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Summary of Chapter 4 Equations

Summary of Chapter 4 Equations. Basic Fluid Flow Equations. Book Bernoulli “Momentum Equation” is actually the Energy Equation for incompressible fluid flow (as derived in class) . Isentropic (Adiabatic, Reversible) Processes. Isentropic Flow. Viscous Flow (Relevant to Boundary Layers).

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Summary of Chapter 4 Equations

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  1. Summary of Chapter 4 Equations

  2. Basic Fluid Flow Equations Book Bernoulli “Momentum Equation” is actually the Energy Equation for incompressible fluid flow (as derived in class)

  3. Isentropic (Adiabatic, Reversible) Processes

  4. Isentropic Flow

  5. Viscous Flow (Relevant to Boundary Layers)

  6. Turbulent, Incompressible Boundary Layer

  7. Viscous EffectsLaminar Boundary Layer Drag

  8. Viscous EffectsTurbulent Boundary Layer Drag Whenever a Boundary Layer encounters an adverse pressure gradient (pressure increasing with distance), it can readily separate from the surface causing decrease in lift, increase in drag, leading to stall (discussed in detail in Chaper 5)

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