PICOSCOPY QUANTUM TABLE KUCHEROVA A. & MUDRYK A.

World First site publication PICOSCOPY QUANTUM TABLE KUCHEROVA A. & MUDRYK A.

The elements from atomic numbers 0 (ukrainium) through 117 (tennessine) have been discovered or synthesized, complete seven full rows of the periodic table. The periodic table consists of 118 cells arranged into 32 vertical columns and seven horizontal rows. The position of an element is given by quantum numbers. In atoms, there are a total of four quantum numbers: the principal quantum number (n), the orbital angular momentum quantum number (l), the magnetic quantum number (m), and the electron spin quantum number (s).

In other words, the position of elements in the table is determined by the configuration of electrons on the outer shell. In other words, the position of elements in the table is determined by the configuration of electrons on the outer shell.

And in noble gases, all electrons are located on the inner shells. That is, the number of electrons in the outer shell is zero, they have zero valences. It follows that these elements must present the zero period. D.I. Mendeleev did exactly that in his table, fig. 1. Because they are reluctant to share electrons from their filled inner electron shells, noble gases are generally considered unreactive.

In other words, in the newest table of the transition elements of the Milky Way galaxy and the planet Earth, developed by Ukrainian scientists Kucherov O., Mudryk A., Lavrovsky S. which is shown in Picoscopy quantum table the position of elements in the table is determined by the configuration of electrons on the outer shell. In other words, the position of elements in the table is determined by the configuration of electrons on the outer shell.