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