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Laminar flow
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Related lectures (30)
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Microfluidics: Scaling Laws and Applications
Explores microfluidics fundamentals, including Reynolds number, vortices, swimming behavior, sedimentation, pressure drop, flow profiles, and particle manipulation.
CVD: Theoretical Concepts and Boundary Layers
Explores theoretical concepts in CVD, focusing on boundary layers and the Reynolds number.
Fluid Friction: Understanding Forces and Motion
Explores fluid friction, Newton's laws application, laminar vs turbulent flow, and velocity calculation.
Fluid Dynamics: Reynolds Number and Flow Characteristics
Covers the Reynolds number, flow characteristics, mass flow, and continuity equations in fluid dynamics.
Fluid Mechanics: Hydrodynamics
Covers the principles of fluid mechanics, focusing on hydrodynamics and forces in liquids.
Instability: optimal perturbations and lift-up mechanisms
Explores the instability of various flow types and lift-up mechanisms in boundary layers.
Fluids: Modeling and Simulation
Explores the simulation of fluid flow between parallel walls using COMSOL Multiphysics.
Cardiovascular Regulation: Microcirculation and Blood Flow Control
Explores microcirculation control, blood flow regulation, and cardiovascular adaptation to exercise.
Viscous Fluid Dynamics: Reynolds Number and Flow Characteristics
Explores the impact of Reynolds number on fluid flow characteristics and similitude in experimental setups.
Turbulence: Numerical Flow Simulation
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
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