Quarks & Gluons as beads of the Aks.ara-mala
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quarks are the basic constituents of sub-atomic particles |
consonants are the basic constituents of word-roots (according to S^emitic grammars) |
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gluons hold together quarks in order to form sub-atomic particles |
vowels hold together consonants so as to form usable words (according to S^emitic grammars) |
constituents of mesons vs. of baryons
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The baryon system would seem to be accounted for by as few as 6 quarks; but |
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a larger number of constituents would seem to be needed to account for mesons. |
Thus (e.g.),
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a pi meson and a rho meson should not have the same constituents; |
One of these should be a parton. |
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nor should an eta-c meson consist of a quark and and anti-quark of the same kind (as they would mutually annihilate). |
One of these should be a parton. |
where "parton" would be a constituent of a lepton (electron and muon).
The electron-parton is apparently to be found also in a nucleon:
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A neutron can decay into proton + electron (+ anti-neutrino) |
This would indicate that an electron-parton was already present in the neutron, |
and that such parton converted the neutron's negative pi-meson into the other electron-parton. |
This conversion would be similar to the color-shifting in quantum-chronodynamics; but with the added provision that a parton would be needed to produce another parton.
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It would remain to be discussed whether some baryons could be accounted-for by 2 quarks + 1 parton, and some by 1 quark + 2 partons. |
If so, because there are fewer kinds (1 pair) of partons than kinds (3 pair) of quarks, the 1 quark + 2 partons particles should be the more particular (stable). |
So, thus, a proton = 1 quark + 2 electron-partons; while a neutron = 1 quark + 2 muon-partons: the muon-components accounting for the nucleus' exchange-particles. |
As such, the single sub-particle could carry the gluon connecting the pair of sub-particles.
bosons as letters of the alphabet
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The muon-parton would be the principal binding-component in the nucleus. |
The letter W (<arabic wa "and") is the principal conjunction = neutretto. |
The vowel for W is U, so that would be the neutretto (muon's )-gluon vowel. |
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The electron-parton would be the lesser binding-component in the nucleus. |
The letter Y (<arabic -iy "pertaining to") is the lesser conjunctive = neutrino. |
The vowel for Y is I, so that would be the neutrino (electron's )-gluon vowel. |
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The glueball's main ingredient should be the graviton. |
The consonant could be < (<ayin) as mother-consonant = tau-neutrino. |
The vowel for < is A, so that would be the graviton (glu-ball's) vowel. |
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The dispersive ingredient (in electron region, not nucleus) would be the photon. |
Its consonant may be > (>alif) as mother-consonant (in <ibriy, rather than in <arabic) = neutral pion. |
The vowel for > is A (written in <arabic as a>), so that would be the photon vowel. |
These identifications are inhaerent in the consonants' enunciations:
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The graviton hath a intaking effect on massive particles. |
The phoneme < is produced by swallowing (which is to intake into the stomach). |
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The photon hath an expulsive effect on particles. |
The phoneme > is produced by coughing (which is to expell from the lungs). |
quarks as consonants
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The up-quark is the single quark in the neutron. |
Probably, the neutron = 1 up-quark + 2 muon-partons |
The spirant for W is F, which would be the up-quark. |
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The down-quark is the single quark in the proton. |
Probably, the proton = 1 down-quark + 2 electron-partons |
The spirant for Y is S^, which would be the down-quark. |
The other spirants would also be quarks (the other 4 of them).
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The strange-quark. |
The spirant S (initial-letter of the word 'strange') |
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The charm-quark. |
The retroflex spirant .S |
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The bottom-quark, of similar mass to the charm-quark. |
The retroflex spirant .T (= .Z in <arabic) |
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The top-quark is unaccountably massive. |
The spirant T is associated with the dental T, which can be abrupt and click-like (when truly dental, not alveolar). |
T is commonest initial consonant in <arabic names of numerals, possibly indicating measurement of mass as a primary function of numbers.
consonants of conjectural particles, as yet undiscovered
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A substantive particle, drawn out of the "Dirac sea" may be needed as centre for a "glu-ball" (as yet also unfound). |
The spirant for < is ^H (as in <arabic) |
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The magnetic monopole may be conjectured to mediate the electro-magnetic field (if Maxwell's aequations are wrong). |
The spirant for > is .H (.heyt) |
magnetic monopole
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That Maxwell's aequations are untenable was proven already in the 1890s. Were they originally intended merely as a joke? |
The sound-symbolism (in English) for 'joke' is ^C -- "chortle", "chuckle". |
The spirant for ^C (more correctly, written as upside-down t as I.P.A. symbol), is .H |
cosmic prayer
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When the goddess Uzume danceth, the very deities roar with laughter. |
The curiosity of reversed time-flux is answerable to humor. |
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Then the goddess Ama-terasu seeth herself in the divine mirroring. |
Reversed time is a reflection (of all rotations in reverse). |
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The aks.ara-mala (alphabet-rosary) is worn by Kali, the "time"-goddess. |
The female time would be reversed time, as in anti-matter. |
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She forceth her husband to dance a jig, he as Nrtanr.tya (dance as no-dance). |
The anti-quarks & other anti-sub-particles could force any bound sub-particles. |
This forcing would, of course, disclose, behind the uncertainty principle, the hidden variables in the super-implicate order.