Quantum Gravity and String Theory


The Quantised Angular Momenta of Astronomical Bodies

Authors: Bernard Riley

The spin angular momentum of the sun precisely equals the quantum h-bar multiplied by 2 raised to the power 250. Between them the next five nearest G or K-type stars take the exponents 247, 248, 249, 250 and 251, the binary star Alpha Centauri AB taking exponents (249 and 251) either side of 250 and Epsilon Eridani taking the exponent 250. The red dwarfs Proxima Centauri and Barnard’s Star both take the exponent 240. The spin angular momentum quantisation scheme also applies to the planets of the solar system. Again, exponents that are multiples of 5 are preferred. Jupiter and Saturn behave as a binary planet, with exponents centred on 240. Uranus and Neptune behave as a binary planet, with exponents centred on 233. Earth and Mars take the exponents 225 and 220, respectively. The geometric mean orbital angular momentum of the eight planets equals the spin angular momentum of the sun. With spin parameters of intermediate value, the supermassive black holes located in the Milky Way and M31 galaxies take the exponents 295 and 305, respectively.

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[v1] 2018-11-14 07:27:56

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