sound scattering

简明释义

声散射

英英释义

例句

1.The new acoustic panels were installed to reduce sound scattering 声波散射 in the recording studio.

新的声学面板被安装以减少录音室中的声波散射 声波散射。

2.Engineers study sound scattering 声波散射 to improve the audio quality of public address systems.

工程师研究声波散射 声波散射以改善公共广播系统的音质。

3.During the experiment, they observed how sound scattering 声波散射 affected the clarity of underwater communication.

在实验过程中，他们观察到声波散射 声波散射如何影响水下通信的清晰度。

4.The architect focused on sound scattering 声波散射 to create a more intimate atmosphere in the restaurant.

建筑师专注于声波散射 声波散射以在餐厅创造更亲密的氛围。

5.In a concert hall, the design is crucial for minimizing sound scattering 声波散射 to ensure that every note reaches the audience clearly.

在音乐厅中，设计对于最小化声波散射 声波散射至关重要，以确保每个音符清晰地传达到观众。

作文

In the realm of acoustics, understanding the phenomenon of sound scattering is crucial for various applications, ranging from architectural design to underwater communication. Sound scattering refers to the redirection of sound waves when they encounter irregularities in their medium or obstacles in their path. This process can significantly affect how sound is perceived in different environments. For instance, in a concert hall, the design and materials used can either enhance or diminish the quality of sound through sound scattering. When sound waves travel, they typically move in straight lines. However, when these waves hit surfaces that are not smooth—such as rough walls or uneven floors—they scatter in multiple directions. This scattering can create a more immersive auditory experience, allowing sound to reach listeners from various angles. In contrast, in environments where sound scattering is minimal, such as in anechoic chambers, sound waves tend to reflect directly back to their source, resulting in a very different listening experience.Moreover, sound scattering plays a vital role in nature. For example, marine biologists study how sound travels underwater and how it is affected by factors like temperature, salinity, and the presence of marine life. Underwater, sound waves scatter due to the varying densities and compositions of water, which can influence communication between species, such as dolphins and whales. Understanding this scattering helps researchers develop better methods for tracking and studying these animals in their natural habitats.In addition, sound scattering has practical implications in urban planning. Architects and city planners must consider how sound behaves in urban environments filled with buildings and infrastructure. Properly designed spaces can utilize sound scattering to reduce noise pollution, creating more pleasant living conditions for residents. For instance, parks and green spaces can help scatter sound waves, providing a buffer against the din of city life.Furthermore, advancements in technology have allowed us to manipulate sound scattering for various purposes. For instance, in the field of audio engineering, sound designers often utilize techniques that exploit scattering to create spatial audio experiences. By carefully arranging speakers and using specific materials, they can control how sound waves interact and scatter, leading to a more engaging auditory experience for audiences.In conclusion, sound scattering is a significant concept in both natural and engineered environments. It affects how we perceive sound, influences communication in animal species, and plays a crucial role in architectural acoustics and urban planning. As our understanding of sound scattering continues to evolve, so too will our ability to harness it for improved sound quality and auditory experiences in diverse settings.

声散射在声学领域中是一个至关重要的现象，理解它对各种应用至关重要，从建筑设计到水下通信。声散射指的是声波在遇到介质中的不规则性或路径中的障碍物时的重定向。这一过程可以显著影响声音在不同环境中的感知。例如，在音乐会大厅中，设计和使用的材料可以通过声散射增强或减弱声音的质量。当声波传播时，它们通常沿直线移动。然而，当这些波击中不光滑的表面（例如粗糙的墙壁或不平坦的地板）时，它们会朝多个方向散射。这种散射可以创造出更具沉浸感的听觉体验，使声音能够从不同角度传达到听众身上。相比之下，在声散射最小的环境中，例如无回声室，声波往往直接反射回其源头，导致非常不同的听觉体验。此外，声散射在自然界中也发挥着重要作用。例如，海洋生物学家研究声波在水下传播的方式，以及它们如何受到温度、盐度和海洋生物存在等因素的影响。在水下，由于水的不同密度和组成，声波会发生散射，这可能影响物种之间的交流，例如海豚和鲸鱼。理解这种散射有助于研究人员开发更好的方法来跟踪和研究这些动物在其自然栖息地中的行为。另外，声散射在城市规划中也具有实际意义。建筑师和城市规划者必须考虑声音在充满建筑和基础设施的城市环境中的行为。合理设计的空间可以利用声散射减少噪音污染，为居民创造更愉快的生活条件。例如，公园和绿地可以帮助散射声波，为城市生活的喧嚣提供缓冲。此外，科技的进步使我们能够操控声散射以实现各种目的。例如，在音频工程领域，声音设计师经常利用利用散射的技术来创建空间音频体验。通过精心安排扬声器和使用特定材料，他们可以控制声波的相互作用和散射，从而为观众带来更具吸引力的听觉体验。总之，声散射是自然环境和工程环境中一个重要的概念。它影响我们对声音的感知，影响动物物种之间的交流，并在建筑声学和城市规划中发挥着关键作用。随着我们对声散射理解的不断发展，我们将能够更好地利用它，以改善不同环境中的声音质量和听觉体验。