Foundations

Why c Exists And Ether Said: “Let There Be Light and Relativity”

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Why c exists

Why c Exists shows that neither the universal constant c nor the gravitational constant G are fundamental axioms of nature. Both arise from a single physical mechanism: the finite reorganisation speed of a frictionless quarkic ether whose pressure and inertial density are fixed by the displaced volume of the 13-quarkbase electron. In this framework, c is the unique luminal resonant mode of the Ψ-field-the only dispersionless, self-coherent solution able to propagate without generating a wake in the ether. Its invariance defines causal structure, relativistic kinematics, and the emergent Minkowski metric. The same basal pressure P 0 that sets this propagation speed also determines the strength of gravitational coupling. By identifying the electron’s rest energy with pure compression energy E e = P 0 V disp and using the experimentally fixed Compton scale to determine V disp , the basal ether pressure satisfies P 0 ∼ 10 24 Pa. Combining this with the observed values of c and G yields a gravitational response coefficient ξκ ∼ 10-19 m-2 , expressing gravity as the extremely weak deformation of the etheric index produced by displaced-volume gradients. Under this interpretation, relativity, electromagnetism, gravity, and cosmic structure become macroscopic manifestations of the same underlying phenomenon: the finite-speed dynamics of a continuous, perfectly coherent pressure medium. The constants c and G are therefore two numerical expressions of one physical entity-the quarkic ether.

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DOI: 10.5281/zenodo.17716518

Date: Oct 15, 2025

Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827

Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International

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Reconfirmation of the Relativistic Invariance of the Theory of Quarkbase (eng.): Detailed Mathematical Analysis

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Reconfirmation_of_the_Relativistic_Invariance_of_the_Theory_of_Quarkbase

Reconfirmation of Relativistic Invariance provides the complete English edition of the detailed mathematical analysis confirming the relativistic invariance of Quarkbase Cosmology. The study derives the covariant scalar-field action, the regularised Yukawa solution for compact quarkbases, the full energy–momentum tensor, and the propagation of small perturbations within the etheric plasma.

Both isotropic and anisotropic corrections to the phase velocity are quantified and compared against the most stringent modern constraints, including Fermi–LAT, GRB 221009A, and SME bounds. The results show that the theory preserves Lorentz invariance within experimental limits, with predicted deviations satisfying |Δc/c| < 10⁻¹⁵ and anisotropy constraints |ε| < 2×10⁻¹⁴.

This analysis consolidates the mathematical foundation of the Quarkbase framework and reinforces its compatibility with contemporary high-precision tests of relativistic physics..

Reconfirmation_Relativistic_Invariance_of_Quarkbase_Cosmology_eng_Detailed_Mathematical_AnalysisDownload

DOI: 10.5281/zenodo.17717878

Date: Oct 15, 2025

Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827

Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International

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The Michelson Morley Null Result As A Consequence Of A Frictionless Scalar Ether

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The_Michelson_Morley_Null_Result_as_a_Consequence_of_a_Frictionless_Scalar_Ethe

The Michelson Morley Null Result As A Consequence Of A Frictionless Scalar Ether shows that the Michelson–Morley null result is not a refutation of the ether, but an explicit prediction of a frictionless scalar-pressure medium as defined in Quarkbase Cosmology. In this framework, the ether has no drag, no shear and no anisotropic response, and all components of a closed interferometer co-move coherently with the local Ψ-field configuration. As a result, both arms of the interferometer maintain identical optical paths for any subluminal velocity, making the null result unavoidable. The paper clarifies why Lorentz invariance naturally emerges from the dynamical properties of the quarkic ether, and why interferometry cannot detect such a medium.

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DOI: 10.5281/zenodo.17772569

Date: Dez 1, 2025

Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827

Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International

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Genesis Quarkbase (english): The Functioning of the Universe

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Genesis Quarkbase Thumbnail

Genesis Quarkbase (English): The Functioning of the Universe is one of the foundational works of Quarkbase Cosmology, presenting a unified framework where all forces emerge from etheric-volume conservation.

This work presents a unified physical framework in which all fundamental interactions—gravitational, electromagnetic, strong, and weak, arise from a single principle: the global conservation of etheric volume in a frictionless plasmatic medium.
The theory derives nuclear and atomic constants (Rydberg value, hydrogen binding energy), predicts the next stable element of the periodic table (Z ≈ 155), and introduces an alternative fission mechanism based on resonance of the Ψ pressure field.
This preprint provides the foundational narrative of Quarkbase Cosmology: the emergence of structure, resonance, and coherence from compact quarkic configurations interacting with the etheric Ψ field.

Genesis_Quarkbase_V3_engDownload

DOI: 10.5281/zenodo.17716248

Date: Oct 1, 2025

Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827

Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International

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The Medium Underlying Lorentz Symmetry: What Einstein Removed

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The Medium Underlying Lorentz Symmetry

The Medium Underlying Lorentz Symmetry reconstructs the full mathematical structure of Einsteinian relativity from a physical medium: a frictionless scalar-pressure ether described by the field Ψ(x,t). Instead of postulating the invariance of c and Lorentz symmetry, the analysis shows that both emerge from the finite reorganisation speed of this medium. The Lorentz factor, relativistic kinematics, energy–momentum relations, and gravitational weak-field optics are recovered without invoking mass or geometric axioms. Einstein’s formalism remains valid, but its ontology is reversed: relativity becomes the macroscopic behaviour of a coherent pressure medium rather than a primitive geometric postulate.

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DOI: 10.5281/zenodo.17773957

Date: Dec 1, 2025

Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827

Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International

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