aerodynamic sound

简明释义

空气动力声

英英释义

例句

1.The engineers conducted tests to measure the aerodynamic sound 空气动力学声音 produced by the new car design.

工程师们进行了测试，以测量新车设计所产生的aerodynamic sound 空气动力学声音。

2.During the flight simulation, the aerodynamic sound 空气动力学声音 of the aircraft was analyzed for performance improvements.

在飞行模拟中，分析了飞机的aerodynamic sound 空气动力学声音以改进性能。

3.The aerodynamic sound 空气动力学声音 created by the wind tunnel helped researchers refine their models.

风洞产生的aerodynamic sound 空气动力学声音帮助研究人员完善他们的模型。

4.The aerodynamic sound 空气动力学声音 of the racing car was a key factor in its overall speed.

赛车的aerodynamic sound 空气动力学声音是其整体速度的关键因素。

5.Motorcycle designers focus on reducing aerodynamic sound 空气动力学声音 to enhance rider comfort.

摩托车设计师专注于减少aerodynamic sound 空气动力学声音以提高骑行者的舒适度。

作文

In the world of aerodynamics, the concept of sound plays a significant role in understanding how objects interact with air. The term aerodynamic sound refers to the noises generated by the movement of an object through the air. This phenomenon is particularly important in fields such as aerospace engineering and automotive design, where reducing noise can enhance performance and comfort. As vehicles travel at high speeds, the air pressure and flow around them create various sounds, and engineers must study these effects to improve their designs.For instance, when an airplane takes off, it generates a range of aerodynamic sound that can be heard both inside and outside the cabin. These sounds are not merely a byproduct of flight; they provide valuable information about the aircraft's performance. Engineers analyze the frequencies and intensities of these sounds to identify areas for improvement. By minimizing unwanted noise, they can enhance the passenger experience while ensuring that the aircraft remains efficient and safe.Moreover, the study of aerodynamic sound extends beyond aviation. In the automotive industry, manufacturers strive to create vehicles that are not only fast but also quiet. The noise produced by wind resistance and engine operation can significantly impact the driving experience. Therefore, engineers use advanced simulation tools to predict how aerodynamic sound will affect a car's performance. By optimizing the shape of the vehicle and incorporating sound-dampening materials, they can reduce noise levels, making the ride more enjoyable for passengers.The implications of aerodynamic sound are also evident in sports. Athletes and coaches often analyze the sounds produced by equipment, such as bicycles or racing cars, to gain a competitive edge. For example, cyclists may adjust their riding position to minimize drag and, consequently, the aerodynamic sound created by air resistance. This attention to detail can make a significant difference in races, where every fraction of a second counts.Furthermore, the environmental impact of aerodynamic sound cannot be overlooked. As urban areas expand, noise pollution becomes a pressing concern. Engineers and city planners must consider how aerodynamic sound from traffic can affect the quality of life for residents. Implementing sound barriers and designing roads that minimize noise generation are essential steps in creating quieter, more livable cities.In conclusion, aerodynamic sound is a multifaceted concept that intersects with various industries, including aviation, automotive, sports, and urban planning. Understanding and managing this sound is crucial for enhancing performance, comfort, and environmental sustainability. As technology continues to advance, the ability to analyze and optimize aerodynamic sound will play an increasingly vital role in shaping the future of transportation and urban living. By prioritizing this aspect of design, we can create a world that is not only faster and more efficient but also quieter and more pleasant for everyone.

在空气动力学的世界中，声音的概念在理解物体如何与空气相互作用方面发挥着重要作用。术语aerodynamic sound指的是物体通过空气运动时产生的噪音。这一现象在航空航天工程和汽车设计等领域尤为重要，因为减少噪音可以提高性能和舒适性。当车辆以高速行驶时，周围的空气压力和流动会产生各种声音，工程师必须研究这些影响，以改善他们的设计。例如，当飞机起飞时，它会产生一系列的aerodynamic sound，无论是在机舱内外都能听到。这些声音不仅仅是飞行的副产品；它们提供了关于飞机性能的重要信息。工程师分析这些声音的频率和强度，以识别改进的领域。通过最小化不必要的噪音，他们可以提升乘客体验，同时确保飞机的高效和安全。此外，aerodynamic sound的研究超越了航空领域。在汽车工业中，制造商努力创造不仅快速而且安静的车辆。风阻和发动机运作产生的噪音会显著影响驾驶体验。因此，工程师使用先进的模拟工具来预测aerodynamic sound将如何影响汽车的性能。通过优化车辆的形状并采用隔音材料，他们可以降低噪音水平，使乘客的乘坐体验更加愉悦。aerodynamic sound的影响在体育运动中也显而易见。运动员和教练经常分析设备产生的声音，如自行车或赛车，以获得竞争优势。例如，自行车运动员可能会调整骑行姿势，以最小化阻力，从而减少空气阻力产生的aerodynamic sound。这种对细节的关注在比赛中可能产生重大差异，因为每一毫秒都至关重要。此外，aerodynamic sound对环境的影响也不容忽视。随着城市地区的扩张，噪音污染成为一个紧迫的问题。工程师和城市规划者必须考虑交通产生的aerodynamic sound如何影响居民的生活质量。实施隔音屏障和设计能够最小化噪音产生的道路是创造更安静、更宜居城市的必要步骤。总之，aerodynamic sound是一个多面向的概念，涉及航空、汽车、体育和城市规划等多个行业。理解和管理这种声音对于提高性能、舒适性和环境可持续性至关重要。随着技术的不断进步，分析和优化aerodynamic sound的能力将在塑造未来交通和城市生活中发挥越来越重要的作用。通过优先考虑这一设计方面，我们可以创造一个不仅更快、更高效，而且对每个人来说也更安静、更愉悦的世界。