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Lecture
Stokes equations: reversibility, hydro
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Fluid Mechanics in Biomechanics
Introduces fluid mechanics in biomechanics, covering Eulerian description, momentum conservation, Navier-Stokes equations, and practical simulations.
Stokes Equations: Low Reynolds Number Flow
Explores the application of Stokes equations to low Reynolds number flow and the dynamics of fluid flow.
Viscous Beads Flowing Down a Vertical Fibre
Delves into the dynamics of fluid flowing down a vertical fibre, forming droplets under gravity and exhibiting various flow regimes.
Stochastic a-Navier-Stokes Model: Properties and Applications
Explores the stochastic a-Navier-Stokes model for fluid dynamics and its applications in various contexts.
Internal Forced Convection: Hydrodynamic Aspects
Covers the hydrodynamic and thermal aspects of internal forced convection.
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.
Turbulence: Numerical Flow Simulation
Explores the challenges of turbulence, simple turbulent flows, and numerical simulation methods.
Fluid Dynamics: Reynolds Number and Flow Characteristics
Covers the Reynolds number, flow characteristics, mass flow, and continuity equations in fluid dynamics.
Hele-Shaw: Hydrodynamics
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Heat Convection: Boundary Layers and Flow Regimes
Explores heat convection, boundary layers, and flow regimes, emphasizing the importance of forced convection in energy transport.
