-degenerate isotopes, that is to say chemical elements which deviate from one another in terms of their properties in spite of equal nuclear charge. IMAGE