Wave resonance and scaling. Speed of light as a boundary of physical interactions.

Wave resonance and scaling. Speed of light as a boundary of physical interactions.

(zenodo.org) Introduction Modern physics operates with a number of fundamental constants, among which Planck's constant h occupies a special place. However, if we consider the process of scaling physical quantities through resonant waves, we can assume that Planck's constant is not an independent quantity, but is derived from the speed of light and geometrical characteristics of wave processes. Linking wave processes and scaling Many physical phenomena are based on resonance. If we consider standing waves at different scales, we can identify their common patterns. One of the key factors is that when scaling the wavelength, the number of nodes is preserved, while the frequency changes inversely proportional to the scale. The speed of light plays here the role of a fundamental parameter determining the interaction of waves. It is important to note that the interaction velocity remains constant, but it can be decomposed into two components: along the x-axis (spatial scale that defines the size); along the y-axis (energy-related oscillation frequency). This leads to a fundamental relationship between...
Read More
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...
Read More
The Electromagnetic Nature of Mass: Rethinking Fundamental Interactions

The Electromagnetic Nature of Mass: Rethinking Fundamental Interactions

(zenodo.org) Introduction Modern physics classifies fundamental interactions into four main forces: gravity, electromagnetism, the strong interaction, and the weak interaction. However, recent studies and hypotheses suggest that electromagnetic waves  may play a more fundamental role in the structure of matter than previously assumed. This work presents an alternative perspective on the nature of mass and charge through the lens of electromagnetic processes, supported by mathematical derivations. 1. Mass as a Manifestation of Electromagnetic Wave Energy According to Einstein’s mass-energy equivalence principle:     E = mc² mass is a form of energy. However, the question remains as to how this energy is structured.     If an elementary particle is considered not as a point object but as a complex lectromagnetic wave confined within a spherical or toroidal structure, its mass may result from the energy contained in this form. Mass can also be examined in the relativistic limit through the energy of a photon:     E = hc / λ and expressed as a function of wavelength at the speed of...
Read More
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...
Read More