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Resolution Dynamics presents a novel physical framework unifying mass–energy equivalence, gravity, time dilation, and particle structure through a single underlying mechanism: quantum tension within a universal lattice of cosmogenetic fibers (“fiberstratum”). Building from the measured rest-energy of hydrogen, the theory derives the rest-energies of all 118 elements within a ~0.7% margin, reframing E = mc^2 as the energetic cost of sustaining resolved states. From the same foundation, it produces a first-principles derivation of Newton’s gravitational constant G, using independent measurements of gravitational redshift, proton radius, and proton mass, with a deviation of only 0.021% from CODATA.
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Title The Mechanics of Resolution Dynamics
Resolution Dynamics presents a novel physical framework unifying mass–energy equivalence, gravity, time dilation, and particle structure through a single underlying mechanism: quantum tension within a universal lattice of cosmogenetic fibers (“fiberstratum”). Building from the measured rest-energy of hydrogen, the theory derives the rest-energies of all 118 elements within a ~0.7% margin, reframing E = mc^2 as the energetic cost of sustaining resolved states. From the same foundation, it produces a first-principles derivation of Newton’s gravitational constant G, using independent measurements of gravitational redshift, proton radius, and proton mass, with a deviation of only 0.021% from CODATA.
Work type Research papers, Thesis, Lecture notes
Tags science, physics, dirac, consciousness, particles, electrons, gravity, quantum physics, general relativity, cosmogenesis, higgs field, protons, big bang, theory of everything, neutrons, newton, einstein
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Identifier 2510213382704
Entry date Oct 21, 2025, 10:23 AM UTC
License All rights reserved
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Author 100.00 %. Holder Javier Tessari. Date Oct 21, 2025.
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