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Related lectures (29)
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Inviscid Flows: Understanding Fluid Dynamics
Explores inviscid flows, Reynolds number importance, linear deformations, and volume change in fluid dynamics.
Rayleigh-Benard Instability
Explores the Rayleigh-Benard instability, discussing flow instabilities due to buoyancy forces and the analysis of dispersion relations.
Stochastic a-Navier-Stokes Model: Properties and Applications
Explores the stochastic a-Navier-Stokes model for fluid dynamics and its applications in various contexts.
Fluid Friction Forces
Explores fluid friction forces, including laminar and turbulent flow, viscosity, and terminal velocity calculation.
Fluid Dynamics: Navier-Stokes
Covers the Navier-Stokes equations in fluid dynamics and elasticity equations.
Symmetries of Navier-Stokes Equations
Explores the symmetries of Navier-Stokes equations in periodic boxes, including translations, transformations, rotations, and scaling.
Stokes Formula: Streamfunction in Spherical Geometry
Explores vorticity equations, advection-diffusion, solid body rotation, and Stokes formula in spherical geometry.
Untitled
Hydrodynamics: Hele Shaw Approximation
Covers the Hele Shaw approximation for fluid flow and flow patterns in different duct geometries.
Hydrodynamics: Holomorphic Functions
Explores hydrodynamics principles and holomorphic functions' role in fluid dynamics.
Lattice Boltzmann: Turbulence Onset
Explores lattice Boltzmann's role in studying turbulence onset and its advantages in hydrodynamics.
Stokes Formula in Hydrodynamics
Explores Stokes formula in hydrodynamics, emphasizing flow along a sphere and boundary conditions.
Kalman-Hauad-Morning Relation
Delves into deriving the Kalman-Hauad-Morning relation in stationary turbulence, emphasizing homogeneity and isotropy assumptions, and culminates in the common Howard-Mohnen relation.
Viscous Fluid Dynamics: Reynolds Number and Flow Characteristics
Explores the impact of Reynolds number on fluid flow characteristics and similitude in experimental setups.
Incompressible Fluid Mechanics
Covers mass conservation, Navier-Stokes equations, vorticity, and potential flow.
Forces and Motion on Inclined Plane
Covers masses on an inclined plane connected by a pulley and explores friction and drag forces.
Symmetries and Conservation Laws
Covers symmetries and conservation laws in fluid dynamics, emphasizing the importance of maximizing symmetries in ideal fluid systems.
Navier-Stokes: Equations and Simulation
Explores the challenges of Navier-Stokes equations, pressure checkerboard, staggered grid, and the SIMPLE algorithm.
Finite Element Method: Stabilization Techniques
Covers the application of stabilization techniques in the Finite Element Method.
Intermittency Corrections to K41
Explores intermittency corrections to the K41 theory in turbulence and the breakdown of self-similarity.
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