Lectures
- 1. Sensitivity Analysis
- 2. Kinematics of a Fluid Element
- 3. Stress-Strain Relationship
- 4. Coordination Transformations for Strain and Stress Rates
- 5. Compressible and Incompressible Fluid Element Motion Chart
- 6. Compressible Viscous Equations
- 7. Compressible Equations
- 8. Equations of Aircraft Motion
- 9. Brequet Range Equation
- 10. Aerodynamic Center
- 11. Notes on CQ 1
- 12. Quick Visit to Bernoulli Land
- 13. Kutta Condition
- 14. Kutta Condition Solution
- 15. Thin Airfoil Theory Summary
- 16. Important Concepts in Thin Airfoil Theory
- 17. Prandtl's Lifting Line Introduction
- 18. Force Calculations for Lifting Line
- 19. Trefftz Plane Analysis of Induced Drag
- 20. Solution to Problem 1
- 21. Viscous Flow: Stress Strain Relationship
- 22. Integral Boundary Layer Equations
- 23. Correlation Methods for Integral Boundary Layers
- 24. Method of Assumed Profiles
- 25. Falkner-Skan Flows
- 26. Effect of Turbulent Fluctuations on Mean Flow
- 27. Poiseuille Flow Through a Duct in 2-D
- 28. Duct Flow (cont)
- 29. Laminar Boundary Layer Order of Magnitude Analysis
- 30. Solutions of the Laminar Boundary Layer Equations
- 31. Similarity in Wind Tunnel Testing
- 32. Single Horseshoe Vortex Wing Model
- 33. Ground Effect Using Single Vortex Model
- 34. Three-Dimensional Wall Effects
- 35. Drag Tare Due to Mount
- 36. Subsonic Small Disturbance Potential Flow
- 37. Critical Mach Number
- 38. Behavior of Isentropic Flow in Quasi-1D
- 39. Derivation of Sound Wave Properties
- 40. Waves in 1D Compressible Flow
- 41. Normal Shock Waves
- 42. Propagation of Disturbances By a Moving Object
- 43. Linearized Compressible Potential Flow Governing Equation
- 44. Implications of Linearized Supersonic Flow on Airfoil Lift and Drag
- 45. Oblique Shock Waves
- 46. Prandtl-Meyer Expansion Waves
- 47. Computational Methods for the Euler Equations
- 48. Structured vs. Unstructured Grids
- 49. Solution Convergence
Aerodynamics - Lecture 27
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Lecture 27 - Poiseuille Flow Through a Duct in 2-D
Poiseuille Flow Through a Duct in 2-D
Prof. David Darmofal
16.100 Aerodynamics, Fall 2005 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2009-04-28 License: Creative Commons BY-NC-SA |
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