wavelength table

简明释义

波长图表

英英释义

例句

1.The scientist referred to the wavelength table to determine the precise measurements for her experiment.

科学家参考了wavelength table（波长表）以确定她实验的精确测量。

2.The wavelength table helped the engineers design a more efficient laser system.

这个wavelength table（波长表）帮助工程师设计了一个更高效的激光系统。

3.In our physics class, we learned how to read a wavelength table to understand light properties.

在我们的物理课上，我们学习了如何读取wavelength table（波长表）以理解光的性质。

4.To identify the elements in the star's spectrum, astronomers often use a wavelength table.

为了识别星星光谱中的元素，天文学家常常使用wavelength table（波长表）。

5.The wavelength table is essential for calibrating the optical instruments in the lab.

在实验室中，wavelength table（波长表）对校准光学仪器至关重要。

作文

In the field of physics and engineering, understanding the properties of waves is crucial for various applications, from telecommunications to medical imaging. One fundamental aspect of wave behavior is its wavelength, which is the distance between successive peaks of a wave. To effectively analyze and utilize different types of waves, scientists and engineers often refer to a wavelength table, a structured compilation of wavelengths corresponding to various frequencies and types of waves. This wavelength table serves as an essential tool in both theoretical studies and practical applications.A wavelength table typically includes information about electromagnetic waves, sound waves, and other types of waves encountered in nature. For example, in the electromagnetic spectrum, the wavelength table might list the wavelengths of radio waves, microwaves, infrared radiation, visible light, ultraviolet light, X-rays, and gamma rays. Each of these categories has distinct properties and applications, making the wavelength table a vital reference for scientists and engineers.One of the most significant uses of a wavelength table is in telecommunications. For instance, radio frequencies used for broadcasting are categorized by their wavelengths. By consulting a wavelength table, engineers can determine the best frequencies for transmitting data over long distances or through various mediums. Similarly, in fiber-optic communications, the wavelength table helps in selecting the appropriate wavelength for transmitting light signals, ensuring minimal loss of information.In medical imaging, particularly in techniques such as MRI and X-rays, the wavelength table plays a critical role. Different imaging modalities operate at specific wavelengths, and understanding these wavelengths allows medical professionals to choose the right technique for diagnosing various conditions. For example, X-ray imaging utilizes short wavelengths to penetrate the body, while ultrasound employs longer wavelengths to create images of soft tissues. The wavelength table provides a quick reference to understand these differences and make informed decisions in clinical settings.Moreover, the wavelength table is not limited to electromagnetic waves. It also encompasses sound waves, which are vital in fields such as acoustics and audio engineering. The table can help sound engineers determine the wavelengths associated with different musical notes or the frequencies of sounds produced by various instruments. This knowledge is essential for designing sound systems, optimizing acoustics in concert halls, and even creating music.Furthermore, the wavelength table aids in educational contexts, where students learn about wave properties in physics classes. By providing a clear visual representation of the relationship between frequency and wavelength, the wavelength table enhances students' understanding of these concepts. It encourages them to explore the practical implications of wave behavior in everyday life, such as how different devices use various wavelengths to function effectively.In conclusion, the wavelength table is an indispensable resource across multiple disciplines. Whether in telecommunications, medical imaging, audio engineering, or education, it provides essential information that facilitates the understanding and application of wave phenomena. As technology continues to evolve, the relevance of the wavelength table will only grow, making it a critical tool for future innovations in science and engineering.

在物理和工程领域，理解波的特性对于各种应用至关重要，从电信到医学成像。波行为的一个基本方面是其波长，即波的相邻峰之间的距离。为了有效分析和利用不同类型的波，科学家和工程师通常会参考一个wavelength table（波长表），这是一个结构化的波长与各种频率和波类型相对应的汇编。这一wavelength table在理论研究和实际应用中都是一项重要工具。一个wavelength table通常包括关于电磁波、声波和自然界中遇到的其他类型波的信息。例如，在电磁谱中，wavelength table可能列出无线电波、微波、红外辐射、可见光、紫外线、X射线和伽马射线的波长。每个类别都有独特的特性和应用，使得wavelength table成为科学家和工程师的重要参考。wavelength table最显著的用途之一是在电信领域。例如，用于广播的无线电频率按其波长进行分类。通过查阅wavelength table，工程师可以确定传输数据的最佳频率，以便在长距离或通过各种介质中进行传输。同样，在光纤通信中，wavelength table有助于选择适合于传输光信号的波长，以确保信息的最小损失。在医学成像中，特别是在MRI和X射线等技术中，wavelength table发挥着关键作用。不同的成像模式在特定波长下工作，理解这些波长使医疗专业人员能够选择合适的技术来诊断各种疾病。例如，X射线成像利用短波长穿透身体，而超声波则使用较长波长创建软组织图像。wavelength table提供了快速参考，以理解这些差异并在临床环境中做出明智的决定。此外，wavelength table不仅限于电磁波。它还包括声波，这在声学和音频工程等领域至关重要。该表可以帮助声音工程师确定与不同音乐音符相关的波长或各种乐器产生的声音频率。这些知识对于设计音响系统、优化音乐厅的声学以及创作音乐至关重要。此外，wavelength table在教育背景中也起到重要作用，学生在物理课上学习波的属性。通过提供频率与波长之间关系的清晰可视化表示，wavelength table增强了学生对这些概念的理解。它鼓励他们探索波行为在日常生活中的实际影响，例如不同设备如何使用各种波长有效地工作。总之，wavelength table是多个学科中不可或缺的资源。无论是在电信、医学成像、音频工程还是教育中，它都提供了促进对波现象的理解和应用的基本信息。随着技术的不断发展，wavelength table的相关性只会增加，使其成为未来科学和工程创新的关键工具。