Место издания:Санкт-Петербург, Россия Saint Petersburg,
Первая страница:67
Последняя страница:67
Аннотация:THREE-DIMENSIONAL (3-D) VERSION OF THE PERIODIC SYSTEM OF CHEMICAL ELEMENTS: THE FLOWER OF MENDELEEV
Ryazantsev G.B., Khaskov M.A., Lavrenchenko G.K., Beckman I.N.
Международная Конференция : MENDELEEV 150: 4TH INTERNATIONAL CONFERENCE ON THE PERIODIC TABLE ENDORSED BY IUPAC July 26-28, 2019 Saint Petersburg, Russia
Даты проведения конференции: 27-29 июля 2019
Тезисы.стр.67
Место проведения: Санкт-Петербург, Россия
Three-dimensional (3-D) version of the Periodic system of chemical elements:
the Flower of Mendeleev
Ryazantsev G.B., Khaskov M.A., Lavrenchenko G.K., Beckman I.N.
Lomonosov Moscow State University, Moscow, Russia
All-Russian Institute of Aviation Materials, Moscow, Russia
Institute of Low-Temperature Energy Technologies, Odessa, Ukraine
anis-mgu@rambler.ru
A three-dimensional version of the Periodic System (PS) of chemical elements is proposed. It is based on the early works of Russian and French scientists: Mendeleev and de Chancourtois , while preserving the idea of consistency and continuity of a number of chemical elements. The resulting system resembles a “flower” with petals, which are elements with a certain orbital quantum number. The historical sequence of development of the idea of the spatial representation of PS chemical elements and the contribution of various authors are considered. D.I. Mendeleev is the true discoverer of the Periodic Law (PL) precisely because he first saw in him the Fundamental law of nature, and not just the formal system of classification of chemical elements that were already long before him, and the very idea of the periodicity of elements was known before. In the PL, he felt the unity of the elements and forces of Nature, and therefore the PS displaying him should have been a single whole, organically linking empirically isolated elements. According to the logic of the development of science at that time, it is quite natural that the PS could graphically be represented as the Periodic Table (PT). D.I. Mendeleev did so, strictly adhering to the principle of consistency and continuity, the first PTs were built. It is safe to say that the principle of consistency and continuity at that moment was the main Heuristic principle in the work of a scientist, which can still be called the principle of integrity.
And he brought overwhelming success and worldwide recognition to D.I. Mendeleev and PL. Since the PS is a single organically connected whole, according to the scientist’s belief, any omissions and voids between the elements are absolutely unacceptable. It can be argued that Dmitry Ivanovich felt that the "infinity" of the PL cannot be adequately (strictly following the principles of consistency and continuity) expressed in a flat rectangular PT. The scientist foresaw that "... the system requires a bodily form that allows for convergence in all directions." The spatial spiral shape was first proposed by the French scientist Alexander Emile de Chancourtois, one of the predecessors of D.I. Mendeleev in the opening of the PL. It should be noted that after Shankurtu many prominent scientists spoke and wrote about the volumetric form of PS. For example, academician A. Fersman proposed to erect a monumental monument (in the form of a spatial spiral) PS and D.I. Mendeleev, and the legendary physicist George Gamow used the spatial form of PS in his popular books on science. This spatial form was patented by Roy Alexander. Our model, in principle, is similar to the models of Gamow and Alexander, but there are certain differences: the s- and p- elements form separate independent petals (the previous authors combined them into one cylinder) and in our version all the petals extend from the same axis (the lines " growth "). The volumetric model of PS can be performed in various versions and can be recommended as a student manual. p.67 https://mendeleev150.ifmo.ru/?fbclid=IwAR3yShMAmhYJClFzPbVOMrfo4NbrElkqOm5V4B76uBJ6W_Xt5-wfEUZmvnA