Thermodynamics 2.0 | 2022 Program: Sessions and Abstracts

Mon - Wed, July 18 - July 20 , 2022 , Boone, North Carolina

Session T13: Entropy in Social Sciences

10:45-12:00. Wednesday July 20, 2022

Chair: W. F Lawless

Title: Maximum Entropy Production Principle and Self-Organization

Presenter:

  • Georgi Georgiev

(Assumption University and Worcester Polytechnic Institute, Worcester, MA, USA)

Bio-sketch

Georgi Yordanov Georgiev has graduated from Sofia University in Bulgaria and obtained a Master and Ph.D. degrees in physics from Tufts University in Boston, MA. After a postdoctoral position in physics at Northeastern University in Boston, MA, he joined the faculty of Assumption University where he is a full professor of physics. He is interested in applying variational principles to explain the self-organization, evolution and development in nature and society.

Author(s):

  • Georgi Georgiev

(Assumption University and Worcester Polytechnic Institute, Worcester, MA, USA)

Abstract:T13.160

Abstract

Organization is the creation of flow channel structure in systems away from thermodynamic equilibrium to maximize the rate of flow of matter and energy through the system. As a result, it maximizes its entropy production. Flow channels are defined as the paths of least action for matter and energy through the system, where the obstacles for motion have been minimized by work done by the flows to remove them from the paths. Therefore, the amount of physical action for the flow of matter and energy has been minimized, which can be described by increased action efficiency of the flows. This obstructive constraint minimization is a variational principle by itself connected directly to the principle of least action. Creating this internal structure minimizes the internal entropy of the system as the degrees of freedom of its building blocks have been decreased. Therefore, the decrease in internal entropy of the system corresponds to increase of the external entropy production. We can interpret this, that the second law of thermodynamics is the principle for reducing the internal entropy in systems. In this way, it creates higher levels of organization during development and evolution of systems of any nature, being they physical, chemical, biological, engineering, economical or social. Some examples are Rayleigh-Benard convection cells, vortices, vascular networks in plants and animals, flows of energy in ecosystems and infrastructure systems.

Keywords: Maximum Entropy production principle, second law of Thermodynamics, self-organization, principle of least action, evolution, development