Olmez, Tahir (2023) A Breakthrough to the Meaning of the Fine Structure Numbers with Nucleotide Bases as Regards to Quantum Perspective Model? OALib, 10 (12). pp. 1-23. ISSN 2333-9721
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Abstract
As pertaining to Quantum Perspective Model, this paper attempts to express the number of Fine Structure Constant numbers with chemical nucleotide bases (A T, G, C and U) especially between the atomic weight of electron and Planck’s numbers and the velocity of light numbers of the electromagnetic field, by the Formula (4πε0hcα = e2). Its numerical value is approximately 0.0072973525693 ≅ 1/137.035999084, the recommended value of α is; α = e2/4πε0hc. At first, the equation of Quantum Field Theory’s law is converted to genetic codes. (Because, frequency of first significant digit of physical constants plotted against Benford’s law is very nearly closed). Secondly, the variables of fine structure constant are squared twice (The fourth power is taken). Thirdly, this formula’s numbers are converted to binary number base system (2). Fourthly, the outcomes of these numbers are converted to binary base system to decimal number base system (10). (Just like as seen in DNA 5’ to 3’ translation REVERSE direction and RNA 3’ to 5’ forward direction). Fifthly, the outcomes of these numbers are summed one by one. Sixthly, the consequence of this addition processes corresponds to nucleotide bases [Adenine (A), Thymine (T), Guanine (G), Cytosine (C) and Uracil (U)]. Seventhly, as pertaining to fine structure constant; the square number of fine structure constant equals to “CTUU” and the square number of electric constant equals to “GTU”. Ninthly, furthermore, the conclusion of this genetic sequence “UTAUTAUGTUAACCATAUUTU” also is corrected by NCBI Blast Results. So, this “affirmation of this variable” can be regarded as both numeric values of this formulas and the expression of this variables, too. As a result, this article revealed the expression of the atomic weight of electron can be related to “Uracil(U)” nucleotide base, according to exact value number of electron. Interestingly, the quarter of “Uracil(U)” has the same total atomic weight of numeric value as the [“Cysteine” (UGU/UGC)] amino acid chemical formula “64” (C3H7NO2S) which is very significant for hair strength. Even, the common explanation of Pi numbers and the expression of electron as genetic codes are the same NCBI Blast result as in “Danio rerio”, “BOMBYX MANDARINA” and “human genom of ARGININE”. Eleventhly, the other NCBI results are the ARGININE amino acid for human being genetic sequence and Drosophila immigrants which can be very well excellent sample to understand the how viruses evolves with hosts. Lastly, the fine structure constant number can also be expressed as “Reduced Planck constant” in shortly. (h ≈ α) with the “one (1) hydrogen lack of atom” less than the numerical value in denominator. = [1/2*(UTA)] or [1/(α - “1 = Hydrogen”)] (Let alone, The Fine structure constant numeric value is approximately the ratio of one (1) and 137 (one hundred thirty seven) that is nearly to the ratio of “(1/137)”. Moreover, not only the number of Fine Structure Constant Number consists of the number of “137” but also the chemical molecular formula of “Chlorophyll” [(C55H72MgN4O5); and its total elements are even “137” (55 + 72 + 1 + 4 + 5:137)]. That is to say, the total number of “Chlorophyll” is “137” too. Lastly, after searching this sequence “UTAUTAUGTUAACCATAUUTU” in the NCBI (The National Center for Biotechnology Information) database, there is a genetic link between Fibonacci sequences in Mathematics, Euler numbers and fine structure numbers. As a result, the expression of fine structure number of “137” with genetic codes as “Uracil (U)” and the square number of electric constant equals to “GTU”, As a result, the “Reduced Planck constant” conclusion of this genetic sequence reaches a striking meaningful result that will shed light on the Quantum Perspective Model, which may be a novel method and parameter and paradigm for many Sciences.
Item Type: | Article |
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Subjects: | European Scholar > Multidisciplinary |
Depositing User: | Managing Editor |
Date Deposited: | 06 Jan 2024 11:31 |
Last Modified: | 06 Jan 2024 11:31 |
URI: | http://article.publish4promo.com/id/eprint/3195 |