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Lecture
Fluidics: Fundamentals and Applications
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Related lectures (28)
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Fluid Dynamics: Eulerian and Lagrangian Approaches
Covers the Eulerian and Lagrangian approaches in fluid dynamics, emphasizing their applications in analyzing fluid flow.
Drag on a Sphere and Newtonian Fluid Mechanics
Covers the analysis of drag on a sphere in Newtonian fluid mechanics, focusing on key parameters and the significance of Reynolds number.
Incompressible Fluid Mechanics: Pathlines and Streaklines
Covers the fundamentals of incompressible fluid mechanics, focusing on pathlines and streaklines to visualize fluid flow behavior.
Diffusion in Fluids: Understanding Mass Transport
Covers diffusion, focusing on mass transport in fluids and its mathematical formulation.
Internal Forced Convection: Hydrodynamic Aspects
Covers the hydrodynamic and thermal aspects of internal forced convection.
Fluid Dynamics: Differential Conservation Laws and Equations
Covers the differential approach to fluid dynamics, focusing on conservation laws and the Cauchy stress tensor.
Drag on a Sphere and Newtonian Fluid Mechanics
Explores drag on a sphere in Newtonian fluid mechanics, focusing on key parameters and the significance of the Reynolds number in determining the drag force.
Fluid Dynamics Basics: Turbomachinery Applications
Provides an overview of fluid dynamics principles crucial for turbomachinery design and analysis.
Flow Classifications
Explores classifications of flow based on stability, fluctuations, compressibility, and viscosity.
Laminar Flows: Microfluidics and Applications
Explores laminar flows in microfluidics, including flow profiles, hydrodynamic focusing, bioprinting, cell lysis, and fluorescence-assisted cell sorting.
