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| ai.viXra.org > Quantitative Biology > ai.viXra.org:2604.0089 |
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Quantitative Biology |
Authors: Alberto Coe
This paper identifies a non-random organization in the physicochemical properties that define life.By using a logarithmic network of the form L=L0eAq it is demonstrated that covalent radii (including water), electronegativity, and topological polar surface area (TPSA) are quantized into integer nodes (q). The results yield significant statistical confidence levels (P < 0.05 for radii and electronegativity), utilizing a family of constants derived from Euler's constant (e). This suggests that the physicochemical properties of some of the main substances involved in biological processes are fine-tuned according to a fundamental geometric and physical metric that minimizes structural entropy.
Comments: 4 Pages.
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[v1] 2026-04-27 12:07:18
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