Auftrieb (Lift)
Embed This Widget
Add the script tag and a data attribute to embed this widget.
Embed via iframe for maximum compatibility.
<iframe src="https://planefyi.com/iframe/glossary/lift/" width="420" height="400" frameborder="0" style="border:0;border-radius:10px;max-width:100%" loading="lazy"></iframe>
Paste this URL in WordPress, Medium, or any oEmbed-compatible platform.
https://planefyi.com/glossary/lift/
Add a dynamic SVG badge to your README or docs.
[](https://planefyi.com/glossary/lift/)
Use the native HTML custom element.
Definition
Die aerodynamische Kraft senkrecht zur Luftströmung, die ein Flugzeug in der Luft hält.
Was ist Auftrieb?
Lift is the aerodynamic force that acts perpendicular to the relative airflow and supports an aircraft in flight. It is the fundamental force that opposes gravity and allows heavier-than-air machines to become airborne. Without sufficient lift, no aircraft — from a Cessna 172 to an Airbus A380 — can remain aloft.
Funktionsweise
Lift is generated primarily by the wings as air flows over and under them. Two complementary principles explain its generation:
- Bernoulli's Principle: The wing's cambered (curved) upper surface forces air to travel a longer path than the flatter lower surface. This accelerates the upper airflow, reducing pressure above the wing. The higher pressure beneath the wing pushes upward, producing lift.
- Newton's Third Law: The wing deflects incoming air downward. The reaction force pushes the wing — and the aircraft — upward.
Lift (L) is calculated as: L = ½ × ρ × V² × S × CL, where ρ is air density, V is airspeed, S is wing area, and CL is the coefficient of lift. This formula shows that doubling airspeed quadruples lift — a critical relationship for pilots during takeoff and approach.
Bedeutung in der Luftfahrt
Lift determines an aircraft's maximum takeoff weight, cruise altitude, and approach speed. Wing design — including aspect ratio, camber, and sweep — is optimized to maximize lift while minimizing drag. High-lift devices such as flaps and slats increase the wing's CL during low-speed flight, allowing aircraft to operate at manageable V-speeds on shorter runways.
The angle of attack directly controls lift up to the critical AoA, beyond which a stall occurs. Pilots must manage this relationship constantly, especially during takeoff rotation and final approach.
Auswirkungen in der Praxis
The Boeing 747-400 generates approximately 900,000 lbf of lift at maximum takeoff weight — enough to keep 412 tonnes airborne across the Pacific. The Airbus A380's 845 m² wing area is specifically designed to generate adequate lift at relatively low approach speeds, reducing stress on airframe and runway. In contrast, the Concorde used a delta wing that generated lift through vortex flow rather than classical Bernoulli effects, allowing it to cruise efficiently at Mach 2.
Related Terms
Anstellwinkel
Der Winkel zwischen der Profilsehne des Flügels und der anströmenden Luft, der die erzeugte Auftriebsmenge bestimmt.
Bodeneffekt
Der erhöhte Auftrieb und verringerte Widerstand beim Fliegen sehr nah über dem Boden.
Luftwiderstand
Die aerodynamische Kraft, die der Bewegung eines Flugzeugs durch die Luft entgegenwirkt.
Strömungsabriss
Ein Zustand, bei dem ein Flügel seinen kritischen Anstellwinkel überschreitet und den Auftrieb plötzlich verliert.
V-Geschwindigkeiten
Standardisierte Referenzgeschwindigkeiten, die kritische Flugphasengrenzen definieren.
Wirbelschleppe
Die rotierenden Wirbel gestörter Luft hinter einem fliegenden Flugzeug, die eine ernste Gefahr für nachfolgende Flugzeuge darstellen.
Wright Flyer
Das erste erfolgreiche schwerer-als-Luft-Motorflugzeug, entworfen und gebaut von Orville und Wilbur Wright, das am 17. Dezember 1903 in Kitty Hawk, North Carolina, vier kurze Flüge absolvierte.