effective absorption coefficient

简明释义

有效吸收系数

英英释义

例句

1.The effective absorption coefficient 有效吸收系数 of the material determines how much sound is absorbed in a room.

材料的有效吸收系数 有效吸收系数 决定了房间中有多少声音被吸收。

2.The effective absorption coefficient 有效吸收系数 is crucial for designing buildings that minimize noise pollution.

设计减少噪声污染的建筑时，有效吸收系数 有效吸收系数 是至关重要的。

3.In environmental studies, the effective absorption coefficient 有效吸收系数 of pollutants can indicate their impact on air quality.

在环境研究中，污染物的有效吸收系数 有效吸收系数 可以指示它们对空气质量的影响。

4.We need to calculate the effective absorption coefficient 有效吸收系数 of the new insulation material to evaluate its performance.

我们需要计算新绝缘材料的有效吸收系数 有效吸收系数 以评估其性能。

5.Researchers measured the effective absorption coefficient 有效吸收系数 of various acoustic panels to find the best option for soundproofing.

研究人员测量了各种声学面板的有效吸收系数 有效吸收系数 ，以找到最佳的隔音选项。

作文

In the realm of physics and engineering, particularly in the study of wave propagation, the concept of the effective absorption coefficient plays a crucial role. This term refers to a measure that quantifies how much energy from a wave is absorbed by a material as it passes through. Understanding this parameter is essential for various applications, including acoustics, optics, and even environmental science. The effective absorption coefficient can be influenced by several factors, including the frequency of the wave, the properties of the material, and the geometrical configuration of the setup. For instance, in acoustic engineering, the effective absorption coefficient helps determine how sound behaves in different environments. Materials with high absorption coefficients, such as foam or carpets, are often used in soundproofing to minimize echo and reverberation. Engineers must carefully select materials based on their effective absorption coefficient to ensure optimal sound quality in concert halls or recording studios. Similarly, in optics, the effective absorption coefficient is vital for understanding how light interacts with various substances. It determines how much light is absorbed versus how much is transmitted or reflected. This knowledge is particularly important in designing lenses, filters, and other optical devices. For example, a material with a high effective absorption coefficient at a specific wavelength will be less effective for applications requiring light transmission at that wavelength. Furthermore, the effective absorption coefficient is also significant in environmental science, especially in the study of pollutants. When analyzing how contaminants interact with natural bodies of water, researchers use the effective absorption coefficient to assess how much of a pollutant is absorbed by sediments or aquatic plants. This information helps in understanding the fate of pollutants in the environment and in developing strategies for remediation. To accurately measure the effective absorption coefficient, scientists often conduct experiments under controlled conditions, using specialized equipment. These measurements can then be modeled mathematically to predict how materials will behave in real-world scenarios. Understanding the effective absorption coefficient not only aids in theoretical studies but also has practical implications in various fields, making it an essential concept for professionals and researchers alike. In conclusion, the effective absorption coefficient is a fundamental parameter that influences how waves interact with materials across multiple disciplines. Its significance in acoustics, optics, and environmental science underscores the importance of understanding energy absorption processes. As technology advances and new materials are developed, the study of the effective absorption coefficient will continue to evolve, providing deeper insights into wave-material interactions and their applications in our daily lives.

在物理和工程领域，特别是在波传播研究中，有效吸收系数的概念发挥着至关重要的作用。这个术语指的是一个量度，量化了波在通过材料时被吸收的能量。理解这个参数对于各种应用至关重要，包括声学、光学甚至环境科学。有效吸收系数可以受到多个因素的影响，包括波的频率、材料的性质以及设置的几何配置。例如，在声学工程中，有效吸收系数帮助确定声音在不同环境中的行为。具有高吸收系数的材料，如泡沫或地毯，通常用于隔音，以最小化回声和混响。工程师必须根据材料的有效吸收系数仔细选择材料，以确保音乐厅或录音室的最佳音质。类似地，在光学中，有效吸收系数对于理解光如何与各种物质相互作用至关重要。它决定了多少光被吸收，以及多少光被透过或反射。这一知识在设计透镜、滤光片和其他光学设备时尤为重要。例如，在特定波长下，具有高有效吸收系数的材料在需要该波长光透过的应用中将效果不佳。此外，有效吸收系数在环境科学中也具有重要意义，尤其是在污染物研究中。当分析污染物如何与自然水体相互作用时，研究人员使用有效吸收系数来评估污染物被沉积物或水生植物吸收的程度。这些信息有助于理解污染物在环境中的命运，并制定修复策略。为了准确测量有效吸收系数，科学家们通常在受控条件下进行实验，使用专业设备。这些测量结果可以通过数学建模来预测材料在现实场景中的表现。理解有效吸收系数不仅有助于理论研究，还有实际应用的意义，使其成为专业人士和研究人员都必须掌握的基本概念。总之，有效吸收系数是一个基本参数，影响着波与材料在多个学科中的相互作用。它在声学、光学和环境科学中的重要性突显了理解能量吸收过程的重要性。随着技术的进步和新材料的发展，有效吸收系数的研究将继续发展，为我们提供更深入的波-材料相互作用及其在日常生活中的应用的见解。