QUANTUM BIOLOGICAL THERMODYNAMICS WITH FINITE SPEED OF THE CARDIO-RESPIRATORY SYSTEM AS A NEW EXTENSION OF THERMODYNAMICS WITH FINITE SPEED

Autor/autori: Stoian PETRESCU, Valeria PETRESCU, Romi BOLOHAN, Bogdan BORCILĂ, Monica COSTEA


Abstract: As part of the authors’ work to extend Thermodynamics with Finite Speed to the study of Biological Systems, once the Stationary Quantum States of the Human Cardio-Respiratory System discovered, progress are made in the study of inside system processes resulting from position changes or performing actions like eating, walking, climbing or descending stairs. Five processes similar to those from the Classical Reversible Thermodynamics (isothermal, isometric, isobaric, etc.) are experimentally identified. Also, a formula that correlates the ratio of the heart frequency (FH) and the lung frequency (FL) with a quantum number N (integer) that characterizes the self-organization of the interaction between the heart and lungs was discovered. In our new diagrams, Stationary Quantum States and Processes with Quantum Jump of the Cardio- Respiratory System are represented similarly as Thermodynamic States and Processes in p-V, T-S, h-s, U-S, p-time diagrams.

Keywords: Quantum Biological Thermodynamics with Finite Speed, Stationary States, Processes with Quantum Jump, Cardio-Pulmonary Quantum Interaction, Quantum Numbers in Heart-Lung Interaction.

 

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