Air Pressure and Aircraft Speed

What is the relationship between aircraft speed and air pressure?

Given that an aircraft flies at sea level at a speed of 220 m/s, what is the highest pressure that can be acting on the surface of the aircraft?

Answer:

The highest pressure that can act at the sea level is the sum of dynamic pressure (due to flowing fluid) and the static pressure (due to stationary fluid).

When an aircraft is flying at sea level, the speed at which it travels affects the air pressure around it. The faster the aircraft travels, the higher the air pressure that can act on its surface. This is due to the relationship between the aircraft speed and the dynamic pressure of the fluid it travels through.

By applying Bernoulli's equation, we can determine the highest pressure on the aircraft. The highest pressure is a combination of the static pressure (due to stationary fluid) and the dynamic pressure (due to flowing fluid).

Static pressure at sea level is equivalent to 1 atmosphere, which is approximately 101325 Pa. On the other hand, dynamic pressure is calculated using the formula P = 0.5 * ρ * V^2, where ρ represents the density of the fluid and V is the velocity of the aircraft.

In this case, with a density of air at sea level temperature being 1.22 kg/m³ and the velocity of the aircraft at 220 m/s, the dynamic pressure is calculated as 29524 Pa. Therefore, the highest pressure that can be acting on the surface of the aircraft is the sum of static pressure and dynamic pressure, resulting in approximately 130849 Pa.

← How to determine the size of a hole using a small hole gauge Projectile motion calculating maximum height →