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
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