Human Movement in Fluids

1. Human Movement in Fluids • Gases (air) & liquids are considered to be fluids! • Pressure on the objects in these fluids • Hydrostatic pressure • Blanket analogy • Relative velocity • Velocity of the object in relation to the fluid around it • Wind assisted runs, swimming in a flume, wave pools, etc. • Flow dynamics • Laminar flow (Fig. 8.7) • Turbulent flow (Fig. 8.7) • Fluid properties • Density of the fluid • Specific weight • Viscosity • Atmospheric pressure & temperature

2. Buoyancy • Force due to immersion • Archimedes principle • Magnitude of the buoyant force equals the weight of the fluid displaced by the object Fb = Vd • Center of buoyancy or Center of Volume • Fig. 8.2 • External buoyancy factors • Fluid temperature • Fluid density (ie. salt water) • Buoyancy can affect drag!

3. Drag • Drag force acting on a body in relative motion with respect to a fluid! FD = ½ CD Ap v2 • FD is the Drag force • CD is the Coefficient of drag •  is Fluid density • Ap is the Surface area perpendicular to the flow • v2 is the Relative velocity of the object in relation to the fluid flow • Theoretical Square Law • Drag increases approximately with the square of velocity when relative velocity is low! • If a cyclist doubles their speed and other factors remain constant, the drag force opposing them increases fourfold! Higher velocity, increased drag!

4. Forms of Drag • Surface drag or skin friction or viscous drag • Effects the boundary layer around the object • Form drag or shape drag • Pressure gradient from the front to the rear of the object • Highest form of drag • Equipment design • Wave drag • Interaction between the water and air and then on the object • Thrashing in the water causes “wave drag”

5. Lift Force • Lift • Force acting on a body that in a direction that is perpendicular to the fluid flow • This force can act in any direction • Hand out the window on a highway! • Being dragged through the water! • Factors affecting Lift • Coefficient of lift • Fluid density • Projected surface area • Relative velocity of the object to the fluid FL = 1/2 CLApv2

6. Factors Affecting Lift • Coefficient of Lift • Unitless value that is an index of a body’s ability to generate lift • Table 15-2 (Hall text: Page 525) • Factors Affecting the Magnitudes of Fluid Forces • Buoyant force • Skin friction • Form drag • Wave drag • Lift force

7. Foil Shape • Foil • Shape of an object conducive to generating lift • Figure 8.12 • Bernoulli’s principle • Inverse relationship between relative velocity of the object and the relative pressure in a fluid flow!

8. Angle of Attack • Angle of orientation of the projectile with respect to the fluid flow! • Alpha () affects horizontal displacement • Examples • Frisbee shape • Vortec footballs • Swirl footballs • Whoosh • Figure 15-13 (Hall text: Page 527)

9. Lift/Drag Ratio • An optimum angle of attack for maximizing horizontal displacement occurs at the maximum lift/drag ratio! • Figure 8.10 & 8.11

10. Magnus Effect • Magnus force is the lift force directed from the high pressure region to the low pressure region! • Figure 8.13 • Figure 15-16 (Hall text)