| SES # | TOPICS | LECTURE NOTES |
|---|---|---|
| L1 | Introduction Fluids vs. Solids Liquids vs. Gases | (PDF) |
| Basic Equations | ||
| L2 | Description of a Flow Flow Visualization - Flow Lines Concept and Consequences of Continuous Flow Material/Substantial/Total Time Derivative Langrangian and Eulerian Time Derivative | (PDF) |
| L3 | Stress Tensor Mass and Momentum Conservation | (PDF) |
| L4 | Newtonian Fluids Navier-Stokes Equations Boundary Conditions Surface Tension Body Forces - Gravity | (PDF) |
| Similitude | ||
| L5 | Dimensional Analysis | (PDF) |
| L6 | Similarity Parameters Using Governing Equations and Boundary Conditions Using Physical Arguments Importance | (PDF) |
| Ideal Fluid Flow | ||
| L7 | Governing Equations and Boundary Conditions Circulation - Kelvin's Theorem Vorticity | (PDF) |
| L8 | Properties of Vortex Structures Bernoulli Equation for Steady, Ideal, and Rotational Flow | (PDF) |
| L9 | Vorticity Equation Potential Flow | (PDF) |
| L10 | Governing Equations and Boundary Conditions for P-Flow Linear Superposition for P-Flow Laplace Equation Simple Potential Flows | (PDF) |
| L11 | Method of Images D'Alembert's Paradox Lift Due to Circulation | (PDF) |
| L12 | Lifting Surfaces Potential Flow and Kutta Condition Thin Wing, Small Angle of Attack | (PDF) |
| L13 | Unsteady Motion - Added Mass General 6 Degrees of Freedom Motions | (PDF) |
| L14 | Properties of Added-Mass Coefficients Slender Body Approximation Buoyancy Effects Due to Accelerating Flow | (PDF) |
| Real Fluid Effects | ||
| L15 | Form Drag | (PDF) |
| L16 | Drag on a Very Streamlined Body Known Solutions of the Navier-Stokes Equations Boundary Layer Growth Over an Infinite Flat Plate for Unsteady Flow | (PDF) |
| L17 | Laminar Boundary Layers Steady Flow over a Flat Plate Flow Over a Body of General Geometry | (PDF) |
| L18 | Turbulent Flow - Reynolds Stress Turbulent Boundary Layer Over a Smooth Flat Plate | (PDF) |
| L19 | Turbulent Boundary Layers: Roughness Effects Model Testing | (PDF) |
| Water Waves | ||
| L20 | Exact (Nonlinear) Governing Equations for Surface Gravity Waves Linearized (Airy) Wave Theory Characteristics of Linear Plane Progressive Waves Particle Orbits (PDF) | (PDF) |
| L21 | Superposition of Linear Plane Progressive Waves Wave Energy Energy Propagation - Group Velocity Energy Conservation Equation Steady Ship Waves, Wave Resistance | (PDF) |
| L22 | Wave Forces on a Body | (PDF) |