A neutrino

In termr of the smallest quishy thing, the neutrino is the smallests number of these that can form a article within the gtven precision.  It is a two dimension thing, I thnk.

I*t would seem to me we need three of one color outnumber one of the other. Theadaptive process should be in ward.That give it spin.  Mass? one.  At any goven nstance, only two of thos colors cancel?   Can it switch for an instance to a single color?     Mass of 2,4,6? It needs six groups of quishy things, those that must be appoximate.  A partice is something unstable ecaue the original color sepaation in the groups cannot find a better optimum.

Mass comes when the congestion is oo hig locally and the market balacning cann keep up, soem groups are left with an imbalcend partition. The imblance causes the group to move, the balacing process slight slow. The first motion is called spin, the first stable overflow event.   The de,livered imprecision is bounded by 3/2 not 1/2. Then the next level of precision mismatch is a notch up, charge.  Adding another force goes up the markov tree, evidently.  Packing a three color channel.



The mismatches cause motion along the axis.  The third color is motion, the large up the tree the more mass.

The assymetry of the collections measn the physicist mus collect  a sufficien number of them to invert,m in isolation, to stabilize another color dominance.  He needs anong N in total to provide the sufficient support for the imrrecision.. The quark system has an enormous mismatch, internally. It needs to count out the four forces. Two jumps get you that, plus the balancing proces still getrs a bit.

But we are limited in the force count, again, because we neeed sufficient n in the nighborhood. That is, we make enough grnulation of motion to make sur motion  is not too precise. Everything should balance.