Dynamic Gravity | Muon & Tau Structure and Explaining Neutrino Oscillation
DOI:
https://doi.org/10.47672/ejps.2876Keywords:
Gravity Experimental Test Of Gravitational Theories 04.80.Cc, Electromagnetic Radiation Interaction With Plasma 52.40.Db, Neutrino Interactions With 13.15.+G, Neutrinos 14.60.Lm, 14.60.St, Neutrino Oscillations 14.60.Pq, Neutrinos 14.60.St, Neutrino-Nucleus 25.30.Pt, Muons 13.35.Bv, Muons 14.60.Ef, Muon Decays 13.35.Bv, Muon Properties Of 14.60.Ef, Taus 14.60.Fg, Tau Decays Of 13.35.Dx, Tau Properties Of 14.60.FgAbstract
This paper explains the makeup of muon and tau electrons and neutrinos, and purposes the exact reason explaining why neutrino oscillation can occur according to the principles of Dynamic Gravity theory. The only theory of gravity that can and does perfectly calculate all gravity, dark matter, and dark energy perfectly according to all observations ever made using the same equation. The method utilized in determining muon and tau structure is purely from finding all possible structures that do not violate the observed charge of said particles and all alleged subsidiary components. According to Dynamic Gravity neutrinos are the highest form of energy for a poton, as an electron is the highest energy form of a photon. Both muon and tau particles both electron and neutrino variants are essentially just a combination of a quark/anti-quark pair, neutrino, anti-neutrino, and an electron or positron. This paper confidently and intrinsically explains exactly what the exact make up of both muon and tau electrons and neutrinos, and break down all major decay pathways for all lepton particles. And it then goes further to explain the phenomena of neutrino oscillations as the muon and tau neutrino particles interact with the Earth’s gravitational field as they travel. Implications of this paper are in being able to change neutrino interaction rates with target matter.
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[1] Kinney, Sean. (2023) Calculating All Dark Energy and Dark Matter Effects through Dynamic Gravity Theory. European Journal of physical Sciences, Vol. 6, Issue 2, pp 1-10. https://doi.org/10.47672/ejps.1503
[2] Kinney, Sean. (2024) Explaining Neutrinos and Potons. European Journal of Physical Sciences, Vol. 7, Issue 2, pp 1-6. https://doi.org/10.47672/ejps.2219
[3] Kinney, Sean. (2024) Dynamic Gravity: Explaining Electrons, Quarks, Anti-Matter and the Double Slit Experiment. European Journal of Physical Sciences, Vol. 8, Issue 1, pp 1-9. https://doi.org/10.47672/ejps.2600
[4] (2026, February 3). Standard Model. Wikipedia. Retrieved February 6, 2026, from https://en.wikipedia.org/wiki/Standard_Model
[5] KinFowler, M. (n.d.). 71. Motion of a Spin One-Half in a Slowly-Varying Magnetic Field: The Key to Measuring the Muon Moment (g – 2). Galileoandeinstein. Retrieved February 6, 2026, from
https://galileoandeinstein.phys.virginia.edu/Elec_Mag/2022_Lectures/EM_71_g-2.html
[6] Lee, H. G. (2024, March 20). Organic liquid scintillation detectors for reactor Neutrino experiments: Toward precision Neutrino physics. ScienceDirect. Retrieved February 6, 2026, from
https://www.sciencedirect.com/science/article/pii/S1567173923002444
[7] (2025, September 12). Muon Neutrino Interactions on Water. Emergent Mind. Retrieved February 6, 2026, from https://www.emergentmind.com/topics/muon-neutrino-interactions-on-water
[8] PBS Space Time (2026, January 23). This Particle Solved Everything. We Just Found Out It Isn't Real. Youtube. Retrieved February 6, 2026, from https://www.youtube.com/watch?v=4zgZ1hh3XtI
[9] Minutephysics (2013, February 26). Is is Better to Walk or Run in the Rain? Youtube. Retrieved February 26, 2026, from https://www.youtube.com/watch?v=3MqYE2UuN24
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Copyright (c) 2026 Section Editor Editor1; Sean Kinney
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