If the total mass is interdependent, then does the total mass contain both matter and antimatter masses like this:
Mass = Matter × Antimatter.
E.g. (hypothetical),
The Proton's mass == Antimatter(59×31×31×3×3) × Matter(59×31) × 1.005303472855531 eV/c^2?
The Down Quark’s mass == Matter(59×31×31×3×3×3) × Antimatter(3) × 1.023381212332223 eV/c^2?
The Up Quark’s mass == Antimatter(59×31×31×3×3×2) × Matter(2) × 1.077816383200958 eV/c^2?
The Electron’s mass == Matter(59×31×31×3×3) × Antimatter(1) × 1.001387338009097 eV/c^2?
Proton’s Charge = 2×(An(59×31×31×3×3×2)×M(2)) - M(59×31×31×3×3×3)×An(3) = An(59×31×31×3×3×1)×M(1)
But electrons don’t need extra matter or antimatter to be balanced. Therefore, only protons could have a Charge.
The Muon’s mass == Matter(59×59×31×31×31) × Antimatter(1) × 1.01886073187205 eV/c^2?
The Tau’s mass == Matter(59×59×59×31×31×3×3) × Antimatter(1) × 1.000302326214752 eV/c^2?
The Strange Quark’s mass == Matter(59×59×31×31×3×3) × Antimatter(3) × 1.051798216785732 eV/c^2?
The Bottom Quark’s mass == Matter(59×59×59×31×31×(3 + 4)) × Antimatter(3) × 1.008503859194067 eV/c^2?
The Charm Quark’s mass == Antimatter(59×59×31×31×31×3×2) × Matter(2) × 1.024565750222095 eV/c^2?
The Top Quark’s mass == Antimatter(59×59×59×31×31×31×2×(3 + 4)) × Matter(2) × 1.008426030527669 eV/c^2?
If 1 eV/c^2 contains a structure with smaller units, then it would be like this:
1 eV/c^2 = Matter(59×31×31×3×3) × Antimatter(59×31) × asymmetry? It has masses like this 1/933322239 eV/c^2.
Hypothetical extraordinary correlation #1:
The particular mass of Down Quark and Up Quark could emerge while the structure of the Gluon field becomes geometrically symmetric when it decays into a Proton, making the strongly stable Proton.
Proton's hypothetical structure == 3481 × 31^2 × 31 × 9 × 1.005303472855531 eV/c^2.
Down Quark's hypothetical structure == 59 × 31^2 × 9 × 9 × 1.023381212332223 eV/c^2.
Hypothetical extraordinary correlation #2:
The mass of the Helium nucleus == 59×59×31×31×31×3×3×4×1.005996337712896 == 3755675017.36 eV/c^2
The asymmetry in the Helium nucleus = 1.005996337712896 - 1 == 0.0059963377128957
The mass of the final atomic symmetry == 1/0.0059963377128957 == 166.7684589961309 == Nearly, 167 amu.
Atom-65 Terbium's mass == 158.9254 amu, Melting point == 1629 K, Boiling point == 3396 K
Atom-66 Dysprosium's mass == 162.50 amu, Melting point == 1680 K, Boiling point == 2840 K
Atom-67 Holmium's mass == 164.9304 amu, Melting point == 1734 K, Boiling point == 2873 K
Atom-68 Erbium's mass == 167.26 amu, Melting point == 1802 K, Boiling point == 3141 K (It is stable at 167 amu)
Atom-69 Thulium's mass == 168.9342 amu, Melting point == 1818 K, Boiling point == 2223 K
Atom-70 Ytterbium's mass == 173.04 amu, Melting point == 1097 K, Boiling point == 1469 K
Probaby, most masses of quantum objects (standard elementary particles) have a relationship to each other because their masses have a strong relationship to a very few similar numbers. E.g., 59, 31, 3.
The W Boson’s mass == 59×59×31×31×31×31×(3 + 2)×(3 + 2)×1.000094376386809 == 80377000000 eV/c^2.
The Z Boson’s mass == 59×59×31×31×31×31×(3 + 1)×(3 + 4)×1.013040843642746 == 91187600000 eV/c^2.
The Neutron's mass == 59×59×31×31×31×3×3×1.00668920257026 == 939565420.52 eV/c^2.
The Proton's mass == 59×59×31×31×31×3×3×1.005303472855531 == 938272088.16 eV/c^2.
The mass of gluons without the fluctuations like quarks = 59×59×31×31×31×3×3×1 = 933322239 eV/c^2.?
Photons have many different masses, including very low-energy masses. The mass of a photon == 31×a/b eV/c^2.?
The Higgs Boson's mass == 59×31×31×31×31×3×3×3×(3+2)×(3+14)×1.000404952049279 == 125100000000
eV/c^2 or 59×31×31×31×31×3×3×3×(3+1)×(3+7) == 58846758120 eV/c^2 (The hypothetical mass of a matter or antimatter Higgs super-fermion that has an undetectable -1-x Charge or +1+x Charge while x>0.) or 59×59×59×31×31×3×3×2.34754606458332×30 == 125100000000 eV/c^2.?
Perhaps, the Higgs Boson decays into matter and antimatter Higgs super-fermions and a photon, before it decays into fermions. Presumably, more groups of elementary particles exist with relatively undetectable Charges.
Likely, there is a fundamental building block with 31 points of existence. Perhaps, they emerged from 32 or 33 fundamental structures like 31 points of existence with a lost point or lost points of existence due to a delayed breaking point (like Bhavanga Upaccheda) and interactions. Most likely, a structure with connected 31 or 32 points of existence can connect with another similar structure by sharing their points of existence with each other like this:
((32 or 31) + (-32 or -31) == 29+((1-1)+(1-1)+(1-1) or (1-1)+(1-1))-29 == 29+(x+y+z or y+z)-29. If x+y+z=3a or y+z=2a, and a=0, then 29+(3a or 2a)-29 == 29+(3x0 or 2x0)-29 == 59 points of existence with 3 or 2 potential gaps == 59×(built-in 3-3 or 2-2 symbolic gap) == 59(3/3 or 2/2 potentiality).
Arguably, 31 planes of existence could emerge if they depend on 31 types of possible connections between two connected fundamental streams of existence. If the three neutral gaps ((1-1)+(1-1)+(1-1)) between the connected two streams of existence became a reason to originate a plane of existence like the third plane of existence, then two neutral gaps between two connected streams of existence (61(built-in 2-2 symbolic gap)) could create the second plane of existence. Similarly, four neutral gaps between two connected streams of existence (57(built-in 4-4 symbolic gap)) could create the fourth plane of existence, and so on.
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