transmitted spectrum

简明释义

发射频谱

英英释义

例句

1.Measurements of the transmitted spectrum can reveal information about atmospheric conditions.

对透射光谱的测量可以揭示大气条件的信息。

2.By analyzing the transmitted spectrum, scientists can determine the composition of distant stars.

通过分析透射光谱，科学家可以确定遥远星星的成分。

3.The quality of the glass affects the transmitted spectrum of the sunlight entering the building.

玻璃的质量影响进入建筑物的阳光的透射光谱。

4.The optical filter allows only specific wavelengths to pass through, altering the transmitted spectrum of light.

光学滤光片仅允许特定波长通过，从而改变光的透射光谱。

5.In spectroscopy, the transmitted spectrum is crucial for identifying chemical compounds.

在光谱学中，透射光谱对于识别化合物至关重要。

作文

In the field of physics and optics, understanding the concept of the transmitted spectrum is crucial for analyzing how light interacts with different materials. The transmitted spectrum refers to the range of wavelengths or frequencies of light that pass through a substance without being absorbed or reflected. This phenomenon can be observed in various applications, such as spectroscopy, where scientists study the composition of materials by examining the light they transmit. When light encounters an object, it can be absorbed, reflected, or transmitted. The transmitted spectrum specifically focuses on the light that successfully passes through the material. For example, when white light shines through a colored glass, the transmitted spectrum reveals the specific wavelengths that are allowed to pass through, which corresponds to the color of the glass. This is due to the selective absorption of certain wavelengths, while others are transmitted. Understanding the transmitted spectrum is essential in many scientific fields, including astronomy, chemistry, and environmental science. In astronomy, the transmitted spectrum of celestial bodies can provide valuable information about their composition, temperature, density, and motion. By analyzing the light that reaches Earth from distant stars and galaxies, astronomers can determine the elements present in those celestial objects based on the specific wavelengths that are transmitted. In chemistry, the transmitted spectrum plays a significant role in identifying substances. When a sample is illuminated, the resulting transmitted spectrum can indicate the presence of specific compounds based on their unique absorption characteristics. This technique, known as infrared spectroscopy, is widely used in laboratories to analyze organic and inorganic materials. Furthermore, the transmitted spectrum is also important in environmental science. Researchers study how pollutants affect the transmitted spectrum of natural water bodies. By measuring the changes in the transmitted spectrum of light passing through water, scientists can infer the concentration of harmful substances and assess the overall health of aquatic ecosystems. In conclusion, the transmitted spectrum is a fundamental concept in understanding light behavior in various contexts. Its applications in fields such as astronomy, chemistry, and environmental science highlight its importance in providing insights into the composition and properties of materials. By studying the transmitted spectrum, scientists can gather critical information that aids in research and technological advancements. As our understanding of light and its interactions continues to grow, the significance of the transmitted spectrum will undoubtedly remain a pivotal aspect of scientific inquiry.

在物理学和光学领域，理解transmitted spectrum的概念对于分析光如何与不同材料相互作用至关重要。transmitted spectrum指的是通过一种物质而不被吸收或反射的光的波长或频率范围。这种现象可以在各种应用中观察到，例如光谱学，科学家通过检查材料所传递的光来研究其成分。当光遇到一个物体时，它可以被吸收、反射或透过。transmitted spectrum特别关注成功穿透材料的光。例如，当白光照射通过彩色玻璃时，transmitted spectrum揭示了允许通过的特定波长，这对应于玻璃的颜色。这是由于某些波长的选择性吸收，而其他波长则被传递。理解transmitted spectrum在许多科学领域中至关重要，包括天文学、化学和环境科学。在天文学中，天体的transmitted spectrum可以提供关于其成分、温度、密度和运动的宝贵信息。通过分析从遥远恒星和星系到达地球的光，天文学家可以根据传递的特定波长确定这些天体中存在的元素。在化学中，transmitted spectrum在识别物质方面发挥着重要作用。当样品被照射时，产生的transmitted spectrum可以通过其独特的吸收特征指示特定化合物的存在。这种技术称为红外光谱，在实验室中广泛用于分析有机和无机材料。此外，transmitted spectrum在环境科学中也很重要。研究人员研究污染物如何影响自然水体的transmitted spectrum。通过测量光通过水时transmitted spectrum的变化，科学家可以推断有害物质的浓度，并评估水生生态系统的整体健康。总之，transmitted spectrum是理解光在各种背景下行为的基本概念。它在天文学、化学和环境科学等领域的应用突显了它在提供材料成分和属性方面的重要性。通过研究transmitted spectrum，科学家可以收集关键的信息，帮助研究和技术进步。随着我们对光及其相互作用的理解不断加深，transmitted spectrum的重要性无疑仍将是科学探究的一个关键方面。