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[3] ai.viXra.org:2601.0108 [pdf] submitted on 2026-01-26 21:05:49
Authors: Asheed Mohamed
Comments: 16 Pages. (Note by ai.viXra.org Admin: Please cite listed scientific references)
Visible light passing through layered fabrics undergoes systematic spectral restructuringdriven by wavelength-dependent attenuation. By treating the transmitted spectrum as aclassical probability distribution, we quantify this evolution using Shannon entropy and avariance-based information metric (VBIM). The entropy-gradient peak identifies the layer atwhich spectral reorganization is maximal, marking the transition toward a spectral stabilization depth (informational saturation point). To contextualize this macroscopic observationwithin fundamental thermodynamic limits, we derive a universal informational referencescale, LI , from Landauer’s principle evaluated at the cosmic microwave background temperature. The framework yields a falsifiable prediction of scale invariance under geometricstretching, defining a clear experimental path to validate the proposed connection betweenmacroscopic optics and universal thermodynamic bounds. We show that the physical stabilization depth aligns with this scale, presenting this alignment as a provocative instance of atabletop optical system reflecting universal informational constraints. These results positionlayered fabrics as a macroscopic, experimentally accessible platform for studying classicalinformation dynamics and thermalization-like processes.
Category: Classical Physics
[2] ai.viXra.org:2601.0105 [pdf] submitted on 2026-01-25 20:38:04
Authors: Alis Hasić
Comments: 8 Pages. License: CC BY-NC-SA 4.0
This work extends the "The Cosmology of the Living Cell" https://ai.vixra.org/abs/2601.0069(the observable universe as a scaled-up eukaryotic human cell) by filling the remaining gaps (~5%) in the mapping table. New analogies are integrated (sterile neutrinos as non-coding RNAs, gamma-ray bursts as necrosis, cosmic strings as spindle fibers, slow roll inflation as mitotic checkpoints, the proteasome as cosmic recycling, voltage-gated channels as cosmic plasma currents, microRNAs as subtle dark matter fields, and the nucleolus as star-forming centers). The average strength of comparison increases to ~85—90%. All 17 predictions are now listed, with specific forecasts assuming the hypothesis is correct. The overall consistency approaches 100%
Category: Classical Physics
[1] ai.viXra.org:2601.0069 [pdf] replaced on 2026-03-24 19:14:56
Authors: Alis Hasić
Comments: 20 Pages. CC BY-NC-SA 4.0
This paper presents the Mother Theory, a comprehensive framework postulating a scalable isomorphy between the structure and dynamics of a single human eukaryotic cell andthe observable universe. We propose that identical physical principles and mathematicalformulations govern both scales, a concept dened here as the Cellular Cosmology Theory.This study provides formal evidence that key cosmic phenomenaspecically Dark Energy,Dark Matter, and the Big Bangare macroscopic manifestations of cellular biological processes, such as osmotic turgor pressure [8], cytoskeletal scaolding [9], and mitotic division[12].Two primary mathematical proofs underpin this synthesis: First, the 70/30 Identitydemonstrates that the cosmological energy density (ΩΛ ≈ 0.683) corresponds precisely tothe relative mechanical tension provided by osmotic turgor pressure in a stabilized biologicalcell (∼70%) [8]. Second, the Biocosmic Synchronization Formula scales the speed of light(c) to the cellular level. By applying the ratio vs = (c · dc)/Ru, we derive a signal velocity inthe micrometer-per-second range, aligning perfectly with the measured propagation speedsof biochemical calcium waves and protein diusion.These correlations suggest that light serves as the critical biological signaling rate of acosmic-scale cellular entity [11]. The results oer a novel, mathematically consistent bridgebetween General Relativity and Quantum Mechanics [14], reinterpreting spacetime geometryas a living, mitotic matrix [13]. This work provides a veriable, interdisciplinary basis for theconclusion that the universe operates as a living, information-processing singularity, governedby the imperatives of complex biological systems.
Category: Classical Physics