Theory of frequency, energy density and fractal structure of the Universe

Theory of frequency, energy density and fractal structure of the Universe

(zenodo.org) dated April 01 Introduction Modern physics is based on quantum mechanics and general relativity theory (GRT), but their unification remains an unsolved problem. We propose an alternative model in which the frequency of oscillations is the primary concept determining the energy density. Within this model, Planck's constant plays the role of the fractalisation coefficient, determining the scale of physical processes. 1. Rethinking the Michelson-Morley experience According to the special theory of relativity (STR), the speed of light in a vacuum is the same for all observers, regardless of their motion. This means: If one observer is travelling at some speed and the other remains at rest, they will both measure the speed of light as c, regardless of their states of motion. Even if the object is flying towards or away from the light, the light will still have a velocity c relative to it. For classical mechanics such an effect could arise if objects have a wave structure and the speed of propagation of these waves...
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Energy density gradient and its effect on light propagation

Energy density gradient and its effect on light propagation

(zenodo.org) Introduction Based on the assumption that the de Broglie wave is most likely a spatial energy density wave (Dzen), we can conclude that space can have different energy densities. The energy density gradient in space may be a key factor in determining the trajectory of light. This may provide an alternative explanation for some observed phenomena such as gravitational lensing and redshift. 1. Relation of mass, energy and wavelength Based on our reasoning about rest mass: Where: E2 is the energy of the object at rest, E1 is energy at the speed of light, λ1 is the wavelength of the object when travelling at the speed of light, h is Planck's constant, c is the speed of light. Here the rest mass of the particle depends on the wavelength at the limiting velocity. Since the speed of light is the maximum for a given medium, this indicates that the energy density of space affects the allowable range of frequencies. 2. Influence of energy density on frequencies In this case the interaction of...
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Energy Density Theory

Energy Density Theory

(zenodo.org) Introduction This paper explores the hypothesis that the mass of elementary particles is a consequence of variations in energy density within space. This approach provides a new perspective on fundamental interactions, explains anomalies related to dark matter and dark energy, addresses Heisenberg's uncertainty principle, and offers an alternative to the concepts of space-time curvature and the Higgs field. 1. Mass as a Consequence of Energy Density In classical physics, mass is considered a fundamental property of matter. However, if mass is assumed to be a manifestation of energy density, its origin can be explained without invoking the Higgs field. In this case, the mass of charged particles results from uniform changes in energy density, whereas neutral particles may exhibit vortex-like variations in energy density. 1.1. Relationship Between Mass and Wavelength Consider the behavior of mass at the speed of light limit. There is a direct dependence between wavelength and mass. If this dependence is fundamental, then variations in energy density in space determine the inertial...
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Reflections: BELIEF, DISBELIEF. SPIRIT and MATTER.

Reflections: BELIEF, DISBELIEF. SPIRIT and MATTER.

(zenodo.org) Download the original in doc format Download English translation (machine translation) doc Author - Sergey Skrynnik Republic of Kazakhstan, Almaty, mailing address is: science@ast-1c.kz 26 June 2024 Correction dated March 21, 2025. Abstract This work is a philosophical and scientific exploration that unites perspectives on consciousness, energy, and matter. The author presents an original approach based on the idea that energy is fundamentally linked to wave processes, and that the fundamental forces of nature can be explained through interactions between dimensions. The first part examines the meaning of life, the role of striving, and love as a creative force. It explores the connection between spirit and matter, as well as the role of consciousness in shaping reality. The second part introduces a hypothesis about the structure of elementary particles and the mechanisms behind physical interactions. The author proposes the concept of a magnetic dimension, which explains the nature of mass, charge, and gravity. Special attention is given to quantum uncertainty and the possibility of additional dimensions. This work is intended...
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