thus h = hbar / 2 * alpha

Whilhelm Frederick Denke, Sr "H-BAR" (1888) GDG
William Herman Denke, Sr "H-Bar" (1947) GDG
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Denke (cgs) 1886 . . . . vs . . . . Planck (cgs) 1886
e=[hbar*c/(4pi)]^1/2 . . .vs . . . . e=[hbar*alpha*c]^1/2
hbar=(4pi)*e^2/c . . . . . vs . . . . hbar=e^2/alpha*c
c=(4pi)*e^2/hbar . . . . . vs . . . . c=e^2/alpha*hbar
(4pi)=hbar*c/e^2 . . . . . vs . . . . alpha=e^2/hbar*c
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http://www.uni-kiel.de/index-e.shtml
http://www.uni-kiel.de/index.shtml
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h = hbar / 2 * alpha
h = (9.6705522(32) x 10^-36 J-s) / (2.00000000 x 10^0 rad/sr) *
(7.2973525(37) x 10^-3 sr)
h = 6.6260689(63) x 10^-34 J-s/rad
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inverse fine-structure constant = 1.3703600(00) x 10^2 /sr
inverse fine-structure angle = 6.8517999(86) x 10^1 /rad
spin two = 2.00000000 x 10^0 rad/sr
relative permeability = 1.00000000 x 10^0 rad/rad
dielectric constant = 1.00000000 x 10^0 sr/sr
spin one-half = 5.00000000 x 10^-1 sr/rad
fine-structure angle = 1.4594705(07) x 10^-2 rad
fine-structure constant = 7.2973525(37) x 10^-3 sr
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http://www.garrydenke.com/hbar.htm
http://www.denocoinc.com/hbar.htm
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hbar = e^2 * z0
hbar = [(1.6021764(87) x 10^-19 C)^2] * (3.767303134... x 10^2 omega)
hbar = 9.6705522(32) x 10^-36 J-s
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hbar = e^2 / e0 * c
hbar = [(1.6021764(87) x 10^-19 C)^2] / (8.854187817... x 10^-12 F/m)
* (2.99792458 x 10^8 m/s)
hbar = 9.6705522(32) x 10^-36 J-s
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hbar = e^2 * u0 *c
hbar = [(1.6021764(87) x 10^-19 C)^2] * (1.256637061... x 10^-6 N/A^2)
* (2.99792458 x 10^8 m/s)
hbar = 9.6705522(32) x 10^-36 J-s

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