Classification by permutations
Obvious proof of the presence in the electron of the 3 charges of color, their 6 permutations make it possible to explain the current classification of the matter in a 24 particles table divided into 3 families of 2 branches each one.
The antimatter fits into the symmetrical table. However, it seems preferable to amalgamate the 2 tables in only one, of 48 boxes, where the antimatter will be reproduced on the 2nd line of each family where it will justify the existence of one second branch.
We need to fill out the table, the classifying permutations, images of the 6 permutations of G3, are 3 particles of matter: the electron, the muon, the tau, and 3 antiparticles of antimatter: the positon, the antimuon, the antitau.
A fact arises from the comparison of these triangles: the exchange between the 2 charges of color of their bases is the reason of the difference between the matter -the higher triangles- and the antimatter -the lower triangles-.
Thus, the electron is transformed into positon if its yellow and blue charges permute, which is equivalent to a reversal of the triangle and thus reverses its direction of rotation.
For this reason, matter and antimatter turn in opposite direction.
The experiment confirmed, the inversion of the direction of rotation of an electron transformed itself into positon: a particle of the 1st branch of the 1st family became a particle of the 2nd branch of the 1st family.
The 2 similar permutations, between the 2 charges of color of their bases, transform the muon into antimuon and the tau in antitau.
The electron is located in the first family, that which builds our universe. The muon and the tau are electrons called heavy because of their mass and fossils because of their seniority; the muon, least heavy of both, is in the second family of the table, the second, the mastodon, the tau, is visible in the third.