Page 273 - Теория кавитации
P. 273
3.7 Cavitional model of the atom: does the remark
suddenly have the most important meaning?..
Comment. Studying the atomic structure, properties and attributes of it, we see the
following unexpected image: what is the phenomenon of the atom - is it really a bubble,
since its mode of existence, the described structure resembles a bubble ready to collapse?
This is on the one hand, and on the other, the energy levels of electrons, enveloping in
the form of fog, clouds resemble the layered shells of a bubble; the inner part of the
atom, with the nucleus taken together, as if bulging these shells, representing a vacuum
or a quasi-vacuum!
Here is a seemingly simple question. But, this question raises the question of
questions: “Is it possible for this supposed atomic bubble to collapse - that is, for the
atom to become a cavitation, and thus cavitation would occur?” This super-question
could be found on the Sun, and we can say that you can really find it. In fact, the core of
the Sun, its surface, its environment - the corona and all chemicals that constantly move,
transform: fusion reactions, nuclear and thermonuclear reactions and other secondary
reactions, explosions and other phenomena - radiation, radiation and ionization of atoms
and molecules. It is known that by turning an atom of one substance into an atom of
another substance. For example, take the most common reaction to the Sun [53]:
3
2 D + T -> He + n + 17,6 МэВ, (3)
4
where energy is based on the phenomenon of “neutronization”, it is defined as follows:
2
-27
E = m·v /2 = 1,67·10 ·(5,8·10 ) /2 = 2,8·10 [J] = 17.6 [MeV] (4)
7 2
-12
19
12
18
(1 eV ≈ 1,6⋅10 −19 [J]; 1 J ≈ (1/1,6)·10 ≈ 6,25·10 eV = 6,25·10 MeV)
One deuterium atom and one tritium atom explode, as a result of which the helium-
4 isotope is synthesized and one neutron is produced, and 17.6 million electron volts of
energy is released [51]. These reactions are preceded by the transformations of protium
atoms and ordinary hydrogen atoms into deuterium and tritium atoms. Reaction (3) is
achieved by neutronization (m and v is the mass and velocity of the neutron, E is its
kinetic energy), and these neutrons are formed near the core of the Sun, where there is a
14
o
very high pressure of 9·10 Pa and a temperature of at least 150,000 K ( according to
o
other sources, the core temperature of the Sun: 13 million C, and the corona - up to 29
o
million C [55]). As a result of the reactions of synthesis of protium atoms and ordinary
hydrogen atoms and transformed deuterium and tritium atoms to the “metatomic
metallic” transitional phase state, special neutrons are formed by the conversion of
protons from protium atoms and ordinary hydrogen into them, that is, each of these
atoms forms, decomposes and becomes a neutron which encapsulates the structure of
the original atom. When this unique neutron enters the corresponding condition with
272
