flanking transmission of sound

简明释义

声音迂回传播

英英释义

例句

1.The flanking transmission of sound 声音的侧向传播 in urban environments can create unexpected echoes and sound distortions.

城市环境中的声音的侧向传播 flanking transmission of sound可能会产生意想不到的回声和声音失真。

2.Engineers must consider the flanking transmission of sound 声音的侧向传播 when designing buildings to minimize noise pollution.

工程师在设计建筑时必须考虑声音的侧向传播 flanking transmission of sound，以减少噪音污染。

3.In the concert hall, the flanking transmission of sound 声音的侧向传播 allowed even the audience at the back to hear the performance clearly.

在音乐厅中，声音的侧向传播 flanking transmission of sound 使得后面的观众也能清楚地听到表演。

4.The researchers studied the flanking transmission of sound 声音的侧向传播 in a controlled environment to understand how sound waves behave in different materials.

研究人员在控制环境中研究了声音的侧向传播 flanking transmission of sound，以了解声波在不同材料中的行为。

5.During the experiment, we observed the flanking transmission of sound 声音的侧向传播 between different rooms in the building.

在实验过程中，我们观察到了建筑中不同房间之间的声音的侧向传播 flanking transmission of sound。

作文

The concept of flanking transmission of sound refers to the phenomenon where sound waves travel around obstacles or barriers, creating pathways for sound to reach areas that might otherwise be shielded from direct sound sources. This is particularly relevant in environments where sound propagation is crucial, such as in concert halls, classrooms, and open spaces. Understanding this concept can significantly enhance our ability to design spaces that optimize sound quality and clarity.For instance, in architectural acoustics, the flanking transmission of sound can lead to unintended sound leakage between rooms. This occurs when sound waves bypass walls and other barriers by traveling through adjacent spaces. In a school setting, for example, noise from a busy hallway can disrupt learning in classrooms if proper sound insulation is not implemented. By recognizing how sound can flank obstacles, architects and designers can create more effective acoustic solutions that minimize these issues.Moreover, the flanking transmission of sound also plays a vital role in outdoor environments. When considering the design of amphitheaters or public gathering spaces, understanding how sound travels around trees, buildings, and other natural or man-made structures can help ensure that performances are heard clearly by all attendees. Sound engineers often use this knowledge to position speakers strategically, allowing sound to reach the audience without excessive amplification, which can lead to distortion.In addition to architectural applications, the study of flanking transmission of sound has implications in various fields, including environmental science and urban planning. For instance, urban planners must consider how traffic noise can travel through neighborhoods, affecting the quality of life for residents. By analyzing the pathways of sound transmission, they can implement noise barriers or design layouts that reduce the impact of unwanted noise.Furthermore, in the realm of technology, the flanking transmission of sound is important for developing audio equipment and enhancing communication systems. Engineers must account for how sound waves interact with different materials and environments when designing microphones, speakers, and other audio devices. This understanding ensures that sound is transmitted clearly and effectively, regardless of the surrounding conditions.In conclusion, the flanking transmission of sound is a multifaceted concept that influences various aspects of our lives, from architecture to urban planning and technology. By comprehensively understanding how sound can navigate around obstacles, we can create better environments that enhance auditory experiences and improve communication. As we continue to explore the complexities of sound transmission, it becomes increasingly clear that mastering this concept is essential for anyone involved in fields related to acoustics and sound design.

“声音的侧向传播”这一概念指的是声波绕过障碍物或屏障传播的现象，从而为声音到达可能被直接声源遮挡的区域创造路径。这在音乐厅、教室和开放空间等环境中尤为重要，因为声音传播至关重要。理解这一概念可以显著提高我们设计优化声音质量和清晰度的空间的能力。例如，在建筑声学中，“声音的侧向传播”可能导致房间之间意想不到的声音泄漏。这发生在声波通过相邻空间绕过墙壁和其他屏障时。在学校环境中，例如，如果没有适当的隔音，繁忙走廊的噪音可能会干扰课堂学习。通过认识到声音如何绕过障碍，建筑师和设计师可以创造更有效的声学解决方案，以最小化这些问题。此外，“声音的侧向传播”在户外环境中也起着至关重要的作用。在考虑露天剧场或公共聚集空间的设计时，理解声音如何绕过树木、建筑物和其他自然或人造结构可以帮助确保表演被所有观众清晰地听到。声音工程师通常利用这一知识战略性地放置扬声器，使声音能够到达观众，而无需过度放大，这可能会导致失真。除了建筑应用外，“声音的侧向传播”的研究在环境科学和城市规划等各个领域也具有重要意义。例如，城市规划者必须考虑交通噪音如何穿过社区，影响居民的生活质量。通过分析声音传播的路径，他们可以实施噪音屏障或设计布局，以减少不必要噪音的影响。此外，在技术领域，“声音的侧向传播”对开发音频设备和增强通信系统至关重要。工程师在设计麦克风、扬声器和其他音频设备时，必须考虑声音波与不同材料和环境的相互作用。这种理解确保了声音在各种环境条件下都能清晰有效地传播。总之，“声音的侧向传播”是一个多方面的概念，影响着我们生活的各个方面，从建筑到城市规划再到技术。通过全面理解声音如何绕过障碍传播，我们可以创造出更好的环境，增强听觉体验并改善沟通。随着我们继续探索声音传播的复杂性，越来越清楚的是，掌握这一概念对于任何从事声学和声音设计相关领域的人来说都是至关重要的。