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Lecture
Arterial Flow Modeling
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Related lectures (28)
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Understanding Viscosity: Newtonian Fluids
Explores viscosity in Newtonian fluids, discussing shear stress, shear strain rate, and compressibility, with examples of shear thickening and shear thinning behaviors.
Laminar Flow: Shear between Parallel Plates
Explores laminar shear flow between parallel plates for incompressible fluids.
Turbulence: Numerical Flow Simulation
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Viscous Flow in Newtonian Fluids
Explores viscous flow in Newtonian fluids, focusing on no-slip conditions and laminar shear flow equations.
Introduction to Fluid Mechanics: Basic Principles and Properties
Introduces fluid mechanics, covering definitions, fundamental laws, and properties of fluids.
Fluid Mechanics: Foundations and Applications
Covers the foundations of fluid mechanics, focusing on flow problem descriptions and solutions.
Numerical Flow Simulation: Boundary Conditions
Covers the numerical simulation workflow for fluid dynamics, focusing on boundary conditions and their importance for solution convergence.
Incompressible Fluid Mechanics
Explores incompressible fluid mechanics, covering viscosity, pressure distribution, force balance, and neglecting shearing faces.
Hydrostatics: Understanding Fluid Behavior at Rest
Covers hydrostatics, focusing on fluids at rest and the behavior of pressure within them.
Fluid Dynamics: Differential Conservation Laws and Equations
Covers the differential approach to fluid dynamics, focusing on conservation laws and the Cauchy stress tensor.
