adjective relating to or concerned with the production, transmission, or effects of sound in the air or other gases
Aeroacoustic principles are applied in engineering to design quieter products such as aircraft, cars, and industrial machinery.
In aeronautics, aeroacoustic studies focus on understanding and reducing noise generated by aircraft components such as engines, wings, and landing gear.
Aeroacoustic research plays a crucial role in aerospace engineering to improve the acoustic performance of aircraft and spacecraft.
Aeroacoustics combines fluid dynamics and acoustics to study the interaction between airflow and sound generation in various applications.
Aeroacoustics is a sub-discipline of acoustics that deals with the study of noise generation by aerodynamic forces.
Aeroacoustic techniques are used in noise control strategies to mitigate the impact of noise pollution in different environments.
Aeroacoustic engineers study the noise produced by aircraft and other aerospace vehicles to improve design and reduce noise pollution.
Researchers in aeroacoustics investigate the fundamental principles of how sound is generated by fluid flow and work on developing new technologies to control noise in various applications.
Pilots may be trained in aeroacoustics to understand how different flight conditions can affect the noise levels produced by the aircraft they operate.
Acoustic consultants specializing in aeroacoustics provide expertise in assessing and mitigating noise issues related to aircraft, airports, and other aviation-related activities.