Explores the restoration of symmetries in fluid dynamics equations, particularly the Navier-Stokes equations in periodic domains, highlighting the significance of symmetry in understanding fluid motion.
Explores Kolmogorov's turbulence theory, covering Navier-Stokes equations, conservation laws, energy budgets, and experimental laws of turbulence.
Explores symmetries in dynamical equations, emphasizing their restoration at high Reynolds numbers and their impact on fluid dynamics.
Introduces turbulence and symmetry in fluid dynamics, exploring the effects of Reynolds number on flow patterns.
Explores the dynamical consequences of symmetry, emphasizing conservation laws and the role of Noether currents.
Explores the classification and practical applications of symmetries in 3D space, emphasizing user-driven determination of object symmetries.
Explores the interpretation and decay of turbulence, dissipation scales, and the restoration of symmetries in fluid dynamics.
Explores the consequences of symmetry, focusing on the Noether Theorem and coordinated charges in Lie groups.
Explores energy flux in turbulence, scale-by-scale budget, third-order velocity moments, and Kolmogorov theory.
