The stability of atoms


08/02/2013

The first three stages of the evolution of the physical stability of preons, probarionov and primary stars is provided by metabolic processes, adapt to stable environmental conditions. The fourth stage begins when the stars appear in the mantle with a low density of baryons, for lack of a photon-meson circulation. Here the conditions of interaction of particles varies. Disturbed balance transfers equal to the wavelength of photons, neutrons required for stability. In the mantle of the star beta decays occur many neutrons into protons and electrons.

Electron as a quark, absorbing photons becomes metaustoychivuyu structure. Its original component is antipreon - spherical waves flow from the central chirality (+). Upon absorption of a photon, an electron is a triad of wave beams, two of which the central chirality (+), and one (-). In the annihilation photon is emitted. Because the flow (-) delivered from the assembly point of the absorbed photon extremum M higher than the feed stream (+) and its excess proportion is not annihilated and changes on the axial chirality center and spread out in space forming quantum electric field (-) that is not absorbed by other electrons. After the annihilation of an electron is composed of a spherical wave flow (+) formed at the assembly of the photon. It absorbs another photon, and the cycle is repeated transformations of the structure of the electron.

The beta decay of a neutron it breaks one of the Z-boson with the formation of a lepton and antilepton. First in the form of an electron acquires metaustoychivost in the electron shell of the atom, while the second is formed antimuons migrating in the triad of quarks proton exchange one of the mesons. Absorbing and emitting photons antimuon constantly produces the field quanta of chirality (+), which are not absorbed by the quarks and spread out in space. As a result, the proton is a charged particle. The equality of the absolute value of the elementary electric charge of a proton and an electron is dictated by the rhythm of a single photon absorption, in fact, constant frequency pulse substrate space. In contrast to the proton, neutron, in each cycle of the weak interaction are absorbed by all the wave flows (+) and (-). This is due to its zero charge.

The orbit of the atomic electrons - this is not the line of the circle, and the relatively wide spherical region in which it is replaced by sub-components are moved from the assembly point to the points of annihilation. The average distance between each of the electron and the nucleus of the atom (orbit radius) is dependent on the wavelength of the photons emitted by the kernel. It changes when you change the quantum state of the atom. The distribution of the electron energy levels in the electron shell of the atom depends on the number of emitted photons, and thus the number of nucleons in the nucleus. Nucleons are located at different distances from the nucleus, being distributed in their energy levels. They emit photons of different wavelengths. When the emission spectrum of the nucleus has a pair of photons with a wavelength equal and opposite polarization, two energetically similar electron occupy the same orbit, bypassing the kernel into the opposite direction. The transition of an electron to another energy level due to changes in the wavelength of the photons emitted by the nucleus, and the relocation of their assembly points.

The stability of the atom requires a more complex relationships than the stability of the body star. In baryons nucleus mesons are used for the synthesis of double-packs (


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