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Lecture
Navier-Stokes: Numerical Flow Simulation
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Navier-Stokes: Equations and Simulation
Explores the challenges of Navier-Stokes equations, pressure checkerboard, staggered grid, and the SIMPLE algorithm.
Navier-Stokes Equations: Numerical Flow Simulation
Explores challenges and solutions in numerical flow simulation, emphasizing the importance of physical consistency in computational fluid dynamics.
Turbulence: Numerical Flow Simulation
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Linear Momentum Conservation and Stress in Continuum
Explores the conservation of linear momentum and stress in a continuum, focusing on governing equations and constitutive laws.
Inviscid Flows: Understanding Fluid Dynamics
Explores inviscid flows, Reynolds number importance, linear deformations, and volume change in fluid dynamics.
Turbulence in Astrophysics: Reynolds Decomposition
Covers the modeling of fluid instabilities with linear perturbation theory and explores the origin of unpredictability in turbulence through the Navier-Stokes equations.
Symmetries and Conservation Laws
Covers symmetries and conservation laws in fluid dynamics, emphasizing the importance of maximizing symmetries in ideal fluid systems.
Viscous flow: Equations and Solutions
Explores equations and solutions for viscous flow, including stress-deformation relationships, Navier-Stokes equations, and simple fluid flow cases.
Untitled
Fluid Dynamics: Navier-Stokes Equations
Explores fluid dynamics, covering Navier-Stokes equations, momentum conservation, stresses, and dimensional analysis.
