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Saturday, March 10, 2018

The strong force of AuT vs QCD

So I swam 3400 yards, 1800 im and walked about 4 miles and should be able to enjoy that.  The problems that I have surprise me, although they shouldn't.  You don't just get what you deserve in life, and I deserve my problems, you also get what you ask for.

The discussion that follows matches the theory of AuT very well.  As predicted by the relative strength, the strong force is a ct5 phenomena, particularly it is the effect of the transitional state where protons and neutrons begin to align along a ct5 information arm and shows as well as anything the interaction of all the parts predicted byAuT.
You have the ct4 transitional states of the proton, the less secured part of the electron and all of the ct2, loose ct3 and ct1 intervening states.
This explains the strength (matching the compression of ct5 states) as well as the range, it can only work along the ct5 carrier arm so its range is necessarily limited to the carrier arm.

Here is an outline of the pre-aut portion

Strong holds nucleus together (protons and neutrons.
Overcomes electro-magnetic
Proportional to "distance" and not 1/distance making very different from em and grav.

proton-
"force carriers can propogate"

Weak-neutorn decays into proton plus very small particles.  weak force covers the decay.

Why strong/weak not experienced macroscopically.

1/r proportionality of electro-mag and gravity: due to "force carriers" having no rest mass (photon and graviton).

QED-Elec and photon-elm charge carrier
QCD: Strong Force:Interaction between quarks-colour change and strong force carrier (gluon)
matter particles with spin 1/2; gluons-spin 1

AuT: Interaction is seen as the different compression states interchanging.

QCD (strong force) says two up and one down=2/3+2/3-1/3 for proton vs AuT 10^16-electron=9^/16 which is both negative and divisible by3.
QCD-one up, 2down=neutral vs the combination shown by AuT 10^16-0.
QCD-bound by exchanging gluons; AuT bound by solutions, but exchange lower ct states and bundles of lower ct states in these higher states.
Hadrons (protons for e.g.) are bound states of quarks.
QCD has problem with range (1) carriers have no mass, no explanation for why only on microscopic scale and not on longer scales; AuT-mass is just an effect of 3-d and distance is because these forces only are solutions between high compression states.
Lagrange:LQCD=Sum(q) q(abs)Dq-1/4GuvG^av
D-Dirac's equation; - Maxwell's equation in a vacuum

Confinement and Asymptatic Freedom:
Conf-no isolated colour charged particles appear
    Hydrogen can be broken into proton and electron; not so for hadrons
Deep inelastic scatttering:  Electrons broke: No force acts on quarks
Asymptatic Freedom-at short distances force acts on the quarks

Counter-intuitive force acting:
Charge issues of being split up and recombining
    Analogous to a polarized medium
       Virtual charges-PM counteract the initial charge
    In short distance the PM counteraction is less
    Force becomes smaller at short distances (when seen)
      Self interacting feature of gluons yields this effect
      Lines of force
         QED-decrease with distance because field lines extend out farther and farther (between + and - charges) (photon carriers) V varies 1/r
         QCD-(gluon carriers-no rest mass) squeezed into one dimension and do not weaken...? (between red and anti-red) V varies r

They  cannot isolate colored particles-only propogate over long distances which is used in explanation of short range.  Pulling Quark pair apart-at a certain distance it is energetically favorably to break up into two quark pairs; jets of color neutral particles.

Weak force explanation will be different: involves the higgs mechanism in QED/QCD but AuT will, again, have a better, more accurate definition.

Books 1 and 7 are available and free on kindle unlimited today.  At least one thing is going right.


 
     





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