atmospheric absorption

简明释义

大气吸收

英英释义

例句

1.The study of atmospheric absorption helps scientists understand how different wavelengths of light are affected as they pass through the atmosphere.

对大气吸收的研究帮助科学家理解不同波长的光在穿过大气时是如何受到影响的。

2.Astronomers often adjust their observations to compensate for atmospheric absorption caused by water vapor.

天文学家经常调整他们的观测以补偿水蒸气造成的大气吸收。

3.In remote sensing, atmospheric absorption can distort the data collected from satellites.

在遥感中，大气吸收可能会扭曲从卫星收集的数据。

4.The impact of atmospheric absorption is particularly significant in the infrared spectrum.

在红外光谱中，大气吸收的影响尤其显著。

5.Engineers must account for atmospheric absorption when designing communication systems that operate over long distances.

工程师在设计远距离通信系统时必须考虑大气吸收。

作文

Atmospheric absorption is a crucial concept in understanding how various forms of energy, particularly electromagnetic radiation, interact with the Earth's atmosphere. This phenomenon occurs when certain wavelengths of light or other types of radiation are absorbed by gases and particles present in the atmosphere. The significance of atmospheric absorption (大气吸收) extends beyond mere scientific curiosity; it has profound implications for fields such as meteorology, astronomy, and environmental science.To begin with, atmospheric absorption (大气吸收) plays a vital role in climate science. Different gases in the atmosphere, such as carbon dioxide and water vapor, absorb specific wavelengths of infrared radiation emitted from the Earth's surface. This absorption process contributes to the greenhouse effect, which is essential for maintaining the Earth’s temperature. Without this natural mechanism, our planet would be inhospitably cold, making it difficult for life as we know it to exist.In addition to its impact on climate, atmospheric absorption (大气吸收) also affects weather patterns. For instance, when solar radiation enters the atmosphere, some of it is absorbed by clouds and atmospheric gases. This absorption influences the temperature and humidity levels in the atmosphere, which in turn affects precipitation and storm formation. Meteorologists must consider atmospheric absorption (大气吸收) when predicting weather patterns and understanding climate variability.Moreover, atmospheric absorption (大气吸收) is a significant factor in astronomy. Astronomers often struggle with the effects of the Earth’s atmosphere on the light coming from celestial bodies. Certain wavelengths, such as ultraviolet and infrared, are heavily absorbed by atmospheric gases, limiting our ability to observe the universe. To mitigate these effects, astronomers use space-based telescopes, which operate outside the atmosphere, allowing them to gather data without the interference caused by atmospheric absorption (大气吸收).Furthermore, atmospheric absorption (大气吸收) is critical in telecommunications. Radio waves, which are used for broadcasting and communication, can also be absorbed by atmospheric gases, especially during certain weather conditions like rain or fog. This absorption can lead to signal degradation and affect the quality of communication. Engineers and scientists work to understand and predict the effects of atmospheric absorption (大气吸收) on radio signals to improve the reliability of communication systems.In conclusion, atmospheric absorption (大气吸收) is an essential process that affects various aspects of our environment and technological advancements. Its influence on climate, weather patterns, astronomical observations, and telecommunications highlights the interconnectedness of different scientific fields. Understanding this phenomenon not only enhances our knowledge of the Earth’s atmosphere but also informs our efforts to address environmental challenges and improve technological applications. As we continue to study atmospheric absorption (大气吸收), we gain insights that are vital for both scientific progress and the sustainability of our planet.

大气吸收是理解各种能量形式，特别是电磁辐射如何与地球大气相互作用的关键概念。这种现象发生在特定波长的光或其他类型的辐射被大气中的气体和颗粒吸收时。大气吸收(atmospheric absorption) 的重要性超越了科学好奇心，它对气象学、天文学和环境科学等领域具有深远的影响。首先，大气吸收(atmospheric absorption) 在气候科学中发挥着至关重要的作用。大气中的不同气体，如二氧化碳和水蒸气，吸收从地球表面发出的特定波长的红外辐射。这一吸收过程促进了温室效应，这对于维持地球的温度至关重要。如果没有这种自然机制，我们的星球将会寒冷得难以居住，使生命难以存在。除了对气候的影响，大气吸收(atmospheric absorption) 还影响天气模式。例如，当太阳辐射进入大气时，其中一些被云和大气气体吸收。这种吸收影响了大气中的温度和湿度水平，进而影响降水和风暴形成。气象学家在预测天气模式和理解气候变化时必须考虑大气吸收(atmospheric absorption)。此外，大气吸收(atmospheric absorption) 对天文学也是一个重要因素。天文学家常常面临地球大气对来自天体的光线影响的问题。某些波长（如紫外线和红外线）在大气气体中被大量吸收，限制了我们观察宇宙的能力。为了减轻这些影响，天文学家使用太空望远镜，这些望远镜在大气层之外工作，使他们能够在没有大气吸收(atmospheric absorption) 干扰的情况下收集数据。此外，大气吸收(atmospheric absorption) 在电信中也至关重要。用于广播和通信的无线电波也会被大气气体吸收，尤其是在雨或雾等特定天气条件下。这种吸收可能导致信号衰减，并影响通信质量。工程师和科学家致力于了解和预测大气吸收(atmospheric absorption) 对无线电信号的影响，以提高通信系统的可靠性。总之，大气吸收(atmospheric absorption) 是一个影响我们环境和技术进步各个方面的重要过程。它对气候、天气模式、天文观测和电信的影响突显了不同科学领域之间的相互联系。理解这一现象不仅增强了我们对地球大气的认识，还为我们解决环境挑战和改善技术应用提供了信息。随着我们继续研究大气吸收(atmospheric absorption)，我们获得的见解对于科学进步和我们星球的可持续发展至关重要。