>>11915611In 1899, when Planck copied 1886 Kaiser Wilhelm Society (KWS) Laude Denke
files Planck missed the KWS radiant (2 rad/sr * 7.297352566 x 10^-3 sr)
> Energy = Brenna constant * (big G * graviton density)^1/2> Energy = Brenna constant * graviton frequencyBrenna constant = (2 * Planck constant) * alpha
Brenna constant = 2 rad/sr * 6.626070150 x 10^-34 kg-m^2/s-rad * 7.297352566 x 10^-3 sr
Brenna constant = 9.670554000 x 10^-36 kg-m^2/s
In 1899, when Einstein copied the 1886 Kaiser Wilhelm Society (KWS) Laude Denke
files Einstein missed KWS steradiant (2 rad/sr * 6.626070150 x 10^-34 kg-m^2/s-rad)
>big G= c^5 / graviton power , G=2/c, c=2/G, 2=G*c (natural units)>big G = c^4 / graviton force , G=2/c, c=2/G, 2=G*c (natural units)alpha = Brenna constant / (2 * Planck constant)
alpha = 9.670554000 x 10^-36 kg-m^2/s / (2 rad/sr * 6.626070150 x 10^-34 kg-m^2/s-rad)
alpha = 7.297352566 x 10^-3 sr
In 1899, when Planck copied 1886 Kaiser Wilhelm Society (KWS) Laude Denke
files Planck missed the KWS radiant (2 rad/sr * 7.297352566 x 10^-3 sr)
>Energy = Planck constant * [(big G * graviton density)^1/2] / radiant>Energy = (Planck constant * graviton frequency) / radiantPlanck constant = Brenna constant / (2 * alpha)
Planck constant = 9.670554000 x 10^-36 kg-m^2/s / (2 rad/sr * 7.297352566 x 10^-3 sr)
Planck constant = 6.626070150 x 10^-34 kg-m^2/s-rad