i have black hair redheads usualy cuckold my race and shouldnt take my race credit with the red and white template instead of black and white template

I have black hair redheads usualy cuckold mening reduceren my race and should not taken my race credit as a my races reducers andere numbers decreasers so the template should be black and white not orange and white.

Different time zone: multiracialty is good and increases wealth of society with tolerance of rare races which might be smart het rare also since the smartest are always minoritys andere many redheads i have known have often rare eyecolours so are often rare. So the template promoties race diversity.

33 inventions #1346 to #1378

Forces L to N are a total of 33  inventions Wich are inventions #1346 to #1378 of the genius spermabank for low GDP african countries spread over them sponsorship in etfs and they have tot Pay Netherlands development aid Taxes first.

N F=m/N*Nx/t^2

1:15 am Amsterdam time 6 August 2015
N= number
F=m/N*Nx/t^2
F=(m^o+1)/(m^o)/(N^p+1)(N^p)*(N^p+1)/(N^p)(x^q+1)/(x^q)/(t^r+2)(t^r)
F(Phi,QR,W)=m/N*N(x/t(x^2/x^2))/t=m/N*N(volume/t/surface)/t=m/N*N(Phi)/Surface/t , t=Q/i=QR/Volt
F(Phi, QR, W)= m/N*N(Phi)/surface/Q/Resistance*Volt
=m/N(m/m)(t^2/t^2)/surface*N(Phi)/Q/R*Volt=
m^2/N/t^2/W*N(Phi)/Q/R*Volt=(Phi)/Q/R/W/N*Nm^2/t^2*Volt
Parallel infinite forces: F(Phi,QR,W)=(m^o+1)/(m^o)/(N^p+1)(N^p)(N^p+1)/(N^p)(volume^q+1)/(volume^q)/(t^r+1)(t^r)/(surface^s+1)/(surface^s)/(t^u+1)(t^u)= (m^o+1)/(m^o)/(N^p+1)(N^p)(N^p+1)/(N^p)(Phi^q+1)/(Phi^q)/(surface^r+1)(surface^r)/(t^s+1)(t^s)= (m^o+1)/(m^o)/(N^p+1)(N^p)(N^p+1)/(N^p)(Phi^q+1)/(Phi^q)/(surface^r+1)(surface^r)/(Q^s+1)(Q^s)/(Resistance^u+1)(Resistance^u)(Volt^v+1)/(Volt^v)= (Phi^o+1)/(Phi^o)/(Q^p+1)(Q^p)/(R^q+1)(R^q)/(W^r+1)(W^r)/(N^s+1)(N^s)(N^s+1)/(N^s)(m^u+2)/(m^u)/(t^v+2)(t^v)(Volt^w+1)/(Volt^w) ,o->w=0->1/0 by PhD Alborz Seddigh Afshar Also Known as Flo, Quatre Whorls

M F=(m^n+1/m^n)(x^o+1/x^o)(t^p/t^p+2)

9:35 AM Amsterdam time 3 August 2015
M=mass
F= (m^n+1/m^n)(x^o+1/x^o)(t^p/t^p+2)
=mx/t^2 for n=0->1/0 and o=0->1/0
And p=0->1/0
x= distance t=time

F(Phi, QR, W)= (m^n+1/m^n)(x^o+1/x^o)(x^2/x^2)(t/t)(t^p/t^p+2)= (m^n+1/m^n)(x^o+3/x^o+2)(t^p+1/t^p+3)=
(m^n+1/m^n)(x^3/t)(x^o/x^o+2)(t^p+1/t^p+2)= (Phi)(m^n+1/m^n)(x^o/x^o+2)(t^p+1/t^p+2)=(Phi)(m^n+1/m^n)(x^o/x^o+2)(t^p/t^p+1)(t/t)   ,t=Q/i Q=Charge i=current i=Volt/Resistance=V/R , t=QR/V , F(Phi,QR,W)= (Phi)(m^n+1/m^n)(x^o/x^o+2)(t^p/t^p+1)(QR/V/t), W=mx^2/t^2 , F(Phi,QR,W)=(Phi)QR/V/t(m/mx^2/x^2t^2/t^2)(m^n+1/m^n)(x^o/x^o+2)(t^p/t^p+1)= (Phi)QRW/V/t/m(m^n+1/m^n)(/x^2)(x^o/x^o+2)(t^2)(t^p/t^p+1)= (Phi)QRW/V(m^n+2/m^n)(x^o/x^o+4) by Flo, Quatre Whorls Also Known As AKA PhD Alborz Seddigh Afshar