Primates achieve longer lifespans by directing more energy to the brain, which reduces entropy production per life cycle and extends the total number of cycles allowed by the Principle of Biological Time Equivalence.
(2026)Brownian Motors and Brownian Heat Engines: From Classical Thermodynamics to Fluctuation-Driven Machines
2 Pith papers cite this work. Polarity classification is still indexing.
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Across 230 vertebrate species the product of heart rate and lifespan yields a near-constant total of approximately 10^9 cardiac cycles, confirmed by phylogenetic and multi-clade statistical tests.
citing papers explorer
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Neural Investment as an Entropy-Budget Strategy: A Thermodynamic Derivation of Primate Longevity from the Principle of Biological Time Equivalence
Primates achieve longer lifespans by directing more energy to the brain, which reduces entropy production per life cycle and extends the total number of cycles allowed by the Principle of Biological Time Equivalence.
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The Lifetime Cardiac-Cycle Invariant in Endothermic Vertebrates: A 230-Species Comparative Dataset, Statistical Validation, and Explicit Falsifiability Criteria
Across 230 vertebrate species the product of heart rate and lifespan yields a near-constant total of approximately 10^9 cardiac cycles, confirmed by phylogenetic and multi-clade statistical tests.