grating spacing

简明释义

栅线间距

英英释义

例句

1.For safety reasons, the grating spacing must comply with local building codes.

出于安全原因，格栅间距必须符合当地建筑规范。

2.The ideal grating spacing for this type of flooring is typically around six inches.

这种类型地板的理想格栅间距通常约为六英寸。

3.Adjusting the grating spacing can significantly affect the load distribution in the structure.

调整格栅间距会显著影响结构中的荷载分布。

4.During the installation, we measured the grating spacing to ensure it matched the design specifications.

在安装过程中，我们测量了格栅间距以确保其符合设计规范。

5.The engineer specified the grating spacing to ensure optimal drainage on the rooftop.

工程师指定了格栅间距以确保屋顶的最佳排水。

作文

The concept of grating spacing is crucial in various fields, especially in optics and engineering. It refers to the distance between adjacent lines or grooves on a grating surface, which can significantly affect how light interacts with the grating. Understanding grating spacing helps in designing optical devices such as diffraction gratings, which are used to disperse light into its component colors. In optics, the grating spacing determines the angle at which different wavelengths of light are diffracted. For example, a smaller grating spacing will result in greater angles for the same wavelength compared to a larger spacing. This principle is fundamental in spectroscopy, where analyzing the spectrum of light emitted or absorbed by substances is essential for identifying their composition. By adjusting the grating spacing, scientists can optimize the resolution and sensitivity of their instruments. Moreover, in engineering applications, grating spacing is often considered in the design of various mechanical components. For instance, in the context of noise control, the spacing of sound-absorbing gratings can influence the acoustics of a room or an outdoor space. Properly designed grating spacing can enhance sound quality by reducing unwanted echoes and reverberations. In addition, grating spacing also plays a role in the field of telecommunications. Optical fibers utilize gratings to reflect specific wavelengths of light while allowing others to pass through. By carefully selecting the grating spacing, engineers can create filters that improve signal clarity and reduce interference, ensuring efficient data transmission over long distances. It is also worth noting that grating spacing can impact the efficiency of solar panels. In photovoltaic systems, surface textures and patterns, including gratings, can be designed to maximize light absorption. The spacing of these features must be optimized to capture as much sunlight as possible, leading to improved energy conversion rates. In conclusion, the importance of grating spacing cannot be overstated. Whether in the realm of optics, engineering, telecommunications, or renewable energy, understanding and manipulating this parameter is vital for enhancing performance and achieving desired outcomes. As technology continues to advance, the applications and implications of grating spacing will undoubtedly expand, paving the way for innovations that harness the power of light and sound more effectively. By recognizing the significance of grating spacing, professionals across various disciplines can contribute to the development of more efficient systems and devices, ultimately benefiting society as a whole.

“光栅间距”的概念在各个领域中都至关重要，特别是在光学和工程中。它指的是光栅表面上相邻线条或凹槽之间的距离，这会显著影响光与光栅的相互作用。理解“光栅间距”有助于设计光学设备，如衍射光栅，这些设备用于将光分散成其组成颜色。在光学中，“光栅间距”决定了不同波长的光被衍射的角度。例如，较小的“光栅间距”将导致相同波长的光以更大的角度被衍射，相比之下，较大的间距则会导致较小的角度。这一原理在光谱学中至关重要，分析物质发射或吸收的光谱对于识别其成分是必不可少的。通过调整“光栅间距”，科学家可以优化仪器的分辨率和灵敏度。此外，在工程应用中，“光栅间距”通常在各种机械组件的设计中被考虑。例如，在噪声控制的背景下，声吸收光栅的间距可以影响房间或户外空间的声学效果。合理设计的“光栅间距”可以通过减少不必要的回声和混响来增强声音质量。此外，“光栅间距”在电信领域也发挥着作用。光纤利用光栅反射特定波长的光，同时允许其他波长通过。通过精心选择“光栅间距”，工程师可以创建过滤器，提高信号清晰度并减少干扰，从而确保长距离数据传输的效率。值得注意的是，“光栅间距”还会影响太阳能电池板的效率。在光伏系统中，表面纹理和图案（包括光栅）可以设计成最大化光的吸收。这些特征的间距必须经过优化，以捕获尽可能多的阳光，从而提高能量转换率。总之，“光栅间距”的重要性不容小觑。无论是在光学、工程、电信还是可再生能源领域，理解和操控这一参数对于提升性能和实现期望结果至关重要。随着技术的不断进步，“光栅间距”的应用和影响无疑将扩展，为有效利用光和声的创新铺平道路。通过认识到“光栅间距”的重要性，各个学科的专业人士都可以为开发更高效的系统和设备做出贡献，最终使整个社会受益。