FAA To Amend Airworthiness Standards to Transport Airplanes

On November 12, 2001, American Airlines Flight 587, an Airbus Industrie Model A300-605R airplane, crashed shortly after takeoff from New York's John F. Kennedy International Airport. All 260 people aboard the airplane and 5 people on the ground were killed. The airplane was destroyed by impact forces and a post-crash fire. The National Transportation Safety Board (NTSB) determined ``that the probable cause of this accident was the in-flight separation of the vertical stabilizer as a result of the loads beyond ultimate design loads that were created by the first officer's unnecessary and excessive rudder pedal inputs.''

The NTSB's investigation revealed that many pilots might have a general misunderstanding of what the design maneuvering speed (VA) is and the extent of structural protection that exists when an airplane is operated at speeds below its VA. The NTSB found that many pilots of transport category airplanes believe that, as long as they are below the airplane's VA, they can make any control input they desire without risking structural damage to the airplane.

VA is a structural design airspeed used in determining the strength requirements for the airplane and its control surfaces. The structural loads resulting from certain movements of the control surfaces at or below VA must be taken into account during the design of a transport category airplane. The structural design standards only consider a single full control input in any single axis.


FAA To Amend Airworthiness Standards to Transport Airplanes By Mike Mitchell

		September 14, 2009, The Federal Aviation Administration proposes to amend the airworthiness standards applicable to transport category airplanes to clarify that flying at or below the design maneuvering speed does not allow a pilot to make multiple large control inputs in one airplane axis or single full control inputs in more than one airplane axis at a time without endangering the airplane’s structure. This proposed regulation is the result of an accident investigation and responds to a National Transportation Safety Board recommendation. The results of the accident investigation indicate that many pilots might have a general misunderstanding of what the design maneuvering speed (VA) is and the extent of structural protection that exists when an airplane is operated at speeds below its VA. This action is being taken to prevent this misunderstanding from causing or contributing to a future accident.

On November 12, 2001, American Airlines Flight 587, an Airbus Industrie Model A300-605R airplane, crashed shortly after takeoff from New York's John F. Kennedy International Airport. All 260 people aboard the airplane and 5 people on the ground were killed. The airplane was destroyed by impact forces and a post-crash fire. The National Transportation Safety Board (NTSB) determined ``that the probable cause of this accident was the in-flight separation of the vertical stabilizer as a result of the loads beyond ultimate design loads that were created by the first officer's unnecessary and excessive rudder pedal inputs.'' The NTSB's investigation revealed that many pilots might have a general misunderstanding of what the design maneuvering speed (VA) is and the extent of structural protection that exists when an airplane is operated at speeds below its VA. The NTSB found that many pilots of transport category airplanes believe that, as long as they are below the airplane's VA, they can make any control input they desire without risking structural damage to the airplane. VA is a structural design airspeed used in determining the strength requirements for the airplane and its control surfaces. The structural loads resulting from certain movements of the control surfaces at or below VA must be taken into account during the design of a transport category airplane. The structural design standards only consider a single full control input in any single axis.