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Lecture
Introduction to Hydrodynamics
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Related lectures (31)
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Fluid Dynamics Basics: Turbomachinery Applications
Provides an overview of fluid dynamics principles crucial for turbomachinery design and analysis.
Boundary Layers: Recap and Effects on Drag and Lift
Covers the importance of boundary layers, viscosity effects on drag and lift.
Introduction to Hydrodynamics
Covers drag reduction, two-phase flows, geophysics, tidal energy harvesting, fish propulsion, flow classifications, instabilities, turbulence, and computational tools.
Viscous Fluid Dynamics: Reynolds Number and Flow Characteristics
Explores the impact of Reynolds number on fluid flow characteristics and similitude in experimental setups.
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 Concepts: Reynolds Decomposition and Closure Problem
Explores Reynolds decomposition, closure problem, and turbulence modeling challenges.
Lattice Boltzmann: Turbulence Onset
Explores lattice Boltzmann's role in studying turbulence onset and its advantages in hydrodynamics.
Reynolds Decomposition: Understanding Turbulence
Explores the Reynolds decomposition method for studying turbulent flows.
Pressure Drop in Closed-Flow Systems
Explores pressure drop in closed-flow systems, including minor losses and exercises on fluid transfer and pump power.
Fluid Dynamics: Reynolds Number and Flow Characteristics
Covers the Reynolds number, flow characteristics, mass flow, and continuity equations in fluid dynamics.
