he formation of heavier nuclei. All other heavier nuclei were formed as a result of explosions of supernovae and the release of super-power energy. Therefore, figuratively speaking, our bodies are built of stellar ashes. But as soon as energy of thermonuclear synthesis comes to an end, the star starts to die out, passing through certain phases. We do not know yet all phases of the development and dying of stars, but if failing "to undertake some sort of measures" after a very long period of time not only stars, but atoms as well, including their components (protons, neutrons and electrons) will be shivered. Thus, the free neutron "unprotected" by intranuclear system breaks up into a proton, electron and neutrino within 12 minutes. Hence, the atomic and intranuclear system is the system of stabilization of a neutron protecting atom and its elements from disintegration. But even such stable and seemingly eternal stellar formations such as "black holes" "evaporate" in the course of time, expending their mass for gravitational waves. In the absence of energy inflow the system would just flake/scatter and lose its SFU. It follows explicitly from thermodynamics laws. The so-called "thermal entropic death" is coming forth. Destruction of systems under the influence of external environment is the forced entropic reorganization (degeneration), rather than self-organization. The objects of mineral nature possess only passive destruction protection facilities and one of the major means of protection is integration of elements in a system (Generation). Consequently, the emergence of systems and their evolution in mineral nature represents means of protection of these elements from destruction. One can not conquer alone. The system is always stronger than singletons. Formation of connections/bonds between the elements and the emergence of generation type systems in mineral nature is the passive way of protection of elements against the destructive effect of negative entropy. The weakest bodies are ionic and gas clouds, while the strongest ones are crystals. However, all of them cannot resist external influences indefinitely long, because they react only after their occurrence, and they cannot resist entropy. Consequently, the presence of passive means for the protection against destruction is insufficient. Whatever solid and large the crystals might be, they would be scattered/flaked in the lapse of time either. In order to keep the system from destruction it is necessary to replenish destroyed parts continually. Systems of vegetative, animal and human nature also undergo various external influences and also are scattered (worn out) with varying speed. And it happens for the same reason and the same law of negative entropy, i.e. from more complex to more simple (degeneration) works. But these systems differ from the systems of mineral nature that actively try to resist destruction by continual renewal of their SFU structures. This renew...
