The rudder controls movement of the aircraft about its vertical axis. This motion is called yaw. Like the other primary control surfaces, the rudder is a movable surface hinged to a fixed surface, in this case to the vertical stabilizer, or fin. Moving the left or right rudder pedal controls the rudder.

When the rudder is deflected into the airflow, a horizontal force is exerted in the opposite direction. [Figure 5-15] By pushing the left pedal, the rudder moves left. This alters the airflow around the vertical stabilizer/rudder, and creates a sideward lift that moves the tail to the right and yaws the nose of the airplane to the left. Rudder effectiveness increases with speed; therefore, large deflections at low speeds and small deflections at high speeds may be required to provide the desired reaction. In propeller-driven aircraft, any slipstream flowing over the rudder increases its effectiveness.

Related posts:

1. High Speed Flight – High Speed Flight Controls
2. Flight Controls (Part Four) – Elevator
3. Flight Controls (Part Two) – Adverse Yaw
4. Flight Controls (Part Three) – Ailerons
5. Flight Controls (Part Five) – T-Tail

Tagged as: Flight Controls, rudder, yaw