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Grand Evolutionary Continuum of mass: Parallels Across Stars, Earth, and humanon Intrinsic Gravitation Mechanisms
Author Name : Iresh Ranjan Bhattacharjee
DOI: https://doi.org/10.56025/IJARESM.2024.121224020
ABSTRACT The study explores the profound parallels between astrophysics, planetary science, and biological phenomena, with a focus on intrinsic gravitational forces and thermal dynamics. It introduces a novel perspective where mechanisms like the Kelvin-Helmholtz process, commonly associated with stellar phenomena, are shown to influence biological processes such as human embryogenesis. Key insights include the thermal stratification and gravitational patterns seen in stars, Earth's layers, and human germ layers, as well as the shared dynamics of heat production and energy transfer. The article elucidates how mass, density, and intrinsic gravitational forces govern the organization of molecules within cells, akin to element distributions in stars. Biological processes such as cranial suture movement are paralleled with tectonic plate shifts, while the physical basis of cellular heat production aligns with stellar core activity. Intriguing connections are also drawn between the thermal emissions of ultra-cool brown dwarfs and human basal body temperature. By drawing comparisons across scales—from galactic formations to cellular biology—this work emphasizes the universality of physical principles. These findings not only bridge disciplinary gaps but also propose a unified framework for understanding evolution, development, and energy regulation across the cosmos and life sciences.