atmospheric acoustics

简明释义

大气声学

英英释义

例句

1.Engineers use atmospheric acoustics 大气声学 to design better communication systems for airplanes.

工程师利用大气声学设计更好的飞机通信系统。

2.In urban planning, atmospheric acoustics 大气声学 can help mitigate noise pollution.

在城市规划中，大气声学可以帮助减轻噪音污染。

3.The phenomenon of sound bending due to atmospheric acoustics 大气声学 can affect outdoor concert experiences.

由于大气声学导致的声音弯曲现象可能会影响户外音乐会的体验。

4.The study of atmospheric acoustics 大气声学 is essential for understanding how sound travels over long distances.

研究大气声学对于理解声音如何在长距离传播至关重要。

5.Researchers are exploring the effects of atmospheric acoustics 大气声学 on wildlife communication.

研究人员正在探索大气声学对野生动物交流的影响。

作文

Understanding the concept of atmospheric acoustics is crucial for various fields, including environmental science, architecture, and even sound engineering. Atmospheric acoustics refers to the study of how sound propagates through the atmosphere, influenced by factors such as temperature, humidity, wind, and atmospheric pressure. The importance of this field cannot be overstated, as it impacts everything from urban planning to wildlife communication. One of the most fascinating aspects of atmospheric acoustics is how sound can travel over long distances. For instance, under certain conditions, sounds from distant events, like thunder or fireworks, can be heard much farther than one might expect. This phenomenon occurs due to the refraction of sound waves in the atmosphere. When the air temperature changes with altitude, it can bend sound waves, allowing them to travel further. Understanding these principles is essential for meteorologists and acousticians alike, as they help predict how sound will behave in different weather conditions.Moreover, atmospheric acoustics plays a significant role in urban environments. City planners and architects must consider how sound travels in densely populated areas. Noise pollution is a growing concern, and effective designs can mitigate its impact. By studying atmospheric acoustics, architects can create buildings that absorb sound or direct it away from residential areas, ensuring a more pleasant living environment.In addition to urban settings, atmospheric acoustics is vital for understanding animal communication. Many species rely on sound to communicate, mate, and navigate their environments. For example, birds often use specific frequencies to reach potential mates, and changes in atmospheric conditions can affect how far these sounds travel. By studying atmospheric acoustics, researchers can gain insights into how animals adapt their communication strategies to different environments, which is essential for conservation efforts.Furthermore, the study of atmospheric acoustics extends to the realm of technology and innovation. Engineers are developing advanced sound systems that utilize these principles to enhance audio quality in various applications, from concerts to public announcements. By understanding how sound interacts with the atmosphere, they can create systems that deliver clearer and more powerful sound, improving the overall experience for listeners.In conclusion, atmospheric acoustics is a multifaceted field that intersects with numerous disciplines. Its relevance spans from enhancing our urban environments to aiding in wildlife research and technological advancements. As we continue to explore the complexities of sound in the atmosphere, we uncover new ways to improve our world, making the study of atmospheric acoustics not only fascinating but also essential for future innovations and environmental stewardship.

大气声学的概念理解对于环境科学、建筑学甚至声音工程等多个领域至关重要。大气声学是指研究声音如何通过大气传播的学科，受温度、湿度、风和大气压力等因素的影响。这一领域的重要性不容小觑，因为它影响着从城市规划到野生动物交流的方方面面。大气声学最令人着迷的一个方面是声音如何在长距离传播。例如，在某些条件下，远处事件（如雷声或烟花）的声音可以被听到得比预期的更远。这种现象是由于声音波在大气中的折射。当空气温度随高度变化时，它可以弯曲声波，使其传播更远。理解这些原理对气象学家和声学家来说至关重要，因为它们有助于预测声音在不同天气条件下的行为。此外，大气声学在城市环境中也发挥着重要作用。城市规划者和建筑师必须考虑声音在密集人口区域的传播。噪音污染日益成为关注的问题，有效的设计可以减轻其影响。通过研究大气声学，建筑师可以设计出吸音或将声音引导远离住宅区的建筑，从而确保更宜居的生活环境。除了城市环境，大气声学对于理解动物交流也至关重要。许多物种依赖声音进行交流、交配和导航。例如，鸟类通常使用特定频率与潜在伴侣联系，而大气条件的变化可能会影响这些声音传播的距离。通过研究大气声学，研究人员可以深入了解动物如何根据不同环境调整其交流策略，这对保护工作至关重要。此外，大气声学的研究还扩展到技术和创新领域。工程师正在开发利用这些原理的先进音响系统，以增强各种应用中的音质，从音乐会到公共公告。通过理解声音如何与大气相互作用，他们可以创建出传递更清晰、更强大声音的系统，提高听众的整体体验。总之，大气声学是一个多面向的领域，与多个学科交叉。它的相关性从改善我们的城市环境到帮助野生动物研究和技术进步，涵盖了广泛的领域。随着我们继续探索大气中声音的复杂性，我们发现了改善世界的新方法，使大气声学的研究不仅引人入胜，而且对未来的创新和环境保护至关重要。