The Famous Equation of E=mC? and the Spin, Quantum Momentum, are Deduced from the Dynamics of a Fluctuation between 3D and the 4th Dimension

Jose Oreste Mazzini

Abstract: Einstein's pursuit for completeness can be achieved with a novel interpretation of Quantum Mechanics. The theory of space [1] presented in 2021 accomplishes the actual math with less philosophical contradictions. The famous equation of E = mC? and angular momentum S is deduced from the dynamics of a fluctuation between 3D and the 4th dimension. Some historical evolution of quantum mechanics is given combined with an analysis of how this novel theory interprets nature at the quantum level. Issues such as wave-particle duality, collapse, energy in Qantas, tunnel effect, causality at a distance of entangled particles, superposition of exclusive solutions, entropy, the arrow of time, etc. are seen in this paper. Its proposal for a conclusive experiment is also analyzed [2] hoping that in 2025, the one-hundredth anniversary of the formalism of quantum mechanics, will achieve a satisfactory interpretation.

Keywords: theory of space, superposition, collapse, realism, locality, causality, entropy, arrow of time, quantum mechanics interpretation, Einstein, Schr?dinger?s cat, Bell?s inequality, spin

How to Cite?: Jose Oreste Mazzini, "The Famous Equation of E=mC? and the Spin, Quantum Momentum, are Deduced from the Dynamics of a Fluctuation between 3D and the 4th Dimension", Volume 13 Issue 2, February 2024, International Journal of Science and Research (IJSR), Pages: 1074-1079, https://www.ijsr.net/getabstract.php?paperid=SR24212193340, DOI: https://dx.doi.org/10.21275/SR24212193340