Global Journal of Chemistry, Biology and Physics (GJCBP)

A MATHEMATICAL ODYSSEY THROUGH JUPITER'S GREAT RED SPOT DYNAMICS

Authors

  • Elchin Rasulov Ahmedov Department of Planets and small celestial bodies of the Shamakhy Astrophysical Observatory, Azerbaijan
  • Lala Aziza Aliyeva National Academy of Sciences, city Shamakha , Azerbaijan

Abstract

Self-organization, characterized by the ordered temporal and spatial evolution of events and structures, is a fundamental phenomenon in the cosmos. Theoretical studies of structure formation in the Universe heavily rely on modeling, as it often represents the only viable approach to validate theoretical predictions, particularly in the context of gravitational gas dynamics with its inherent nonlinearity. This holds true for the intricate processes involved in the development of hierarchical structures, entailing complex alterations in spatial geometry. Consequently, modeling has yielded a vast array of profound astrophysical insights and discoveries. A pivotal aspect of modeling gas dynamics and hydrodynamics is the mathematical representation of the fundamental conservation laws governing continuous media, encompassing mass, momentum, and total energy.

Keywords:

Self-organization, Astrophysical modeling, Structure formation, Gravitational gas dynamics, Conservation laws

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Published

2023-10-19

Issue

Vol. 7 No. 3 (2022): July-August

Section

Articles

How to Cite

Ahmedov, E. R., & Aliyeva, L. A. (2023). A MATHEMATICAL ODYSSEY THROUGH JUPITER’S GREAT RED SPOT DYNAMICS. Global Journal of Chemistry, Biology and Physics (GJCBP), 7(3), 1–8. Retrieved from https://zapjournals.com/Journals/index.php/GJCBP/article/view/1227

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