BCSSS

International Encyclopedia of Systems and Cybernetics

2nd Edition, as published by Charles François 2004 Presented by the Bertalanffy Center for the Study of Systems Science Vienna for public access.

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The International Encyclopedia of Systems and Cybernetics was first edited and published by the system scientist Charles François in 1997. The online version that is provided here was based on the 2nd edition in 2004. It was uploaded and gifted to the center by ASC president Michael Lissack in 2019; the BCSSS purchased the rights for the re-publication of this volume in 200?. In 2018, the original editor expressed his wish to pass on the stewardship over the maintenance and further development of the encyclopedia to the Bertalanffy Center. In the future, the BCSSS seeks to further develop the encyclopedia by open collaboration within the systems sciences. Until the center has found and been able to implement an adequate technical solution for this, the static website is made accessible for the benefit of public scholarship and education.

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PROCESS THERMODYNAMICS 2)5)

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H. SABELLI reconsiders thermodynamics from the viewpoint of process theory: "According to process theory:

(1) Everything is action, the asymmetric flow of energy in time. (2) Every action is associated with an opposing process, thus generating symmetry; the maximization of entropy represents this tendency toward the generation of symmetry. (3) Processes create structures (partial symmetries) at critical and intermediate values of temperature and dimensionality. Postulating that asymmetry and symmetry are cosmic forms that order all natural processes and structures, process theory provides a reformulatuon of entropy as symmetry rather than disorder, and of its maximization as a cosmic asymmetry. The tendency of processes to attain a more stable configuration creates symmetry in natural systems. The various forms of partial symmetry attained include not only more uniform and probable distribution of the system components. but also the formation of complex and asymmetric structures. Entropy thus increases everywhere, and faster in a complex system than in its simpler environment (1994, p.1484).

In other words, order and disorder are opposed, but complementary, a concept formulated by SABELLI under the term "enantiodromia".

As to maximization of entropy, considered as reflecting growing symmetry, it is supposed to mean that total statistical disorder (in a gas for instance), should be equated with maximum symmetry, i.e. the inexistence of significant asymmetric features.

In accordance with PRIGOGINE's thermodynamics, it would be advisable to speak of increase of entropy production in complex systems, and not merely of entropy.

Categories

  • 1) General information
  • 2) Methodology or model
  • 3) Epistemology, ontology and semantics
  • 4) Human sciences
  • 5) Discipline oriented

Publisher

Bertalanffy Center for the Study of Systems Science(2020).

To cite this page, please use the following information:

Bertalanffy Center for the Study of Systems Science (2020). Title of the entry. In Charles François (Ed.), International Encyclopedia of Systems and Cybernetics (2). Retrieved from www.systemspedia.org/[full/url]

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