H2 Universal Gravitational Field Theory
Greg Poole
Industrial Tests, Inc. Rocklin, CA, USA
Copyright © 2019 The Author(s). Published by Scientific & Academic Publishing.
Abstract
Based on new data pertaining to the covalent bond length of H2 a new theory on the origin of Newtons Constant is proposed. This paper intends to answer the question of the mechanism in nature that creates Newton Constant and how information about this number is transmitted throughout the universe. The aim is to redefine Newton Constant from an intrinsic constant to an actual constant based on imperial measurement. Using updated data sets from the Cambridge Crystallographic Data base a comparison is made to dated bond lengths of Hydrogen. The bond length of hydrogen over the decades is then averaged to obtain an average length, which is then compared to the known value of Newtons Constant. The results of this comparison are less than 1% error. It is concluded, that since the universe is made up of 71% hydrogen, that Newtons Constant is in actuality a universal radio transmission based on a reoccurring wavelength created by an unlimited number of H2 bonds. It is also concluded that H2 is just one molecule of a hydrogen Fibonacci sequence that extends to H377, a primary molecular bond needed in elemental protein, a building block of life in the universe.
Keywords: Atomic radius, Bond length, H2, Newton’s Constant, Resonant frequency
Cite this paper: Greg Poole , H2 Universal Gravitational Field Theory, International Journal of Theoretical and Mathematical Physics, Vol. 9 No. 4, 2019, pp. 97-102. doi: 10.5923/j.ijtmp.20190904.01.
Introduction
H2 is found almost everywhere in the universe [1]. The bonds between hydrogen atoms form on the very cold surface of interstellar dust grains [2]. When a broad sample of more recent data from Cambridge is included in the average distance of the H2 covalent bond measurement, it falls within 1% of Newton’s Constant. The source of Newton’s Constant may be hidden in an infinitely large H2 gravitation field.
Gravity was a force between point masses according to Newton. Pierre-Simon Laplace attempted to model gravity as a radiation field or fluid [3]. The college curriculum of the 19th century taught gravity in terms of a field model, rather than a point attraction. In a field model, rather than two particles attracting each other, the particles distort spacetime via their mass, and this distortion is what is perceived and measured as a “force”. In such a model one states that matter moves in certain ways in response to the curvature of spacetime, [4] and that there is either no gravitational force, [5] or that gravity is a fictitious force [6].
I seek to find a gravitation field which will readily explain Newton’s constant, satisfy Newtonian and General Relativity, and fit within the framework of my own Electro Relativity model. By modeling Newton’s constant as a wavelength, a search was made for similar wavelengths in the universe. Newton’s constant is a very short wavelength and few objects of significance are this small. The search has led to the Hydrogen Isotope H2 as most closely resembling the wavelength of Newton’s constant when modeled as a micro antenna with a wavelength of 6.674 x 10-11 meters. An explanation for a universal gravitation field is sought through Hydrogen Isotope H2, the most common molecule in the cosmos.
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