TITLE:
Ferromagnetic Calculation of Terbium Dysprosium and Holmium with Polyhedron Electron Shell
AUTHORS:
Zilong Kong
KEYWORDS:
Atomic Structure, Regular Polyhedron Electron Shell, Ferromagnetism of Terbium Dysprosium and Holmium, Matter Wave Formula
JOURNAL NAME:
Journal of Modern Physics,
Vol.6 No.13,
October
15,
2015
ABSTRACT: Based on the regular polyhedron model of multi-electronic atom combined with the Bohr hypothesis, the following supposition is put forward: the electron momentum multiplied by the inscribed sphere radius of edges of each regular polyhedron is equal to the Planck constant. The relationship between saturation magnetization rates and Planck constants is determined, and the ferromagnetism of atoms is obtained from regular dodecahedron and regular hexahedron. Then, terbium, dysprosium, and holmium saturation magnetization rate are obtained from electronic regular polyhedron configuration. Derivation of matter wave formula is from thermodynamics, avoiding over speed of light.