Quantum Certainty Mechanics

Authors

  • Muhammad Yasin Savar,Dhaka,1341,Bangladesh

Keywords:

quantum mechanics, uncertainty principle, quantum entanglement, Planck’s radiation law, bohr's atomic model, photoelectric effect, certainty mechanics, quantum measurement, Photoelectric effect formula

Abstract

Quantum certainty mechanics is a theory for measuring the position and momentum of a particle. Mathematically proven certainty principle from uncertainty principle, which is basically one of the most important formulas of quantum certainty mechanics  theory. The principle of uncertainty can be proved by the principle of certainty and why uncertainty comes can also be proved. The principle of certainty can be proved from the theory of relativity and in the uncertainty principle equation, the principle of certainty can be proved by fulfilling the conditions of the principle of uncertainty by multiplying the uncertain constant with the certain values of momentum-position and energy-time. The principle of certainty  proves  that  the calculation of ? ??/2 between the particle and the wave involved in the particle leads to uncertainty. But calculating with ?=0 does not bring uncertainty. Again, if the total energy E of the particle is measured accurately in the laboratory, the momentum and position can be measured with certainty. Quantum certainty mechanics has been established by combining Newtonian Mechanics, Relativity Theory and Quantum Mechanics. Quantum entanglement can be explained by protecting the  conservation law of energy. 

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Published

2021-05-09

How to Cite

Yasin, M. . (2021). Quantum Certainty Mechanics. International Journal of Sciences: Basic and Applied Research (IJSBAR), 58(1), 82–110. Retrieved from https://gssrr.org/index.php/JournalOfBasicAndApplied/article/view/12219

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