ABOUT THE ORIGIN OF STATIONARY STATES AND PROCESSES WITH OR WITHOUT QUANTUM JUMP IN THE CARDIOPULMONARY SYSTEM, DESCRIBED IN QUANTUM BIOLOGICAL THERMODINAMICS WITH FINITE SPEED

Autor/autori: Stoian PETRESCU, Bogdan BORCILA, *Monica COSTEA, Romi BOLOHAN, Valeria PETRESCU, Michel FEIDT, Georgeta BOTEZ

Abstract: Considering the Cardio-Pulmonary System as a group of two biological machines: a liquid pump with valves (the Heart) and two air compressors (the Lungs), similarities with a two pistons machine, as Stirling Machine were found. Thus, Thermodynamics with Finite Speed (TFS) for Thermal Machines was found suitable to be extended to Biological Systems study. Based on the experimental discovery of Stationary States and Processes between them in the Cardio–Pulmonary System, we built a new branch of Thermodynamics of Irreversible Processes for Biological Systems, we called Quantum Biological Thermodynamics with Finite Speed. This new theory is based on an interesting and important experimental discovery, namely the correlation of the Heart Frequency with the Lungs Frequency through an integer number N. We called it – the Quantum Number of the Stationary State. This paper aims to explain the origin and significance of this correlation, as well as of the quantum number N. It also presents the four diagrams we have invented in order to illustrate the interaction of these two biological systems. They are able to show the Stationary States distribution over a day and in connection with different positions or activities of a person. Also, they are helpful in explaining the origin of Processes with or without Quantum Jump between Stationary States in the Cardio-–Pulmonary System.

Keywords: Hearth and Lung Frequencies, Processes with Quantum Jump in CardioPulmonary System, Quantum Biological Thermodynamics with Finite Speed, Stationary States in Cardio-Pulmonary System.

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