Open AccessA Medium Model Leading to Analogy of Major Physics Laws
Author(s) -
Ting Yi
Publication year - 2018
Publication title -
reports in advances of physical sciences
Language(s) - English
Resource type - Journals
eISSN - 2424-9424
pISSN - 2529-752X
DOI - 10.1142/s2424942418500081
Subject(s) - analogy , physics , energy–momentum relation , lorentz transformation , classical mechanics , theory of relativity , momentum (technical analysis) , principle of relativity , simple (philosophy) , theoretical physics , transformation (genetics) , physical law , field (mathematics) , special relativity , mathematics , four force , quantum mechanics , epistemology , philosophy , biochemistry , chemistry , finance , pure mathematics , economics , gene
The attempt of this paper is to suggest a new theoretical medium to support the efforts of building particle models as mechanical field structures. The medium model is based on two simple fundamental assumptions. All the properties of the medium, as counterparts in this medium of the well-known physics laws, including energy and momentum conservations, Lorentz transformation and special relativity, electromagnetic interaction, etc., are derived from these two assumptions. The governing equations are established based on the derived properties. Some steady solutions as well as the feasibility of interpreting these solutions as particles are also briefly discussed.