What is the effect of using a smaller skirt hole on a hovercraft?

Using a smaller skirt hole on a hovercraft leads to increased lift efficiency because it reduces air loss. The skirt of a hovercraft is designed to trap air and create a cushion that allows the craft to float above the ground. When the hole or openings in the skirt are smaller, there is less space for air to escape, allowing for a greater buildup of pressure underneath the hovercraft. This pressure is crucial, as it contributes to the lift force that keeps the hovercraft elevated off the surface.

With a more effective seal created by smaller holes, the hovercraft can maintain lift with less airflow, leading to more efficient use of the power provided by the fan or air propulsion system. This configuration allows for better control and potentially higher speeds, as the craft does not need to work as hard to maintain lift.

In contrast, larger holes would allow more air to escape and could lead to a decrease in lift efficiency due to the rapid loss of air pressure underneath the craft. As a result, having a smaller skirt hole enhances the way a hovercraft operates within its design parameters.