What does increased camber in an airfoil design typically result in?

Increased camber in an airfoil design typically results in increased lift. Camber refers to the curvature of the airfoil; by enhancing this curvature, the airfoil can more effectively redirect the airflow over its surface. This creates a difference in air pressure between the upper and lower surfaces of the wing.

When the camber is increased, the airfoil generates more lift because the air moves faster over the top surface, resulting in lower pressure there compared to the bottom surface. The higher pressure below the wing pushes upward, enhancing the lift force acting on the airfoil. This principle is fundamental in aerodynamics, as the shape and design of an airfoil are critical for optimizing performance, especially in terms of lift generation.

Therefore, increasing the camber is an effective way to improve lift capabilities, especially at lower speeds or during certain flight conditions.