Airfoil Data
EIFFEL10

Eiffel 10 (Wright) - 1903 Wright Flyer airfoil

Max Thickness

7.18%

Max Camber

3.59%

0.15 0.05 -0.05 -0.15

0.0 0.2 0.4 0.6 0.8 1.0

Chord (x/c)

Click to expand

Wing Geometry Simulator

Live Geometry

Aspect Ratio 3.33

Area (S) 0.300m²

MAC 0.311m

Taper (λ) 0.50

Params

Span 1.00 m

Root Chord 0.40 m

Tip Chord 0.20 m

Washout 0.0°

Angle of Attack 5.0°

The Eiffel 10 (Wright) - 1903 Wright Flyer airfoil is a thin 7.2% chord-thickness airfoil with a maximum camber of 3.6% at 40% chord, suited to high-speed UAVs, sailplane tip sections, and propeller blade design. At zero angle of attack the cambered geometry generates positive lift, giving an estimated zero-lift angle of -3.6°.

Thin airfoil theory predicts a stall angle near 11.8° and a peak lift-to-drag ratio around 56 at typical UAV and light-aircraft Reynolds numbers — useful benchmarks before running a full XFOIL or NeuralFoil polar. The slim profile minimises pressure drag at higher speeds but leaves limited spar depth for structural integration.

Designers evaluating the EIFFEL10 typically compare it against profiles of similar thickness: NACA M16 AIRFOIL, BE50 (smoothed), NACA 5-H-10 AIRFOIL, GOE 368 AIRFOIL, E169 (14.4%). The GOE 346 (FRIEDRICHSHAFEN-STAAKEN) AIRFOIL is another reference profile frequently considered alongside it.

Related Airfoils

Engineers evaluating the EIFFEL10 frequently compare it against profiles with comparable geometric constraints. Below are the closest matches based on maximum thickness (7.2%) and max camber (3.6%).

Similar by Thickness