Can Quantum Mechanics Correlate All Natural Forces — An Experimental and Observational Approach

31 Pages Posted: 21 Jul 2019 Last revised: 30 Sep 2020

Date Written: July 21, 2019

Abstract

According to a previous study, mathematical set theory in analogous terms of symbols can be used to relate the material, body, and spiritual world to develop artificial intelligence. This paper tries to study how the natural forces — electromagnetic, gravitational, and strong–weak — can be unified by applying quantum mechanics theory. Indeed, Strong–weak forces correspond to materials (the basis of element formation), electromagnetic force refers to the body (human cells generate electricity for mankind activities), and the gravitational force corresponds to the spiritual one (referring to the nature and universe). In this paper, different quantum experiments were performed to verify the above hypotheses. For the electromagnetic, and the Casimir effects were considered. A tabletop experiment was used for the gravitational force. Finally, for the strong–weak forces, then the Baryons mass spectrum was considered. The results show that the “set symbols connection” mentioned in the special rationalisation of Penrose’s philosophy is not only a theory but can also be tested experimentally w.r.t. quantum mechanics. Thus, the implementation of real machine reasonings becomes feasible. In other words, the quantum theories — quantum chromodynamics and electrodynamics together with the quantum gravity can be sublimed into another form of Roger’s three world philosophy. Hence, the QCD, ED and QG give birth to the unified field theory. This is because these theories unify all natural forces and relate the elementary particles in a single theoretical framework — the Roger’s theory through the quantum mechanics behind. The outcome is one may investigate more about early universe and black hole.

Suggested Citation

Lam, Kai Shun, Can Quantum Mechanics Correlate All Natural Forces — An Experimental and Observational Approach (July 21, 2019). Available at SSRN: https://ssrn.com/abstract=3423541 or http://dx.doi.org/10.2139/ssrn.3423541

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