It has been widely misunderstood that flight below maneuvering speed will provide total protection from structural failure. In response to the destruction of American Airlines Flight 587, a CFR Final Rule was issued clarifying 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". Such actions "may result in structural failures at any speed, including below the maneuvering speed."^[3]

V_A is the design maneuvering speed and is a calibrated airspeed. Maneuvering speed cannot be slower than ${\displaystyle V_{s}{\sqrt {n}}}$  and need not be greater than V_c.^[4]

If ${\displaystyle V_{A}}$  is chosen by the manufacturer to be exactly ${\displaystyle V_{s}{\sqrt {n}}}$  the aircraft will stall in a nose-up pitching maneuver before the structure is subjected to its limiting aerodynamic load. However, if ${\displaystyle V_{A}}$  is selected to be greater than ${\displaystyle V_{s}{\sqrt {n}}}$ , the structure will be subjected to loads which exceed the limiting load unless the pilot checks the maneuver.

The maneuvering speed or maximum operating maneuvering speed depicted on a cockpit placard is calculated for the maximum weight of the aircraft. Some Pilot's Operating Handbooks also present safe speeds for weights less than the maximum.

The formula used to calculate a safe speed for a lower weight is ${\displaystyle \scriptstyle V_{A}{\sqrt {W_{2} \over W_{1}}}}$ , where V_A is maneuvering speed (at maximum weight), W₂ is actual weight, W₁ is maximum weight.^[5]

Some aircraft have a maximum operating maneuvering speed V_O. Note that this is a different concept than design maneuvering speed. The concept of maximum operating maneuvering speed was introduced to the US type-certification standards for light aircraft in 1993.^[1][6] The maximum operating maneuvering speed is selected by the aircraft designer and cannot be more than ${\displaystyle V_{s}{\sqrt {n}}}$ , where V_s is the stalling speed of the aircraft, and n is the maximal allowed positive load factor.^{[citation needed]}

• V speeds
• American Airlines Flight 587

• 14 CFR 23.335 "Design airspeeds"