Open AccessA Possible Way to Unify, Coulomb and Lorenz (Electromagnetic) Interactions, using a Hydrodynamic Analogy
Author(s) -
Corneliu Berbente,
Sorin Berbente,
Marius Brebenel
Publication year - 2022
Publication title -
incas buletin
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.282
H-Index - 10
eISSN - 2247-4528
pISSN - 2066-8201
DOI - 10.13111/2066-8201.2022.14.1.1
Subject(s) - analogy , physics , vortex , graviton , classical mechanics , coulomb , coulomb's law , electromagnetic field , gravitoelectromagnetism , interpretation (philosophy) , theoretical physics , field (mathematics) , mechanics , gravitation , quantum mechanics , computer science , mathematics , classical field theory , philosophy , linguistics , pure mathematics , programming language , electron
In a previous paper [3] we have used the hydrodynamic analogy to give a model for gravity. A carrying particle named HD-graviton was introduced. In another paper [8], a hydrodynamic analog permitted to unify the theory to include the Coulomb force using the so-called “vortex masses” having the vortices as a hydrodynamic correspondent. This paper will give a hydrodynamic interpretation of the Lorenz (electromagnetic) interaction. We find the vortices as a hydrodynamic analog for the electrical currents which generate the magnetic field.