Novel quantitative push gravity theory poised for verification

The working of this version (v3) is typed in magenta font to facilitate reading by those who have already read the first versions: New work provides compelling evidence for a genuine re-appraisal of an old way to explain gravity, which has been sidelined in the periphery of science for a long time....

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Main Author: Danilatos, Gerasimos
Format: Report
Language:unknown
Published: Zenodo 2020
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.3629866
https://zenodo.org/record/3629866
id ftdatacite:10.5281/zenodo.3629866
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institution Open Polar
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op_collection_id ftdatacite
language unknown
topic push gravity
quantum gravity
gravitational law
gravitational constant
Allais effect
equivalence principle
white dwarf
neutron star
black hole
relativity
graviton
fluctuation theorem
theory of everything
Maxwell's demon
quantum field theory
gravitational anomalies
flyby anomaly
Pioneer anomaly
Oumuamua
inertial mass
gravitational mass
gravitoid
contraction factor
Newtonian mechanics
classical physics
gravity assist
solar system
Jupiter density
spellingShingle push gravity
quantum gravity
gravitational law
gravitational constant
Allais effect
equivalence principle
white dwarf
neutron star
black hole
relativity
graviton
fluctuation theorem
theory of everything
Maxwell's demon
quantum field theory
gravitational anomalies
flyby anomaly
Pioneer anomaly
Oumuamua
inertial mass
gravitational mass
gravitoid
contraction factor
Newtonian mechanics
classical physics
gravity assist
solar system
Jupiter density
Danilatos, Gerasimos
Novel quantitative push gravity theory poised for verification
topic_facet push gravity
quantum gravity
gravitational law
gravitational constant
Allais effect
equivalence principle
white dwarf
neutron star
black hole
relativity
graviton
fluctuation theorem
theory of everything
Maxwell's demon
quantum field theory
gravitational anomalies
flyby anomaly
Pioneer anomaly
Oumuamua
inertial mass
gravitational mass
gravitoid
contraction factor
Newtonian mechanics
classical physics
gravity assist
solar system
Jupiter density
description The working of this version (v3) is typed in magenta font to facilitate reading by those who have already read the first versions: New work provides compelling evidence for a genuine re-appraisal of an old way to explain gravity, which has been sidelined in the periphery of science for a long time. A novel quantitative push gravity theory has been advanced on the basis of a set of primary principles (postulates), from which the derivation of classical acceleration and force by stationary massive bodies in the steady state is possible. In contrast to prior conceptions, it is shown that the absorption of gravity particles by matter need not be extremely weak and linear, in order to derive and explain the observed classical laws of gravity. Any value of the absorption coefficient by a uniform spherical mass produces a gravitational field obeying the inverse square of distance law. The gravitational constant (big G), is itself a function of the ratio of the absorption coefficient over the density of matter. The latter ratio (mass attenuation coefficient) now becomes the new universal gravitational constant of the cosmos, whilst G can vary in different locations of the universe. The measured mass of planets and stars is only an effective or apparent mass actually smaller than the real mass due to a self-shadowing or shielding effect of the absorption of gravitational particles. Any given mass appears quantitatively different depending on its spatial distribution. We now find that Newton's gravitational law uses only the apparent (or effective) masses with a potentially variable G, but the inverse square distance relationship is locally preserved in the cosmos. The radiant flux of energetic particles being uniform over a region of space creates a maximum acceleration of gravity for all material bodies in that region, so that any further mass accretion over a certain upper limit does not create additional acceleration; this limit is reached when practically all gravitational particles are absorbed (saturation state) by the massive body above a saturation mass. The latter limit should be measurable, for which some tentative situations and experiments are proposed for prospective experiments and tests. The internal field of a spherical mass and the external field of a two layered sphere have been derived. The superposition principle of gravity fields has been reformulated and the Allais effect explained and measured. The equivalence principle can now be properly understood and explained in a way that the principle per se becomes redundant. For moving bodies, the established relationships from special and general relativity may continue to operate within the gravitational fields created by push particles, but may need to be adapted and re-aligned within the greater framework of push gravity principles operating at any distance. These advances constitute the main (or first) part of this report purported to become a valid mathematical formulation for a basic physical interpretation or embodiment of gravity poised for verification. In the second part of the report, an attempt is made to overcome the main remaining objection of presumed catastrophic thermal accretion of absorbed particles. A further attempt is made also for the push-gravity principles to explain the vastly higher intensity gravitational fields of white dwarfs, neutron stars and black holes. It is proposed that the field of white dwarf stars is created also by push particles but of a different kind, namely, by those responsible for mediating the electric field. In the same way, the field of neutron stars is created by yet a third kind of push particles, namely, those responsible for mediating the nuclear field. The effective mass attenuation coefficient is variable around those massive bodies. In general, push particles may exist with different energy (or mass) having different mean free paths as they traverse different concentrations of masses like black holes, neutron stars, dwarfs, stars, planets, ordinary masses, atoms, nuclei, protons and all the known or unknown sub-nuclear particles. The invariable principle of momentum transfer (push) by particles directly relating to their absorption rate by the various concentrations (density) of masses could be the basis and the starting principle for a prospective unification theory of everything. The veracity or not of these attempts in the second part of the report may not negate the general theory of the first part, but they follow as speculative but logical proposals, or conclusions of the observed phenomena seen from the perspective of push gravity. : Please email comments to the author : {"references": ["Chappel, J.M., Iqbal, A. & Abbott, D. (2012) The gravitational feld of a cube. arXiv:1206.3857v1 [physics.class-ph]", "de Duillier, Nicolas Fatio (1929) De la cause de la pesanteur. Drei Untersuchungen zur Geschichte der Mathematik, in: Schriften der Strassburger Wissenschaftlichen Gesellschaft in Heidelberg, 10:(19-66). URL https://fr.wikisource.org/wiki/De_la_cause_de_la_pesanteur#", "Dibrov, A. (2011) Unified model of shadow-gravity and the exploding electron. Apeiron 18, 43-83", "Gagnebin, B (1949) De la cause de la pesanteur. memoire de nicolas fatio de duillier presente a la royal society le 26 fevrier 1690. The Royal Society 6(2), 125-160. doi:https://doi.org/10.1098/rsnr.1949.0017", "Lorenzen, B. (2017) The cause of the allais effect solved. International Journal of Astronomy and Astrophysics 7, 69-90", "Poincare, H. (1908) La dinamique de l' electron. Revue Gen. Sci. Pures Appl. 19, 386-402", "Thomas, C.L. (2014) Graviton theory of everything. http://astronomy-links.net/GToE.html", "Zumberge, Mark A., Ander, Mark E., Lautzenhiser, Ted V., Parker, Robert L., Aiken, Carlos L. V., Gorman, Michael R., Nieto, Michael Martin, Cooper, A. Paul R., Ferguson, John F., Fisher, Elizabeth, Greer, James, Hammer, Phil, Hansen, B. Lyle, McMechan, George A., Sasagawa, Glenn S., Sidles, Cyndi, Stevenson, J. Mark & Wirtz, Jim (1990) The greenland gravitational constant experiment. Journal of Geophysical Research 95(B10), 15483. doi:10.1029/jb095ib10p15483", "Bialy, S. & Loeb, A. (2018) Could solar radiation pressure explain Oumuamua's peculiar acceleration? The Astrophysical Journal Letters 868:L1, 1-5. doi:https://doi.org/10.3847/2041-8213/aaeda8.", "Kajari, E., Harshman, N.L., Rasel, E.M., Stenholm, S., Sussmann, G. & Schleich, W.P. (2010) Inertial and gravitational mass in quantum mechanics. arXiv doi:10.1007/s00340-010-4085-8. URL https://arxiv. org/abs/1006.1988."]}
format Report
author Danilatos, Gerasimos
author_facet Danilatos, Gerasimos
author_sort Danilatos, Gerasimos
title Novel quantitative push gravity theory poised for verification
title_short Novel quantitative push gravity theory poised for verification
title_full Novel quantitative push gravity theory poised for verification
title_fullStr Novel quantitative push gravity theory poised for verification
title_full_unstemmed Novel quantitative push gravity theory poised for verification
title_sort novel quantitative push gravity theory poised for verification
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.3629866
https://zenodo.org/record/3629866
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spelling ftdatacite:10.5281/zenodo.3629866 2023-05-15T16:30:50+02:00 Novel quantitative push gravity theory poised for verification Danilatos, Gerasimos 2020 https://dx.doi.org/10.5281/zenodo.3629866 https://zenodo.org/record/3629866 unknown Zenodo https://dx.doi.org/10.5281/zenodo.3596184 Open Access Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 info:eu-repo/semantics/openAccess CC-BY push gravity quantum gravity gravitational law gravitational constant Allais effect equivalence principle white dwarf neutron star black hole relativity graviton fluctuation theorem theory of everything Maxwell's demon quantum field theory gravitational anomalies flyby anomaly Pioneer anomaly Oumuamua inertial mass gravitational mass gravitoid contraction factor Newtonian mechanics classical physics gravity assist solar system Jupiter density Text Working paper article-journal ScholarlyArticle 2020 ftdatacite https://doi.org/10.5281/zenodo.3629866 https://doi.org/10.5281/zenodo.3596184 2021-11-05T12:55:41Z The working of this version (v3) is typed in magenta font to facilitate reading by those who have already read the first versions: New work provides compelling evidence for a genuine re-appraisal of an old way to explain gravity, which has been sidelined in the periphery of science for a long time. A novel quantitative push gravity theory has been advanced on the basis of a set of primary principles (postulates), from which the derivation of classical acceleration and force by stationary massive bodies in the steady state is possible. In contrast to prior conceptions, it is shown that the absorption of gravity particles by matter need not be extremely weak and linear, in order to derive and explain the observed classical laws of gravity. Any value of the absorption coefficient by a uniform spherical mass produces a gravitational field obeying the inverse square of distance law. The gravitational constant (big G), is itself a function of the ratio of the absorption coefficient over the density of matter. The latter ratio (mass attenuation coefficient) now becomes the new universal gravitational constant of the cosmos, whilst G can vary in different locations of the universe. The measured mass of planets and stars is only an effective or apparent mass actually smaller than the real mass due to a self-shadowing or shielding effect of the absorption of gravitational particles. Any given mass appears quantitatively different depending on its spatial distribution. We now find that Newton's gravitational law uses only the apparent (or effective) masses with a potentially variable G, but the inverse square distance relationship is locally preserved in the cosmos. The radiant flux of energetic particles being uniform over a region of space creates a maximum acceleration of gravity for all material bodies in that region, so that any further mass accretion over a certain upper limit does not create additional acceleration; this limit is reached when practically all gravitational particles are absorbed (saturation state) by the massive body above a saturation mass. The latter limit should be measurable, for which some tentative situations and experiments are proposed for prospective experiments and tests. The internal field of a spherical mass and the external field of a two layered sphere have been derived. The superposition principle of gravity fields has been reformulated and the Allais effect explained and measured. The equivalence principle can now be properly understood and explained in a way that the principle per se becomes redundant. For moving bodies, the established relationships from special and general relativity may continue to operate within the gravitational fields created by push particles, but may need to be adapted and re-aligned within the greater framework of push gravity principles operating at any distance. These advances constitute the main (or first) part of this report purported to become a valid mathematical formulation for a basic physical interpretation or embodiment of gravity poised for verification. In the second part of the report, an attempt is made to overcome the main remaining objection of presumed catastrophic thermal accretion of absorbed particles. A further attempt is made also for the push-gravity principles to explain the vastly higher intensity gravitational fields of white dwarfs, neutron stars and black holes. It is proposed that the field of white dwarf stars is created also by push particles but of a different kind, namely, by those responsible for mediating the electric field. In the same way, the field of neutron stars is created by yet a third kind of push particles, namely, those responsible for mediating the nuclear field. The effective mass attenuation coefficient is variable around those massive bodies. In general, push particles may exist with different energy (or mass) having different mean free paths as they traverse different concentrations of masses like black holes, neutron stars, dwarfs, stars, planets, ordinary masses, atoms, nuclei, protons and all the known or unknown sub-nuclear particles. The invariable principle of momentum transfer (push) by particles directly relating to their absorption rate by the various concentrations (density) of masses could be the basis and the starting principle for a prospective unification theory of everything. The veracity or not of these attempts in the second part of the report may not negate the general theory of the first part, but they follow as speculative but logical proposals, or conclusions of the observed phenomena seen from the perspective of push gravity. : Please email comments to the author : {"references": ["Chappel, J.M., Iqbal, A. & Abbott, D. (2012) The gravitational feld of a cube. arXiv:1206.3857v1 [physics.class-ph]", "de Duillier, Nicolas Fatio (1929) De la cause de la pesanteur. Drei Untersuchungen zur Geschichte der Mathematik, in: Schriften der Strassburger Wissenschaftlichen Gesellschaft in Heidelberg, 10:(19-66). URL https://fr.wikisource.org/wiki/De_la_cause_de_la_pesanteur#", "Dibrov, A. (2011) Unified model of shadow-gravity and the exploding electron. Apeiron 18, 43-83", "Gagnebin, B (1949) De la cause de la pesanteur. memoire de nicolas fatio de duillier presente a la royal society le 26 fevrier 1690. The Royal Society 6(2), 125-160. doi:https://doi.org/10.1098/rsnr.1949.0017", "Lorenzen, B. (2017) The cause of the allais effect solved. International Journal of Astronomy and Astrophysics 7, 69-90", "Poincare, H. (1908) La dinamique de l' electron. Revue Gen. Sci. Pures Appl. 19, 386-402", "Thomas, C.L. (2014) Graviton theory of everything. http://astronomy-links.net/GToE.html", "Zumberge, Mark A., Ander, Mark E., Lautzenhiser, Ted V., Parker, Robert L., Aiken, Carlos L. V., Gorman, Michael R., Nieto, Michael Martin, Cooper, A. Paul R., Ferguson, John F., Fisher, Elizabeth, Greer, James, Hammer, Phil, Hansen, B. Lyle, McMechan, George A., Sasagawa, Glenn S., Sidles, Cyndi, Stevenson, J. Mark & Wirtz, Jim (1990) The greenland gravitational constant experiment. Journal of Geophysical Research 95(B10), 15483. doi:10.1029/jb095ib10p15483", "Bialy, S. & Loeb, A. (2018) Could solar radiation pressure explain Oumuamua's peculiar acceleration? The Astrophysical Journal Letters 868:L1, 1-5. doi:https://doi.org/10.3847/2041-8213/aaeda8.", "Kajari, E., Harshman, N.L., Rasel, E.M., Stenholm, S., Sussmann, G. & Schleich, W.P. (2010) Inertial and gravitational mass in quantum mechanics. arXiv doi:10.1007/s00340-010-4085-8. URL https://arxiv. org/abs/1006.1988."]} Report Greenland DataCite Metadata Store (German National Library of Science and Technology) Abbott ENVELOPE(-62.133,-62.133,-64.100,-64.100) Ferguson ENVELOPE(-168.583,-168.583,-84.933,-84.933) Gorman ENVELOPE(64.580,64.580,-70.491,-70.491) Greenland Greer ENVELOPE(-80.966,-80.966,51.333,51.333) Jupiter ENVELOPE(101.133,101.133,-66.117,-66.117) Zumberge ENVELOPE(-69.707,-69.707,-76.233,-76.233)