Abstract
ONE of the comparatively few points of similarity in current cosmological theories is the occurrence in each of a parameter of mass of the order of 1055 gm., equivalent to about 1079 protons. In Eddington's cosmology this parameter is fundamental; and in Milne's, although he assumes that the world is infinite, there appears a similar constant1 which he calls the ‘fictitious mass of the universe’. This common feature in theories otherwise so different suggests that there may be a less sophisticated method of derivation, possibly within the framework of classical mechanics, the far-reaching cosmological applications of which were first pointed out by Milne2 and McCrea3 and have since been emphasized by Heckmann4.
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References
Milne, Proc. Roy. Soc., A, 154, 43 (1936).
Milne, Quart. J. Math., 5, 64 (1934).
Milne and McCrea, Quart. J. Math., 5, 73 (1934).
Heckmann, “Theorien der Kosmologie” (1942).
Milne, Proc. Roy. Soc., A, 154, 43 (1936).
Hubble, “Observational Approach to Cosmology” (1937), 20.
Eddington, Mon. Not. Roy. Ast. Soc., 104, 203 (1944).
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WHITROW, G. The Mass of the Universe. Nature 158, 165–166 (1946). https://doi.org/10.1038/158165b0
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DOI: https://doi.org/10.1038/158165b0
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