noun the study of the motion of air and other gases and of the effects of such motion on bodies in the gas
Aerodynamics is considered in the design of structures like bridges and buildings to ensure stability in windy conditions.
In aeronautics, aerodynamics is essential for designing efficient aircraft that can achieve lift and minimize drag.
Aerodynamics plays a crucial role in designing cars that are aerodynamically efficient to reduce drag and improve fuel efficiency.
Aerodynamics is important in the design of wind turbines to maximize energy extraction from the wind.
Aerodynamics is a key factor in sports equipment design, such as in cycling for reducing air resistance and improving speed.
A writer may incorporate information about aerodynamics in their articles or books when discussing topics related to aviation, space exploration, or engineering.
Engineers use principles of aerodynamics when designing airplanes, cars, and other vehicles to optimize their performance and efficiency.
Pilots rely on their understanding of aerodynamics to control and maneuver aircraft safely and efficiently during flight.
Race car drivers utilize aerodynamic principles to improve the speed and handling of their vehicles on the track.
Aerospace engineers specialize in designing and testing aircraft and spacecraft using advanced aerodynamic concepts.