Fundamental Unity of the Natural Sciences
Vasili Dimitrov
Professor (Emeritus) in Chemical Physics,
Faculty of Exact Sciences, Department of Geophysics and Planetary Sciences,
Tel-Aviv University, Israel vasili@tauex.tau.ac.il
Workshop on non-equilibrium dynamics of large systems
Japan, Hakodate University, January 2005
Фундаментальное единство естественных наук.
Текст доклада:
Схема Кирквуда -Димитрова
Feynman Paradigm: Unified Laws of Physics in Mathematical Terms In his Nobel Prize speech in 1965, Richard Feynman expressed the idea that physical laws can be represented by various mathematical equations, yet they can always be mutually transformed. In this report, I substantiate this notion by demonstrating that through the use of formal mathematical transformations, any equation within the natural sciences can be converted into an equation of another discipline. The logical development of Kirkwood-Chapman-Enskog opens up possibilities for altering the spatial-temporal scales of description applicable to physicochemical processes in different continua. This concept allows a transition from microscopic descriptions of processes to their macroscopic representations, forming a hierarchy of laws of natural sciences, starting with the Liouville's Law. Such a perspective provides a unified theoretical framework for the natural sciences, where the interconnection of fundamental, theoretical, applied, and engineering disciplines becomes apparent. This approach reveals harmony in the diversity of scientific fields, creating a stable foundation for the understanding and application of the laws of nature. Впервые доклад прочитан:Семинар по неравновесной динамике больших систем. Fundamental Unity of the Natural Sciences Vasili Dimitrov Professor (Emeritus) in Chemical Physics,Faculty of Exact Sciences, Department of Geophysics and Planetary Sciences, Tel-Aviv University, Israel vasili@tauex.tau.ac.il Workshop on non-equilibrium dynamics of large systems Japan, Hakodate University, January 2005