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| Natura: | Recurso digital |
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Zenodo
2025
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| Accesso online: | https://doi.org/10.5281/zenodo.17045776 |
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Sommario:
- <p><span>This paper introduces an enantiomorphic cosmological model derived from the Common-Scheme (SC), a theory of functional architecture. The model posits that our universe, an "Abstract Chirality" of dynamics and energy, emerged from a primordial "Concrete Chirality" of structure via a transitional event, redefining the Big Bang not as a creation </span><span>ex nihilo</span><span> but as a conversion of substance. The core of this paper is the demonstration that this model is not merely philosophical but quantitatively predictive. By calculating the "informational values" of the Abstract (V_A = 288) and Concrete (V_C = 54) chiralities from the SC's fractal grammar, we derive a fundamental, parameter-free prediction for the ratio of dark matter to baryonic matter. The predicted architectural ratio, </span><strong><span>Ω_c / Ω_b = 288 / 54 ≈ 5.333...</span></strong><span>, is then tested against cosmological data from the Planck satellite, which yields an observed ratio of approximately 5.357. The remarkable agreement of ~99.56% (a relative error of only 0.44%) provides strong quantitative evidence for the model. This framework also offers causal explanations for the nature of E=mc² as a law of chiral transition, the arrow of time, and the identity of dark matter as the gravitational manifestation of the Abstract Chirality's architectural plan.</span></p>