Abstract
A long-term goal of theoretical physics is to develop a single simple theory or model that would unify the four known fundamental forces (or interactions) and give explanations for the origin and the evolution of the Universe. Here a “spiral wave law” has been proposed based on the previous studies that a consistent universe field presents various forms of spiral (helical) wave motions at the speed of light (c), and therefore, a mathematical equation for the relationship between the radius of a spiral wave motion (r) and its wave length (λ) is derived including a simplified formula ( or ), which could provide a novel explanation for the origin and the evolution of the Universe, and the space-time relationships. This model may give a new way for the unification of four fundamental forces and determine the moving properties of galaxies and basic particles, and the propagation characteristics of electromagnetic waves at the large or small scale.
Highlights
There have three distinct characters for the proposed universe field: 1) The universe field presents a spiral wavelike motion at the speed of light at the small scale [15] (Figure 1); 2) A microscopic matter is just the particular energy form of a spiral wavelike motion companying with a spin movement in the universe field, named as “spin wave packet”, which forms macroscopic objects; and 3) There exist the transformation between the universe field energy (Eu) and the matter energy (Em) in the Universe, which is mediated via electromagnetic waves
We cannot directly assess Eu, we could define it when considering of energy transformation from Em to the part of Eu
This is a unifying equation for the movement of a matter and its relationship to the universe field, and is defined as a “spiral wave law” (SWL)
Summary
A long-term goal of theoretical physics is to develop a single simple theory or model [1, 2] that would unify the four known fundamental forces (or interactions) and give explanations for the origin and the evolution of the Universe, and other physical questions or problems, such as the origin of the gravity and mass [3], the nature of dark matter and dark energy [4, 5], the horizon problem [6], the flatness/oldness problem [7], the strong CP problem [8], the neutrino oscillations [9, 10], and the baryon asymmetry [11,12,13], etc.
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