Compressible Fluid Dynamics: AAE 210 (Spring 2003)
University of Illinois Urbana-Champaign
Topics: Compressible fluid mechanics including, one-dimensional compressible flow, shock and expansion waves, unsteady wave motion, linearized flow, and method of characteristics.

Undergraduate Laboratory I: MAE 650:431 (Fall 2000, 2001)
Rutgers, The State University of New Jersey
Topics: Laboratory experiments in the areas of aerodynamics, fluid mechanics, thermodynamics, materials, vibration, controls, and heat transfer.

Undergraduate Laboratory II: MAE 650:432/433 (Spring 2000,2001,2002)
Rutgers, The State University of New Jersey
Topics: Laboratory experiments in the areas of fluid mechanics, thermodynamics, materials, vibration, robotics, and heat  transfer.

Aerodynamics: MAE 650:460 (Spring 1999, Spring 2000)
Rutgers, The State University of New Jersey
Topics: Introduction to aerodynamics including, incompressible and compressible inviscid flow, potential flow, thin airfoil theory, finite wing design, aircraft design, and viscous flow.

Mechanics of Compressible Flows MAE 650-535 (Spring 1998)
Rutgers, The State University of New Jersey
Topics: Graduate level course in compressible fluid mechanics including, one and two-dimensional compressible flow, linearized flow, axisymmetric flow, numerical methods, experimental methods, and viscous compressible flows.

Optics and Laser Diagnostics MAE 650:485 (New Course Spring 1997, Fall 1999)
Rutgers, The State University of New Jersey
Topics: New course developed to teach basic concepts in optics and quantum mechanics (geometric optics, wave optics, fluorescence and absorption, lasers), flow/combustion and vibration diagnostics including Schlieren photography, interferometry, laser Doppler velocimetry, and laser induced fluorescence.

Compressible Fluid Dynamics: MAE 650:463 (Fall 1996, Fall 1998)
Rutgers, The State University of New Jersey
Topics: Compressible fluid mechanics including, one-dimensional compressible flow, shock and expansion waves, unsteady wave motion, linearized flow, and method of characteristics.

Fluid Mechanics: MAE 650:312 (Fall 1995, Spring 1996, Fall 2003)
Rutgers, The State University of New Jersey
Topics: Introduction to fluid mechanics including, fundamental concepts, fluid statics, basic equations in integral and differential form, incompressible flows, and dimensional analysis.

Fluid Dynamics II, ME 504
The Ohio State University
Topics: Dimensional analysis, incompressible inviscid and viscous flow, turbulence, and compressible flow.