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σd or σ = e^(2*ln(µari/µgeo))^0,5 = true standard scattering factor sigma deisenroth
true arithmetic mean (µari) and true geometric mean (µgeo)
µari = true arithmetic mean (wahrer arithmetischer mittelwert)
µgeo or µ = true geometric mean (wahrer geometrischer mittelwert)
µari = µgeo*e^(0,5*ln(σd)^2)
µgeo or µ = µari/e^(0,5*ln(σd)^2)
estimated arithmetic mean (xari) and estimated geometric mean (xgeo)
xari = estimated arithmetic mean (geschätzter arithmetischer mittelwert)
xgeo = estimeted geometric mean (geschätzter geometrischer mittelwert)
xgeo(xi;n) = e^(1/n*((ln(x1)+ln(x2)+.....+ln(xn)))
xgeo(sd;xari) = xari/e^(0,5*ln(sd)^2)
xari(xi;n) = 1/n*(x1+x2+ ....+xn)
xari(sd;xgeo) = xgeo*e^(0,5*ln(sd)^2)
true standard scattering factor sigma deisenroth σd and estimated standard scattering factor sigma deisenroth sd
σd = true standard scattering factor sigma deisenroth (wahrer standardstreufaktor sigma deisenroth)
σd or σ = e(2*ln(µari/µgeo))^0,5
sd = e(2*ln(xari/xgeo))^0,5
scattering factor normal distribution sigma zeta phi deisenroth (streufaktornormalverteilung sigma zeta phi deisenroth)
σ(ϕ;n) = σ^±√(-ln(ϕ)/n) = σ^±ζ(ϕ;n) = x(ϕ;n)/µ
σ(ϕ;n) = σ^(±ζ(ϕ;n) = x(ϕ;n)/µ
ϕd(x;n) or ϕ(x;n) = e^(-n*((ln(x/µ))/(ln(σ))²)
x(ϕ;n) = µ∗σ^(±√((-ln(ϕ)/n)))
ϕ(σ;n) = e^(-n*((ln(x(ϕ;n)/µ))/(ln(σ))²)
ζ(ϕ;n) = ±√(-ln(ϕ)/n)
factor normal distribution (faktor normalverteilung = faktornormalverteilung = streufaktor normalverteilung = streufaktornormalverteilung)
probability limit factor normal distribution sigma zeta phi deisenroth = σd(ϕd;n) = σd^±ζd(ϕd;n) = σd^(±√(-ln(ϕd)/n)) = x(ϕd;n)/µgeo ; σd=1,01
probability limit factor normal distribution sigma zeta phi deisenroth = σd(ϕd;n) = σd^±ζd(ϕd;n) = σd^(±√(-ln(ϕd)/n)) = x(ϕd;n)/µgeo ; σd=2
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