Higgs Units
These unit take the mass of the Top Quark (175GeV) equal to 1.
Then we have approximately:
m(top) = 1
m(H) = 1/√2
m(W), m(Z)=1/2
m(b) = 1/42 = 1/(6.7)
m(strange) = 1/1842 = 1/42^2
m(up) = 1/72000??? = 1/42^3
m(charm) = 1/141 (close to fine structure)
m(down) < 1/182^2
m(tau) = 1/100 = 1/10^2
m(mu) = 1/1673 = 1/41^2
m(e)=1/345000 = 1/587^2
t(1) b(A)
c(B) s(A^2)
d(B^2) u(A^3)
A=1/42
B=1/135
m(v)=?=exp(-9)
h=1 = 6.6[-34]m^2 kg/s
c=1 = 3[8]m/s
m(H)=2.22[-25]kg
1 s = 3*10^(-17)
If we consider only mass^2 as important then we see:
m(H)=1/sqrt(2), m(W or Z)=1/2, m(top)=1, m(bottom)=1/42
1 Length Unit = 1.0[-17]metres /(1.414)
1 Time Unit = 3.3[-26] seconds /(1.414)
1 Mass Unit = 2.22[-25]kg (*1.414)
G = 6.67[-11]m^3/ kg/s^2 = 1.6[-35] Units = exp(-80) *2
6.67*10^(-11)/(10^(-17))^3*(2.22*10^(-25))*(3.3*10^(-26))^2
Age of universe = 1.3[43] Time units = exp(99)
Makes proton width approximately 85 Units radius.
Then we have approximately:
m(top) = 1
m(H) = 1/√2
m(W), m(Z)=1/2
m(b) = 1/42 = 1/(6.7)
m(strange) = 1/1842 = 1/42^2
m(up) = 1/72000??? = 1/42^3
m(charm) = 1/141 (close to fine structure)
m(down) < 1/182^2
m(tau) = 1/100 = 1/10^2
m(mu) = 1/1673 = 1/41^2
m(e)=1/345000 = 1/587^2
t(1) b(A)
c(B) s(A^2)
d(B^2) u(A^3)
A=1/42
B=1/135
m(v)=?=exp(-9)
h=1 = 6.6[-34]m^2 kg/s
c=1 = 3[8]m/s
m(H)=2.22[-25]kg
1 s = 3*10^(-17)
If we consider only mass^2 as important then we see:
m(H)=1/sqrt(2), m(W or Z)=1/2, m(top)=1, m(bottom)=1/42
1 Length Unit = 1.0[-17]metres /(1.414)
1 Time Unit = 3.3[-26] seconds /(1.414)
1 Mass Unit = 2.22[-25]kg (*1.414)
G = 6.67[-11]m^3/ kg/s^2 = 1.6[-35] Units = exp(-80) *2
6.67*10^(-11)/(10^(-17))^3*(2.22*10^(-25))*(3.3*10^(-26))^2
Age of universe = 1.3[43] Time units = exp(99)
Makes proton width approximately 85 Units radius.
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