música y partículas elementales

[00+04][00+02][00+05][00+04] = 15k = 3·5·k

[00+06][00+04][00+07][00+06] = 23k

[00+10][00+08][00+11][00+10] = 39k = 3·13·k

[00+12][00+10][12+01][00+12] = 47k

[00+03][00+02][00+06][00+06] = 17k

[00+05][00+04][00+08][00+08] = 25k = 5·5·k

[00+09][00+08][00+12][00+12] = 41k

[00+11][00+10][12+02][12+02] = 49k = 7·7·k

Cuerdas Leptónicas:

Gravito-Electro-Débil:

e [o] ¬e

Eléctrico:

e^{( (-1)+(Z(x)+(-1)·W(x)) )·it}·e^{( 1+(W(x)+(-1)·Z(x)) )·it} = 1

Gravitatorio:

e^{( (-1)+(W(x)+(-1)·Z(x)) )·it}·e^{( 1+(Z(x)+(-1)·W(x)) )·it} = 1

Cuerdas Quarkianas:

Gravito-Electro-Fuerte:

u [o] ¬u

Eléctrico:

e^{( (2/3)+(P(x)+(-1)·Q(x)) )·it}·e^{( (-1)·(2/3)+(Q(x)+(-1)·P(x)) )·it} = 1

Gravitatorio:

e^{( (1/3)+(P(x)+(-1)·Q(x)) )·it}·e^{( (-1)·(1/3)+(Q(x)+(-1)·P(x)) )·it} = 1

d [o] ¬d

Eléctrico:

e^{( (1/3)+(Q(x)+(-1)·P(x)) )·it}·e^{( (-1)·(1/3)+(P(x)+(-1)·Q(x)) )·it} = 1

Gravitatorio:

e^{( (2/3)+(Q(x)+(-1)·P(x)) )·it}·e^{( (-1)·(2/3)+(P(x)+(-1)·Q(x)) )·it} = 1

Color-Nuclear:

X = P(x) = P(z)

Y = P(y) = Q(x)

Z = Q(z) = Q(y)

ud & tb & ac

Eléctrico:

(2/3)+P(x)+(-1)·Q(x)+(1/3)+Q(x)+(-1)·P(x) = 1

(2/3)+P(y)+(-1)·Q(y)+(1/3)+Q(y)+(-1)·P(y) = 1

(-1)·(1/3)+Q(z)+(-1)·P(z)+(-1)·(2/3)+P(z)+(-1)·Q(z) = (-1)

Gravitatorio:

(1/3)+X+(-Y)+(2/3)+Y+(-X) = 1

(1/3)+Y+(-Z)+(2/3)+Z+(-Y) = 1

(-1)·(2/3)+Z+(-X)+(-1)·(1/3)+X+(-Z) = (-1)

Ley:

Se muere para siempre <==> es infiel que no es

No se muere para siempre <==> es fiel que es

Juego de odiar:

Ateo-Ateo:

F((-1),(-1)) = (-1)

F((-x),(-y)) = xy+(x+y)

F((-1),1) = (-1)

F((-x),y) = xy+(-1)·(x+y)

Creyente-Ateo:

F((-2),(-1)) = (-1)

F((-x),(-y)) = xy+(x+y)

F((-2),1) = (-1)

F((-x),y) = xy+(-1)·(x+y)

Ateo-Creyente:

F((-1),(-2)) = (-1)

F((-x),(-y)) = xy+(x+y)

F((-1),2) = (-3)

F((-x),y) = xy+(-1)·(x+y)

Creyente-Creyente:

F((-2),(-2)) = 0

F((-x),(-y)) = xy+(x+y)

F((-2),2) = (-4)

F((-x),y) = xy+(-1)·(x+y)

Gana lo mínimo

Pierde lo máximo

Juego de amar:

Ateo-Ateo:

F(1,1) = (-1)

F(x,y) = xy+(-1)·(x+y)

F(1,(-1)) = (-1)

F(x,(-y)) = xy+(x+y)

Creyente-Ateo:

F(2,1) = (-1)

F(x,y) = xy+(-1)·(x+y)

F(2,(-1)) = (-1)

F(x,(-y)) = xy+(x+y)

Ateo-Creyente:

F(1,2) = (-1)

F(x,y) = xy+(-1)·(x+y)

F(1,(-2)) = (-3)

F(x,(-y)) = xy+(x+y)

Creyente-Creyente:

F(2,2) = 0

F(x,y) = xy+(-1)·(x+y)

F(2,(-2)) = (-4)

F(x,(-y)) = xy+(x+y)

Pierde lo mínimo

Gana lo máximo

Plancha de vinilo:

m·( ln(w) [o(t)o] ln(w) [o(t)o] (1/2)·r^{2}+ln(w) [o(t)o] r [o(t)o] r ) = E(t)

int[E(t)]d[t] [o(t)o] ln(w) = ...

... m·t [o(t)o] ( ( ln(w) )^{[o(t)o]2} [o(·)o] (1/2)·( r( ( ln(w) )^{[o(t)o]1} ) )^{[o(t)o]2} )

r( ( ln(w) )^{[o(t)o]1} ) = e^{( ln(w) )^{[o(t)o]1}}

d_{x}[ d_{x}[f(x)]^{n} ] = n·d_{x}[f(x)]^{n+(-1)}·d_{xx}^{2}[f(x)]

d_{x}[ n·( f(x) )^{[o(x)o](n+(-1))} [o(x)o] d_{x}[f(x)] ] = ...

... n·d_{x}[f(x)]^{n+(-1)}·d_{xx}^{2}[f(x)]