Using Potential Dependent Special Relativity, Gauss’s Law, and Schrodinger Equation to Find Vacuum Quantized Energy and Elementary Particles Mass

Zoalnoon Ahmed Abeid Allah Saad; Mubarak Dirar Abd-Alla Yagoubb; Mohamed Yahia Shirgawi Mohammed; Mashair Ahmed Mohammed Yousef

doi:10.20944/preprints202203.0270.v1

How to cite: Saad, Z.A.A.A.; Yagoubb, M.D.A.; Shirgawi Mohammed, M.Y.; Yousef, M.A.M. Using Potential Dependent Special Relativity, Gauss’s Law, and Schrodinger Equation to Find Vacuum Quantized Energy and Elementary Particles Mass. Preprints 2022, 2022030270. https://doi.org/10.20944/preprints202203.0270.v1 Saad, Z.A.A.A.; Yagoubb, M.D.A.; Shirgawi Mohammed, M.Y.; Yousef, M.A.M. Using Potential Dependent Special Relativity, Gauss’s Law, and Schrodinger Equation to Find Vacuum Quantized Energy and Elementary Particles Mass. Preprints 2022, 2022030270. https://doi.org/10.20944/preprints202203.0270.v1

Abstract

Potential dependent special relativity and Gauss's law for the electric field have been used for gravity by assuming vacuum energy to be generated when the energy is a minimum useful expression for vacuum energy has been found. This expression shows that elementary particles are generated by gravity vacuum filling their hollow balls; using Schrödinger equation for spherically symmetric particles vacuum energy is quantized. Treating mass as vibrating spheres thus solving Schrödinger, coordinate harmonic oscillator energy relation has been found.

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Using Potential Dependent Special Relativity, Gauss’s Law, and Schrodinger Equation to Find Vacuum Quantized Energy and Elementary Particles Mass

Abstract

Keywords

Subject

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