Gravito-Electro-Fuerte:
Hardrones: SU(3)
3 quarks:
e^{(x+(-y))·it}·e^{(y+(-z))·it}·e^{(z+(-x))·it}
3 anti-quarks
e^{(y+(-x))·it}·e^{(z+(-y))·it}·e^{(x+(-z))·it}
protón + anti-protón: bcu+¬(bcu)
e^{(2/3)·it+(y+(-z))·it}·e^{(2/3)·it+(z+(-x))·it}·e^{(-1)·(1/3)·it+(x+(-y))·it}·...
... e^{(-1)·(2/3)·it+(z+(-y))·it}·e^{(-1)·(2/3)·it+(x+(-z))·it}·e^{(1/3)·it+(y+(-x))·it}
neutrón+anti-neutrón: tad+¬(tad)
e^{(-1)·(1/3)·it+(y+(-z))·it}·e^{(-1)·(1/3)·it+(z+(-x))·it}·e^{(2/3)·it+(x+(-y))·it}·...
... e^{(1/3)·it+(z+(-y))·it}·e^{(1/3)·it+(x+(-z))·it}·e^{(-1)·(2/3)·it+(y+(-x))·it}
Mesones: SU(2)
1 quark y 1 anti-quark
e^{(x+(-y))·it}·e^{(y+(-x))·it}
e^{(y+(-z))·it}·e^{(z+(-y))·it}
e^{(z+(-y))·it}·e^{(y+(-z))·it}
pión y anti-pión:
u(¬d)+(¬u)d
e^{(-1)·(1/3)·it+(x+(-y))·it}e^{(-1)·(2/3)·it+(y+(-x))·it}·...
... e^{(1/3)·it+(y+(-x))·it}e^{(2/3)·it+(x+(-y))·it}
t(¬b)+(¬t)b
e^{(-1)·(1/3)·it+(y+(-z))·it}e^{(-1)·(2/3)·it+(z+(-y))·it}·...
... e^{(1/3)·it+(z+(-y))·it}e^{(2/3)·it+(y+(-z))·it}
a(¬c)+(¬c)a
e^{(-1)·(1/3)·it+(z+(-x))·it}e^{(-1)·(2/3)·it+(x+(-z))·it}·...
... e^{(1/3)·it+(x+(-z))·it}e^{(2/3)·it+(z+(-x))·it}
Cuerdas Do-Deca-trónicas:
SU(2)
u+(¬u)
e^{(-1)·(1/6)·it+(u(x)+(-1)·v(x))·it}e^{(-1)·(1/6)·it+(v(x)+(-1)·u(x))·it}·...
... e^{(1/6)·it+(v(x)+(-1)·u(x))·it}e^{(1/6)·it+(u(x)+(-1)·v(x))·it}
d+(¬d)
e^{(1/3)·it+(u(x)+(-1)·v(x))·it}e^{(1/3)·it+(v(x)+(-1)·u(x))·it}·...
... e^{(-1)·(1/3)·it+(v(x)+(-1)·u(x))·it}e^{(-1)·(1/3)·it+(u(x)+(-1)·v(x))·it}
Gravito-Electro-Débil
Leptones: SU(2)
electrón+positrón eléctrico neutro gravitatorio:
e^{(-1)·it+( Z(x)+(-1)·W(x) )·it}·e^{(+1)·it+( W(x)+(-1)·Z(x) )·it}
electrón+positrón gravitatorio neutro eléctrico:
e^{(-1)·it+( W(x)+(-1)·Z(x) )·it}·e^{(+1)·it+( Z(x)+(-1)·W(x) )·it}
muón+anti-muón eléctrico neutro gravitatorio:
e^{(-1)·it+( Z(y)+(-1)·W(y) )·it}·e^{(+1)·it+( W(y)+(-1)·Z(y) )·it}
muón+anti-muón gravitatorio neutro eléctrico:
e^{(-1)·it+( W(y)+(-1)·Z(y) )·it}·e^{(+1)·it+( Z(y)+(-1)·W(y) )·it}
tauón+anti-tauón eléctrico neutro gravitatorio:
e^{(-1)·it+( Z(z)+(-1)·W(z) )·it}·e^{(+1)·it+( W(z)+(-1)·Z(z) )·it}
tauón+anti-tauón gravitatorio neutro eléctrico:
e^{(-1)·it+( W(z)+(-1)·Z(z) )·it}·e^{(+1)·it+( Z(z)+(-1)·W(z) )·it}
m(x)·c^{2} = h·G(x)·( W(x)+Z(x) )
m(y)·c^{2} = h·G(y)·( W(y)+Z(y) )
m(z)·c^{2} = h·G(z)·( W(z)+Z(z) )
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