dorsal/arxiv
View SchemaEstimation of Gravitational Constant `G_N' from CMBR data and Hubble's parameter
| Authors | G. Suryan |
|---|---|
| Categories | |
| ArXiv ID | physics/0106083 |
| URL | https://arxiv.org/abs/physics/0106083 |
Abstract
In the companion submission by the author entitled "What is Time ? A New Mathematico-Physical and Information Theoretic Approach" broad outlines of the Nature of Time that could be formulated on the basis of a finite coarse grained and growing universe named CHALACHALA with the most basic entities called EKONS has been sketched. Planck's Quantum of action has been given in the form of angle (ratio). It has been possible to estimate the Gn by postulating that the number of EKONS in the universe is just enough to make the universe flat. The total number of EKONS constituting the universe and the number density have been estimated. The resulting values agree within 17.5% of the measured value. With these the mass of EKON has been estimated and applied to find the number of EKONS constituting an electron and it is surmised that this number should be prime and an estimate of this number has been made both for the electron and the proton. It is shown that the EKON constant gives a definite meaning to the cold matter hypothesis. Link with statistical thermodynamics has been established. A number of relevant references and apt quotes from Eddington, Dirac and Tolmon have been given.
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"abstract": "In the companion submission by the author entitled \"What is Time ? A New\nMathematico-Physical and Information Theoretic Approach\" broad outlines of the\nNature of Time that could be formulated on the basis of a finite coarse grained\nand growing universe named CHALACHALA with the most basic entities called EKONS\nhas been sketched. Planck\u0027s Quantum of action has been given in the form of\nangle (ratio). It has been possible to estimate the Gn by postulating that the\nnumber of EKONS in the universe is just enough to make the universe flat. The\ntotal number of EKONS constituting the universe and the number density have\nbeen estimated. The resulting values agree within 17.5% of the measured value.\nWith these the mass of EKON has been estimated and applied to find the number\nof EKONS constituting an electron and it is surmised that this number should be\nprime and an estimate of this number has been made both for the electron and\nthe proton. It is shown that the EKON constant gives a definite meaning to the\ncold matter hypothesis. Link with statistical thermodynamics has been\nestablished. A number of relevant references and apt quotes from Eddington,\nDirac and Tolmon have been given.",
"arxiv_id": "physics/0106083",
"authors": [
"G. Suryan"
],
"categories": [
"physics.gen-ph"
],
"title": "Estimation of Gravitational Constant `G_N\u0027 from CMBR data and Hubble\u0027s parameter",
"url": "https://arxiv.org/abs/physics/0106083"
},
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