L= Length= x in meters
F=F1^(n+1)/F2^n
F1=mx^(n+1)/x^n/t^2
F2=E/x=kTNx^n/x^(n+1)
F2b=E/x=Presure*Volume/x=Px^3/x= Px^(3+n)/x^(1+n) (n=0=>1/0)
F(Phi, QR, W)=Px^3x^n/x^(1+n)= (x^3(t/t))Px^n/x^(n+1)=(volume/t)tPx^n/x^(n+1) =(Phi)tPx^n/x^(n+1) t=Q/i Q=charge i=current F(Phi, QR, W)=
(Phi)Q/iPx^n/x^(n+1) i=Volt/Resistance
t=QR/Volt
F(Phi,QR,W)=(Phi)QR/Volt*Pressure*x^n/x^(n+1)=
(Phi)QR/Volt*(Pressure(x^3/x^3))x^n/x^(n+1) Energy=Work=Pressure*volume =Px^3 F(Phi,QR,W)=(Phi)QR/Volt*Work/x^3x^n/x^(n+1)=(Phi)QRW/Volt*x^n/x^(4+n) to add more specificaly my specialisms inventions not just my races terms or my phenotypes terms QW/Volt*konstant means more force when more charge in fusor also more charge per electric field = Voltlength so smaler electric field increases per charge increase so medium types that are superconducting or opposite of superconducting carying lots of charge as capacitators with small field increase as metals with large amounts of protons such as heavier denser metals mixed with super conductor or anticonductor for least electric field increase per charge increase cause most force also heat capacity as in work should be maximal like in metals this used in fusors or z pinch and tokamak plasmas mixing heavy metals and gasses in plasmas fueling rocket pumps in embryology reducing shear forces and aspired ovum damage by reducing shear forces by reducing flow and work so velocity of aspiration in W=mv^2 and increasing volume diameter of needle and length and x^n to reduce force y Flo, Quatre Whorls AKA PhD Alborz Seddigh Afshar 29 juli 2015 finishing at 12:10 PM Amsterdam time.
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