Drag Equation for Flaps Calculator

The drag equation for flaps is a fundamental formula used in aircraft design to calculate the additional drag force generated when flaps are deployed. Flaps are extended on an aircraft’s wings to increase lift during takeoff and landing, but they also introduce additional drag. The drag equation for flaps helps engineers and pilots understand how the deployment of flaps affects the aircraft’s performance.

The formula is based on aerodynamic principles and is an extension of the basic drag equation.The drag equation for flaps is given as:

  • (D) is the drag force generated by the flaps (in Newtons, N).
  • (Cd) is the coefficient of drag for the flaps (dimensionless). This coefficient depends on the flap’s angle of deflection, airfoil characteristics, and other factors.
  • (ρ) (rho) is the air density (in kilograms per cubic meter, kg/m³).
  • (A) is the wing area affected by the flaps (in square meters, m²). This area includes the portion of the wing covered by the flaps.
  • (V) is the velocity of the aircraft relative to the air (in meters per second, m/s).

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