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But why this electron, said colourless, carries charges of color to the 7th place subsets of {r,j,b}? Because, in the theory of set: each set is all subset of itself. So the subset (a, b, c) is therefore identical to the set {a,b,c} is written between accolades to make differences of its subset written with brackets.
The subset (r, j, b) and the set {r,j,b} are necessarily identical, that is why the electron is not clear, but carries the same 3 charges of color that {r,j,b}.
So why the electron is not sensitive to the Force of Color? Because it is saturated by its 3 charges: one can not add more charge of color.
The smallest amount of mass known is witch of the electron whose quantum, which has been defined as a combination of 3 charges of color (r, j, b) should be able to transform itself symmetrically in quantum energy The constant Planck, whose formulation has to be determined.
Which action transforms the three charges of color of the electron in constant Planck? To find out, it must be based on the characteristics of the three charges.
The charges of color are many charges, but not color, they were so described because they associate as colors, what is their purpose.
The three basic colors can join in a resultant white. The same is true for their images, the three charges of color, which may join in a white result: the photon has thus far, as seen earlier, the same composition as the electron, but in a different form.
This photon, made with 3 different charges of color is the smallest possible amount of energy, its quantum: the constant Planck, the photon Basic where v = 1, in the formula E = hv where E is the symbol of the energy of a photon, v its frequency and h the Planck constant.
Conversely, the quantum of energy can be tranformer in quantum of matter, in a mini-Big Bang, basic image of the explosion of primordial photon whose immeasurable energy created all matter.
What happens to 3 charges of color in the photon? They still exist, they they reappear to form the electron. But how is it conceivable because they have disappeared in the meantime?
A naive response, ie without equations, is possible from the triangle below.
The 3 charges of color of the electron are the 3 summits of an equilateral rotated triangle quantified in a tour - the spin of the electron - around its center.
At the end of each complete rotation, the triangle stops which immobilizes 3 charges.
Immediately, under the action of their Color Force, 3 charges attract each other, to associate and form the "punctiforme" centre of the triangle.
Each charge is then in the same place at the same time, so in a common quantum space/time, where each is in each other and where each is the same single photon central: their white resultant in which, despite appearances charges are not confused.
For, we must bring this situation to that of the atomic nucleus in which, because of asymptotic freedom, 3 quarks carriers each with a charge of different colour, can not merge into effect, the more quarks are close the less they interact, and for a distance close to zero, they are free the atomic nucleus is composed of quarks 3: {(r)(j)(b)}, the electron of 3 charges of colors: (r, j, b).
For the same reason, 3 charges of color remain distinct in the photon and may, at its annihilation, diverge and restore their all three summits of the triangle, which makes a new rotation and so forth.
Actually, the triangle turns alternately in one direction and the other with, then a creation of a positon.
Subject further developed to try to explain how a photon can turn into a couple electron/positon and also to consider the alternation of an elementary space-time and an anti space-time, as the triangle expands or contracts.
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"The indecipherable syllable" of Louis de Broglie would be decrypted?
The next page will pose yet another question about the constant Planck:
In the relativistic case, velocities do not add up then, for this reason, "The speed of light is it that of the basic photon: Planck constant?"
* The primary colors, also known as fundamental, here are the favorite colors of physics less known.
** The names of particles carrying charges corresponding appear in italics. The fact that the electron carries 3 charges of color will be justified further.