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GIF-portrait of a proton.

Internal density distribution and dynamics of motion of the wave layers in the proton.

Abstract. The model of an elastic continuum and elementary particles in it as localized wave vortices is used. The solutions of the wave equation have a discrete spectrum. Identification of the third solution i,j=(1,1) as a proton. Taking into account the superposition of the wave on itself, the energy density distribution inside the neutron is obtained. And a picture of the motion of the wave layers is obtained. Since gif-drawings can not be placed on this site, there are links to the hosting where these pictures are located. http://i.yapx.ru/oInv.gif и http://universe100.narod.ru/440/Proton-7.gif .

At once. Since gif-drawings can not be placed on this site, there are links to the hosting where these pictures are located. http://i.yapx.ru/oInv.gif & http://universe100.narod.ru/440/Proton-7.gif.

Graph of radial distribution of proton density.

Here is an old, approximate figure of a proton. You can say a proton sketch.

Here q, θ, φ – spherical coordinates. The object is not axisymmetric, so by φ there is already taken the integral. q – radial coordinate. L₁ & L₂ – parameters of the gukuum, k is some constant. Those who wish can check.
But the updated portrait, calculated on the computer. This is one layer from the gif-portrait of the proton, a full portrait in the dynamics can be viewed by the links above.

Explanation of the GIF-figure. The proton, like the electron and the neutron, consists of an infinite number of wave layers running around the vertical axis Z. In the very center of the proton is a double core of the proton (in the figure as a dark object with a small black ball). In the core, the density of wave energy reaches a maximum. In contrast to the electron, where in the center the energy is zero. And unlike the neutron, in which the nucleus has a single core, in the proton the nucleus consists of two seals and is slightly non-axisymmetric. Then follows the second energy wave layer (red), and then even less energetic (yellow). These four layers occupy approximately 90% of the total energy = the mass of the proton. The total energy in them is distributed in a ratio of approximately ≈ 4: 4: 2: 1. The mathematical solution is such that the energy is maximal in the middle of the layer and decreases to zero between the layers, and the direction of the wave on the surface between the layers changes the direction of motion to the opposite. Concerning the motion of the two core seals, there is no certainty yet. How they move, one by one, or half-way to one another.
Thus, on the basis of the new GIF-pattern of the proton, the following phenomena become clear:
1) This gif-figure illustrates the previously determined theoretically axial asymmetry of the proton.
2) This figure illustrates the generality of the structure of a neutron and a proton. Especially at a distance from the center. But in the very center there are significant differences, leading to the fact that the charges and spins of the neutron and proton are significantly different.

Опубликовано: https://www.academia.edu/35509824/GIF-portrait_of_a_proton

Обсуждение: https://www.academia.edu/35501720/GIF-portrait_of_a_proton

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