HOW DIFFERENT WE ARE IN TERMS OF HEART- LUNG INTERACTION: DISCOVERY AND DESCRIPTION IN QUANTUM BIOLOGICAL THERMODYNAMICS WITH FINITE SPEED

Autor/autori: Stoian PETRESCU, Valeria PETRESCU, Romi BOLOHAN, Bogdan BORCILA, Monica COSTEA, Silvia DANES1, Michel FEIDT, Georgeta BOTEZ, Gabriela HUMINIC, Angel HUMINIC, Nicolae BORIARU, Gheorghe POPESCU, Nicoleta MANITIU, Nicoleta DUMITRASCU5, Ema PANAITE, Teona LOZONSCHI6, Adina GHEORGHIAN1

Abstract: Based on the new discovery/invention of Quantum Biological Thermodynamics with Finite Speed (QBTFS), we show in this paper how different we are, in terms of Stationary States, Interactions and Processes in Cardio- Pulmonary System, for different persons and in different positions. In order to do this, we have used the 4 new Diagrams invented in Quantum Biological Thermodynamics with Finite Speed as functions of FH = Heart Frequency; FL=Lungs Frequency; Rf = Ratio between Heart and Lungs Frequency; N = Interaction Quantum Number of a stationary- interaction-state between Heart and Lungs (a new fundamental concept-characterizing any Stationary State-introduced in QBTFS). These 4 Diagrams, build using the 4 parameters of Stationary States, FH, FL, Rf and N become in QBTFS extremely important tools for comparing the “performances” of the Cardio-Pulmonary System for any person: child, adolescent, young, mature and old persons (male or female).

Keywords: Quantum Biological Thermodynamics with Finite Speed, Stationary States, Cardio-Pulmonary System, Heart Frequency, Lungs Frequency, Interaction Quantum Number, Processes with Quantum Jump.

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