Transcription of 6Microfluidics Theory handouts
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Fluidic Dynamics Dr. Thara Srinivasan Lecture 17. EE C245. Picture credit: A. Stroock et al., Microfluidic Picture credit:mixing Sandiaon a chip Lab National Lecture Outline Reading From S. Senturia, Microsystem Design, Chapter 13, Fluids, . Today's Lecture Basic Fluidic Concepts Conservation of Mass Continuity Equation Newton's Second Law Navier-Stokes Equation Incompressible Laminar Flow in Two Cases Squeeze-Film Damping in MEMS. EE C245. 2. U. Srinivasan . 1. Viscosity Fluids deform continuously in presence of shear forces For a Newtonian fluid, Shear stress = Viscosity Shear strain N/m2 [=] (N s/m2) (m/s)(1/m).
1 EE C245 Picture credit: Sandia National Lab Fluidic Dynamics Dr. Thara Srinivasan Lecture 17 Picture credit: A. Stroock et al., Microfluidic mixing on a chip
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