airborne sound

简明释义

空气传声;

英英释义

例句

1.The engineers conducted tests to measure the level of airborne sound 空气声 in the new building.

工程师们进行了测试，以测量新建筑中空气声的水平。

2.Musicians often use microphones to capture airborne sound 空气声 during live performances.

音乐家们通常使用麦克风在现场表演中捕捉空气声。

3.Noise pollution can significantly increase airborne sound 空气声 levels in urban areas.

噪音污染可以显著提高城市地区的空气声水平。

4.The design of the concert hall was optimized to enhance airborne sound 空气声 quality.

音乐厅的设计经过优化，以增强空气声的质量。

5.In a quiet library, even a whisper can generate noticeable airborne sound 空气声 that disturbs others.

在安静的图书馆里，甚至一个低语都能产生显著的空气声，打扰到其他人。

作文

Sound is an essential part of our daily lives, influencing how we communicate, perceive our environment, and even feel emotionally. One significant aspect of sound that often goes unnoticed is airborne sound, which refers to sound waves that travel through the air. Understanding airborne sound can enhance our appreciation of the auditory world around us and its impact on our experiences. In this essay, I will explore the nature of airborne sound, its characteristics, and its implications in various contexts.To begin with, airborne sound is generated by vibrating objects, which create pressure waves in the air. These waves propagate through the atmosphere, reaching our ears and allowing us to hear different sounds. The frequency of these vibrations determines the pitch of the sound, while the amplitude influences its loudness. For instance, a violin produces high-frequency vibrations, resulting in higher-pitched notes, whereas a drum creates lower frequencies, yielding deeper sounds. This fundamental understanding of airborne sound is crucial for various fields, including music, acoustics, and audio engineering.In addition to musical applications, airborne sound plays a vital role in communication. Human speech, for example, relies entirely on airborne sound to convey messages. The nuances of language, tone, and emotion are all transmitted through the variations in sound waves. In social interactions, the ability to discern subtle differences in airborne sound can significantly affect how we interpret conversations. Therefore, understanding how airborne sound works can improve our communication skills and enhance our interpersonal relationships.Moreover, airborne sound has practical implications in various industries, including architecture and urban planning. For example, when designing buildings or public spaces, architects must consider how airborne sound travels within and around structures. Poor acoustics can lead to discomfort and hinder communication in crowded environments. By utilizing materials that absorb or reflect airborne sound, designers can create spaces that promote better sound quality and improve the overall experience for occupants.Furthermore, airborne sound is also a critical factor in environmental studies. Noise pollution, which consists of unwanted or harmful airborne sound, can have detrimental effects on both human health and wildlife. Studies have shown that prolonged exposure to high levels of airborne sound can lead to stress, sleep disturbances, and even cardiovascular issues. For animals, excessive airborne sound can disrupt communication, mating rituals, and navigation, ultimately affecting their survival. Thus, understanding the implications of airborne sound on the environment is essential for developing strategies to mitigate noise pollution and protect both human and animal populations.In conclusion, airborne sound is a fundamental aspect of our auditory experience that influences communication, design, and environmental health. By gaining a deeper understanding of airborne sound, we can improve our interactions, create more harmonious living spaces, and address the challenges posed by noise pollution. As we continue to navigate a world filled with sounds, recognizing the significance of airborne sound will enrich our lives and enhance our appreciation for the complex auditory landscape we inhabit.

声音是我们日常生活中不可或缺的一部分，影响着我们的沟通、感知环境甚至情感体验。一个常常被忽视的重要方面是空气传播声音，它指的是通过空气传播的声波。理解空气传播声音可以增强我们对周围听觉世界及其对我们经历影响的欣赏。在这篇文章中，我将探讨空气传播声音的性质、特征及其在各种背景下的意义。首先，空气传播声音是由振动物体产生的，这些物体在空气中产生压力波。这些波在大气中传播，达到我们的耳朵，使我们能够听到不同的声音。这些振动的频率决定了声音的音调，而振幅则影响其响度。例如，小提琴产生高频振动，导致高音，而鼓则产生低频，产生更深的声音。对空气传播声音的基本理解对音乐、声学和音频工程等多个领域至关重要。除了音乐应用，空气传播声音在沟通中也发挥着重要作用。人类的语言完全依赖于空气传播声音来传达信息。语言、语气和情感的细微差别都是通过声波的变化传递的。在社交互动中，辨别空气传播声音的微妙差异可以显著影响我们对谈话的理解。因此，理解空气传播声音的工作原理可以改善我们的沟通技巧，增强人际关系。此外，空气传播声音在建筑和城市规划等各个行业中也具有实际意义。例如，在设计建筑或公共空间时，建筑师必须考虑空气传播声音在结构内外的传播方式。糟糕的声学效果会导致不适，并妨碍拥挤环境中的沟通。通过利用吸收或反射空气传播声音的材料，设计师可以创造出促进更好音质的空间，从而改善居住者的整体体验。此外，空气传播声音也是环境研究中的关键因素。噪音污染，即不必要或有害的空气传播声音，可能对人类健康和野生动物产生有害影响。研究表明，长期暴露于高水平的空气传播声音中可能导致压力、睡眠障碍，甚至心血管问题。对于动物来说，过多的空气传播声音可能会干扰沟通、交配仪式和导航，最终影响它们的生存。因此，理解空气传播声音对环境的影响对于制定减轻噪音污染和保护人类及动物种群的策略至关重要。总之，空气传播声音是我们听觉体验的基本方面，影响着沟通、设计和环境健康。通过深入理解空气传播声音，我们可以改善互动，创造更和谐的生活空间，并应对噪音污染带来的挑战。当我们继续在充满声音的世界中航行时，认识到空气传播声音的重要性将丰富我们的生活，增强我们对所处复杂听觉环境的欣赏。