In the Fall of 2019, I developed and taught a course in Flight Test Engineering to a select group of undergraduates in Aerospace Engineering and Physics.

Topics were divided into 1) performance, 2) stability & control, and 3) logistics, operations & hardware.

• Performance
  • Atmosphere
  • Airspeed
  • Airspeed & Static Port calibration
  • Takeoff
  • Stall
  • Climb Theory
  • Sawtooth climbs
  • Level acceleration & Excess power
  • Level Flight Performance
• S&C
  • S&C Theory
  • Neutral Point Estimation
  • Stick Forces, Stick force per g
  • Maneuvering Point
  • 6 DOF Aircraft Dynamics
    • Phugoid
    • Short period
    • Spiral
    • Roll substidence
    • Dutch roll
  • Flying & Handling Qualities
  • Inertial Coupling
• Logistics, operations, & hardware
  • Data reduction
  • Flight test instrumentation
  • Telemetry
  • System identification

Lecture note samples:

The students were required to learn the theory, maneuvers, and analysis necessary to conduct flight testing. We used experimental data collected by the instructor (me) and the students.

Textbook: I assigned Kimberlin’s Flight Testing of Fixed Wing Aircraft; however, Ward’s Introduction to Flight Test Engineering was a primary resource.