dorsal/arxiv
View SchemaLaboratory Physics and Cosmology
| Authors | Antonio Alfonso-Faus |
|---|---|
| Categories | |
| ArXiv ID | physics/0407150 |
| URL | https://arxiv.org/abs/physics/0407150 |
| DOI | 10.4006/1.3025652 |
Abstract
We find five fundamental reasons demanding that any gravitational mass m, and the speed of light c, vary with cosmological time such that mc remains constant. This is required by the universal condition of conservation of momentum in a Universe with spatial homogeneity. We prove that this is consistent with Einstein's Theory of General Relativity. We call this effect a "MASS BOOM". At the LAB system no such time variations can be detected, unless we make comparisons with cosmological observations. We have to stress that the physical conditions implied by a time varying mass, together with a time varying speed of light, preserving the constancy of momentum, are compatible with Einstein's field equations. We then integrate his cosmological equations and find the solution for the cosmological scale factor a(t) proportional to the square of time, implying an apparent accelerated expansion for the Universe, as seen from the LAB frame. This is the interpretation given to recent observations obtained from the Supernova Type Ia. This determination of the scale factor a(t) is based upon a LAB interpretation and therefore is an apparent effect. On the other hand we note that the product ct being a constant determines the real Universe as a static one, of constant size. The observed red shift at the LAB system is due to a real shrinkage of the quantum world, due to the decrease in size of the quantum particles determined by a decreasing Planck's "constant".
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"abstract": "We find five fundamental reasons demanding that any gravitational mass m, and\nthe speed of light c, vary with cosmological time such that mc remains\nconstant. This is required by the universal condition of conservation of\nmomentum in a Universe with spatial homogeneity. We prove that this is\nconsistent with Einstein\u0027s Theory of General Relativity. We call this effect a\n\"MASS BOOM\". At the LAB system no such time variations can be detected, unless\nwe make comparisons with cosmological observations. We have to stress that the\nphysical conditions implied by a time varying mass, together with a time\nvarying speed of light, preserving the constancy of momentum, are compatible\nwith Einstein\u0027s field equations. We then integrate his cosmological equations\nand find the solution for the cosmological scale factor a(t) proportional to\nthe square of time, implying an apparent accelerated expansion for the\nUniverse, as seen from the LAB frame. This is the interpretation given to\nrecent observations obtained from the Supernova Type Ia. This determination of\nthe scale factor a(t) is based upon a LAB interpretation and therefore is an\napparent effect. On the other hand we note that the product ct being a constant\ndetermines the real Universe as a static one, of constant size. The observed\nred shift at the LAB system is due to a real shrinkage of the quantum world,\ndue to the decrease in size of the quantum particles determined by a decreasing\nPlanck\u0027s \"constant\".",
"arxiv_id": "physics/0407150",
"authors": [
"Antonio Alfonso-Faus"
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"doi": "10.4006/1.3025652",
"title": "Laboratory Physics and Cosmology",
"url": "https://arxiv.org/abs/physics/0407150"
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