employee
Tomsk, Tomsk, Russian Federation
UDC 54.01
CSCSTI 31.01
Russian Classification of Professions by Education 04.06.01
Russian Library and Bibliographic Classification 241
Russian Trade and Bibliographic Classification 6211
For more than 150 years since the discovery of the periodic law of distribution of atoms in the table of D.I. Mendeleev, scientists around the world have been and are interested in the question of the existence of an upper limit and the maximum value of the atomic number of an element in it. In this paper, we propose a relationship between known world constants and the parameters of the periodic table and identify patterns that can be used to predict the maximum possible numbers of periods and dyads in the periodic table of D.I. Mendeleev, and determine the maximum possible atomic number of an element. In this case, in our opinion, a special role belongs to the dimensionless mass characteristics of the hydrogen atom’s own structure. These values, along with the fine structure constant, contain an encrypted code to unravel the patterns contained in D.I. Mendeleev’s table. It is known that any interactions in the Universe are associated with the fine structure constant, and it can serve as a kind of criterion for the validity of the hypotheses put forward.
world constants, fine structure constant, atomic mass of hydrogen, proton to electron mass ratio, dyads, periods, number of elements, upper limit, the structure of the periodic table, the relationship between world constants and the parameters of the periodic table
1. Vyatkin V.B. Strukturnaya organizaciya elektronnyh sistem atomov himicheskih elementov v svete sinergeticheskoy teorii informacii (Elektronnyy resurs) // Ergo. Problemy metodologii mezhdisciplinarnyh issledovaniy i kompleksnogo obespecheniya nauchno-issledovatel'skoy deyatel'nosti. Vyp. 4. – Ekaterin-burg: URO RAN, 2005. [Elektronnyy resurs]. – URL: https://vbvvbv.narod.ru/Mendeleev170/index.htm (data obrascheniya: 13.07.2025).
2. Cherkinskiy Yu.S. Element №... posledniy // Himiya i zhizn'. – 1973. – № 9. – S. 2–6.
3. Gradoboev A.V., Matveev V.S. Zakonomernosti stroeniya ele-mentov i konechnost' Periodicheskoy sistemy D.I. Mendeleeva. – Tomsk: Izd-vo Tom. politehn. un-ta, 2008. – 183 s.
4. Baziev D.H. Zavershennaya sistema periodicheskoy sistemy elementov // Sovremennaya nauka: aktual'nye problemy teorii i praktiki. Ser. Estestvennye i tehnicheskie nauki. – 2011. – № 1. – S. 54–64. EDN: https://elibrary.ru/OOGMTJ
5. Sarkisov Yu.S. K opredeleniyu predel'nogo chisla himicheskih elementov // Vestnik Tomskogo gosudarstvennogo universiteta. Himiya. – 2017. –№ 9. – S. 83–89. DOI: https://doi.org/10.17223/24135542/9/9; EDN: https://elibrary.ru/ZWZODP
6. Ivanova V.S. Vvedenie v mezhdisciplinarnoe nanomaterialovedenie. – M.: SLINS-PRESS, 2005 – 208 s. EDN: https://elibrary.ru/QMENPT
7. Chernyshev S.L. Figurnye chisla: Modelirovanie i klassifikaciya slozhnyh ob'ektov. – M.: KRASAND, 2020. – 400 s.
8. Sarkisov Yu.S. Gipoteticheskaya struktura buduschey tablicy D.I. Mendeleeva // Tehnika i tehnologiya silikatov. – 2019. – T. 26, № 1. – S. 2–5. EDN: https://elibrary.ru/XZTKSZ
9. Sarkisov Yu.S. Obschie novye zakonomernosti raspredeleniya himicheskih elementov (enoidov) sZ >118 // Tehnika i tehnologiya silikatov. – 2019. – T. 26, № 4. – S. 124–125. EDN: https://elibrary.ru/ENOAFW
10. Sarkisov Yu.S. O nekotoryh osobennostyah zapolneniya elek-tronnyh obolochek atomov ot vodoroda do sverhtyazhelyh elementov // Tehnika i tehnologiya silikatov. – 2021. – T. 28, № 4. – S. 140–144. EDN: https://elibrary.ru/GZCNFC
11. Potapov A.A. Radius atoma vodoroda: fundamental'naya kon-stanta // Nauka, tehnika i obrazovanie. – 2015. – № 10 (16). – S. 7–16. EDN: https://elibrary.ru/VCUFFV
12. Mahov B.F. Simmetrichnaya kvantovaya periodicheskaya sistema elementov (neytral'nyh atomov) // Fundamental'nye issledovaniya. – 2008. – № 3. – S. 30–36.
13. Fundamental'nye fizicheskie postoyannye (1998) / per. A.A. Radciga // Uspehi fizicheskih nauk. – 2003. – T. 173, № 3. – S. 339–343. DOI: https://doi.org/10.3367/UFNr.0173.200303k.0339
