8 Class Schedule

Class times: MWF 11:00-11:50 in A125 CEB (A building).

Normally, homeworks cover last week's material and are due on Wednesdays. Exceptions occur.

The below schedule is subject to change. Coverage shown is that of an earlier year, not necessarily this year.

• 08/27/18 M
  Syllabus. DVDs. Definition of a continuum. Density and velocity. Velocity and pressure fields.
• 08/29/18 W
  [Kinematics: Flowlines ..., to Onera 59-78]
  Knudsen number. Pressure. Pressure force per unit volume. Coefficient of viscosity.
• 08/31/18 F
  [Kinematics: The material derivative, to Stokes 37-49]
  Lagrangian stagnation point flow. Material derivative. Particle paths. Eulerian stagnation point flow.

• 09/03/18 M LABOR DAY 
• 09/05/18 W Due: HW 1.
  [Kinematics: Kinematics of point ..., to jelly fish 2-16]
  Streamlines and streaklines. Euler equations.
• 09/07/18 F
  [The Deformation of Continuous Media movie on the class movie page]
  Particle deformation. Solid body rotation.

• 09/10/18 M
  [Kinematics: Compressible and incompressible flow, to Newton 50-58]
  Strain rate picture.
• 09/12/18 W Due HW 2.
  [Dynamics: Newton's second law of motion 142-153]
  Finding principal strains and principal directions as eigenvalues and eigenvectors of the strain rate tensor. Rate of relative volume expansion. Continuity for incompressible fluids.
• 09/14/18 F
  [Dynamics: Navier-Stokes equations 154-167]
  Continuity equation for compressible fluids. Molecular basis of stresses. Viscosity. Stress tensor.

• 09/17/18 M
  [Dynamics: Boundary conditions 173-190]
  Newtonian stress tensor. Navier Stokes equations.
• 09/19/18 W Due HW 3.
  [Dynamics: Reynolds Number: 191-199]
  Navier Stokes equations. Boundary conditions.
• 09/21/18 F
  [Control volumes: intro 866-877]
  No slip boundary condition. Kinetic pressure. Heat conduction. Fourier law. Energy equation. Second law form. Dissipation.

• 09/24/18 M
  [Control Volumes: Conservation of mass 881-893]
  Hydrostatics. Kinetic pressure. Boundary conditions. Fourier's law.
• 09/26/18 W Due: HW 4.
  [Control Volumes: Balance of momentum 894-904]
  Material regions. Surface and body forces. Start of control volumes. Mass conservation and mass fluxes. Momentum conservation and momentum fluxes.
• 09/28/18 F
  [Control Volumes: Pressure jet 932-935 (list drag coefficients) and cylinder wake virtual jets 936-938 (explain the error in the drag coefficients)]
  Control volumes. Complete equations. Surface forces. Pipe nozzle.

• 10/01/18 M
  [Control Volumes: Conservation of energy 939-946]
  Control volume analysis of drag in an infinite fluid. Momentum thickness.
• 10/03/18 W Due: HW 5.
  [Dynamics: Low Reynolds number 219-228]
  Displacement thickness. Finite volume example: mass.
• 10/05/18 F
  [Dynamics: Forces: 245-251]
  Finite volume example: momentum. Example incompressible flow field involving a duct.

• 10/08/18 M
  [Dynamics: Reynolds number Gallery 200-218]
  Streamline curvature and pressure. Unidirectional flow: plane Poiseuille flow.
• 10/10/18 W Michael. Not Due: HW 6.
  
• 10/12/18 F Michael.
  

• 10/15/18 M
  [Dynamics: Forces: 252-260]
  Plane Poiseuille flow.
• 10/17/18 W Due: HW 7.
  [Dynamics: 168-172 (CFD) and 261-269 (drag)]
  Head loss. Major head loss.
• 10/19/18 F
  [Dynamics: Stokes flow 229-244]
  Review of exam material. Minor head loss.

• 10/22/18 M
  [Similarity: Dimensionless numbers: 521-533]
  Stokes 2nd problem.
• 10/24/18 W Due: HW 8.
  [Similarity: Forces: 495-508]
  Review. Stokes 2nd problem.
• 10/26/18 F
  Midterm Exam

• 10/29/18 M
  [Similarity: Forces: 509-520]
  Stokes 2nd problem finished. Kelvin theorem. Bathtub vortices.
• 10/31/18 W Due: HW 9.
  [Dynamics: Potential flow: 270-281]
  Kutta-Joukowski law. Stokes theorem. Persistence of irrotational flow. Vortex tubes.
• 11/02/18 F
  [Dynamics: Potential flow: 282-287]
  Biot-Savart law. Straight line vortices. Trailing vorticity system of wings. Trailing vortices. Induced drag. Ground effect. Mirror vortices.

• 11/05/18 M
  [Boundary Layers: 612-621]
  Potential flow and its Bernoulli law. Ideal flow around a cylinder.
• 11/07/18 W Due HW 10.
  [Boundary Layers: 603-611]
  Streamfunction. Complex variables.
• 11/09/18 F
  [Boundary Layers: 622-624, 628-637]
  Overview of complex variable solutions. Basic ideal flows. Superposition. Rankine bodies. Cylinder. Overview of conformal mappings: Joukowski mapping.

• 11/12/18 M VETERANS DAY 
• 11/14/18 W Due: HW 11.
  [Boundary Layers: 638-650]
  Ellipses. Flat plate airfoils. Kutta condition. Lift coefficient. Joukowski airfoils.
• 11/16/18 F
  [Boundary Layers: 651-661]
  Straight surfaces and the Schwarz-Cristoffel mapping. Hodograph plane. Free streamlines in separated flows. Boundary layer coordinates.

• 11/19/18 M
  [Boundary Layers: 662-675]
  Boundary layer separation. Boundary layer equations.
• 11/21/18 W THANKSGIVING
• 11/23/18 F THANKSGIVING 

• 11/26/18 M
  [Boundary Layers: 676-686]
  Boundary layers. Blasius boundary layer.
• 11/28/18 W Due: HW 12.
  [Turbulence: 697-709]
  Blasius solution. Wall shear.
• 11/30/18 F
  [Turbulence: 710-715, 720-726]
  Displacement thickness. Transition.

• 12/03/18 M
  [Turbulence: 727-739]
  Turbulence. Reynolds decomposition. Mixing length.
• 12/05/18 W Due HW 13.
  [Turbulence: 799-806]
  Shear layers, jets, and [wakes].
• 12/07/18 F Due: HW 14.
  Review. Kolmogorov scales? Inertial range? Wall bounded flows?

• 12/12/18 Wednesday 12:30-2:30 pm; FINAL (in the usual classroom).
• 12/18/18 4:00 pm: Grades due online FSU (Available next day)