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GIF-PORTRAIT OF THE ELECTRON. The internal distribution of density = energy in an electron.
Abstract. The model of the elastic continuum = Gukuum and in it localized wave vortices is used. The solutions of the wave equation have a discrete spectrum. Identification of the first solution i, j = (0,0) as an electron was carried out. Taking into account the superposition of the wave on itself, a distribution of the energy density inside the electron. Here is a graph of the radial distribution of the electron density.
Here is an old, approximate figure of an electron. We can say that this is a sketch of an electron.
Here q, θ, φ – spherical coordinates. In the first approximation, the object is axisymmetric, therefore the integral is taken over φ. q is the radial coordinate. L1,L2 , k - some constants. Interested persons can check on the computer.
But the updated GIF-portrait of an electron, calculated on a computer. The current reference to this GIF-drawing, in motion, is given in the commentary. And the text link here: http://universe100.narod.ru/250/image003.gif or https://i.yapx.ru/gERU.gif
Explanation of the
figure. The electron consists of an infinite number of wave layers
running around the vertical axis Z. At the very center of the electron,
on the Z axis, the wave energy is zero. Then comes the most energetic
wave layer (red), then the less energetic (blue) and the third layer
(green). These three layers occupy about 90% of the total energy = the
electron mass. The energy in them is distributed in a ratio of
approximately 6: 3: 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. 1) The formation of a hydrogen atom becomes understandable. The proton has dimensions tens of times smaller than the electron. It can easily penetrate into the "empty" center of the electron and take a stable position there. This is the hydrogen atom. 2) The formation of the atom of "positronium" becomes understandable. The positron is the same electron, but oriented "forehead" to another electron. When they approach each other at a certain speed, a small energy barrier is overcome and a stable position is achieved: "two coalesced electrons" = "positronium". 3) It becomes clear "annihilation" of the electron and the "positron". With a slightly higher energy than the energy necessary for the formation of positronium, two electrons can completely enter each other, with oppositely twirled waves. Such waves are converted into ordinary linearly moving waves, that is, a pair of photons that fly apart.4) It becomes clear the occurrence of the electron spin. The sum of the angular momenta of all the wave layers of the electron is not zero. There is some total angular momentum, this is the spin. The mysterious coincidence of the spin of an electron and the spin of a proton causes math. The solution for the electron i, j = (0,0) and the solution for the proton i, j = (1,1) have total angular moments equal to each other and opposite in sign. And the total angular momentum of the neutron i, j = (1,0) turns out to be zero. The neutron and proton will be presented in GIF-portraits in a few weeks. Опубликовано: https://www.academia.edu/35270271/GIF-_portrait_of_an_electron Обсуждение: https://www.academia.edu/35270294/GIF-_portrait_of_an_electron
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