A Precise Value of the Hubble Constant in the Planck Model

Authors: Bernard Riley

The matter density parameter omega_m and Hubble constant H_0 appear together twice in the equations of the Planck Model. First, the entropy of the Hubble sphere is given by the product of omega_m and the Bekenstein-Hawking entropy of a black hole of Hubble radius c/H_0. When omega_m and H_0 take realistic values the entropy approximates closely to a special value within a binary scheme formulated for black holes. With the entropy set exactly to that special value, one may write down an equation in which H_0 is a function of omega_m. Second, the dark energy density has a definite value that is related to the Bohr radius. Consequently, one may write down a second equation in which H_0 is a function of omega_m. Solving the two equations simultaneously one finds that omega_m = 0.358 and H_0 = 75.4 km/s/Mpc.

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[v1] 2018-03-23 03:20:36

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