..
原稿を提出する arrow_forward arrow_forward ..

音量 11, 問題 3 (2020)

研究論文

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

Carson Lam Kai Shun*

According to a previous study, mathematical set theory in analogous terms of symbols can be used to relate the body, mind and spiritual world to develop artificial intelligence. This paper tries to study how the natural forces electromagnetic, gravitational, and strong-weak-can be explained by applying quantum mechanics theory. Indeed, body corresponds to strong-weak force, mind refers to the electromagnetic force, and the spirit corresponds to the gravitational force. In this paper, different quantum experiments were performed to verify the above hypotheses. First, the strong-weak forces, was tested by the Baryons mass spectrum or the quantum chromo dynamics (QCD). For the electromagnetic, and the Casimir effects were considered or the (Quantum) electrodynamics (ED/QED). A tabletop experiment was used for the gravitational force or the quantum gravity (QG). That is body, mind and spirit links with QCD, (Q) ED and QG through quantum mechanics (QM). Also these quantum theories (QCD, (Q) ED and QG are self inter-connecting through QM. Finally, the results show that we can also use quantum mechanics to “experimentally rationalize” the Penrose’s philosophy and correlate all presently well-known natural forces. That is the role of “set symbols connections” mentioned in the special rationalization of Penrose’s three world theory can also be tested experimentally w.r.t. the modern particle physics (in the philosophical sense). Thus, quantum mechanics is analogically as the duty of set theory in my rationalization. Furthermore, these QCD, ED and QG can be linked with Roger’s three world philosophy (Plato, physical and mental) by (brain) waves or ontological mathematics. Hence, the QCD, ED and QG give birth to the unified field theory philosophically. In other words, these theories unify all natural forces and relate the elementary particles under a single theoretical framework the Roger’s three world theory through the quantum mechanics and ontological mathematics behind. The outcome is one may investigate more about early universe and black hole.

若手研究フォーラム

Young Researchers Awards: Young Scientist Awards & Best Poster Awards at Physics Conference

Ephraim Suhir

Conferences Series LLC take great pleasure in inviting the scientific community across the globe to the 6th International Conference on Physics during June 15-16, 2020. This meeting will explore advances in the Clinical Research. The conference will serve as a platform to bring together young scientist, leading scientists, researchers, organizations and all representatives of company sectors with different specialities such as Physics. This event is an open forum specifically dedicated for young investigators (i.e. students, PhD candidates and early stage postdocs) working in all fields in the broader area of Physics. This forum will not only discuss state-of-the-art science to broaden the scientific knowledge of the participants but allow the young researchers to benefit as well from several specifically designed interactive sessions to advance their own career/ research. In particular, the forum aims to foster the spirit of teamwork among the participants, providing the opportunity to network globally and to establish own professional networks

過去のカンファレンスレポート

Past Conference for Applied Physics 2020

Ephraim Suhir

Applied physics is that the study of physics for a sensible purpose, as hostile physics motived exclusively for an improved elementary understanding. This includes technological advances like the event of physics, photonics and device physics, or rising sensible investigations, like experimental physics and experimental high-energy physics. Applied physicists may have an interest within the use of physics for research project. as an example, the sector of accelerator physics will contribute to analysis in theoretical physics by operating with engineers enabling style and construction of high-energy colliders.

"Applied" is distinguished from "pure" by a subtle combination of factors, such as the motivation and attitude of researchers and the nature of the relationship to the technology or science that may be affected by the work. Applied physics is rooted in the fundamental truths and basic concepts of the physical sciences but is concerned with the utilization of scientific principles in practical devices and systems, and in the application of physics in other areas of science. 

インデックス付き

arrow_upward arrow_upward