Open AccessOn Hydrogen Entanglements and Gravitation: a Lie Symmetry Approach
Author(s) -
JM Manale
Publication year - 2021
Publication title -
international journal of mathematical models and methods in applied sciences
Language(s) - English
Resource type - Journals
ISSN - 1998-0140
DOI - 10.46300/9101.2021.15.6
Subject(s) - subatomic particle , gravitation , superposition principle , physics , hydrogen atom , symmetry (geometry) , gravitational constant , quantum entanglement , theoretical physics , classical mechanics , newton's law of universal gravitation , quantum mechanics , quantum , mathematical physics , elementary particle , group (periodic table) , mathematics , geometry
We depart from the popular view on how gravitation is generated. Ours is entanglement based. For an atom, hydrogen in this case, all subatomic particles, within and outside the nuclei, participate in this eternal dance. To test the idea, we use it to determine a formula for G, the universal gravitational constant. In the process, we note that the one-dimensional Schrodinger equation is not solved, as claimed. For example, existing solutions are silent on the quantum superposition principle. This we address through our modified symmetry group theoretical methods.