Summary
Mirror – image nucleuses - are a certain group of chemical elements, the sequence of which, in the general table of isotopes, depends on the distribution of fragments of neutron functions in the structure of each nucleon number of a mirror isotope. In the rest of the definition, the value of the fragment of the proton function, for all mirror isotopes, is a common value. Thus, the projections of the fragments of the neutron functions of these isotopes constitute the main link in the overall structure of the mirror nuclei. For each nucleon number, the difference in the fragments of neutron functions forms a connection with the rest of the nucleons of the mirror nuclei. This definition of connection corresponds to the values of numerical events - the bases of numeric nucleons of mirror nuclei. The sum and difference of fragments between the functions of a proton and a neutron, in the structure of the nucleon number, corresponds to the value of the degree of freedom and the number of events. In this case, the number of events determines the value of the connection of the entire structure of fragments of functional projections for a particular composition of mirror isotopes. Thus, the definition of the logical sequence of the formation of mirror nuclear structures uses the principle of the process of expanding the structure of Hydrogen. In this case, the magnitude of the degree of freedom between functional fragments in the structure of the expanding Hydrogen is applied. These fragments of functional projections correspond to the process of successive division of the Hydrogen charge.