air scattering

简明释义

空气散射;

英英释义

例句

1.The phenomenon of sunset colors can be attributed to air scattering 空气散射, which causes shorter wavelengths of light to scatter more than longer wavelengths.

日落颜色的现象可以归因于空气散射 空气散射，这使得短波长的光比长波长的光更容易散射。

2.Meteorologists study air scattering 空气散射 to predict visibility conditions during foggy weather.

气象学家研究空气散射 空气散射以预测雾天的能见度情况。

3.In photography, understanding air scattering 空气散射 is crucial for capturing clear images of distant landscapes.

在摄影中，理解空气散射 空气散射对拍摄远处风景的清晰图像至关重要。

4.Astronomers must account for air scattering 空气散射 when observing stars, as it can distort their brightness and position.

天文学家在观察星星时必须考虑空气散射 空气散射，因为它会扭曲星星的亮度和位置。

5.The blue color of the sky is a direct result of air scattering 空气散射 of sunlight by the atmosphere.

天空的蓝色直接源于阳光通过大气的空气散射 空气散射。

作文

Air scattering is a phenomenon that occurs when light interacts with particles in the atmosphere. This interaction can significantly affect how we perceive the world around us. For example, during sunrise and sunset, the sunlight passes through a greater thickness of the Earth's atmosphere, causing shorter wavelengths of light, such as blue and violet, to scatter more than longer wavelengths like red and orange. This results in the beautiful hues we often see in the sky at these times. The process of air scattering (空气散射) plays a crucial role in determining the colors of our skies and can also influence weather patterns and climate. In addition to its aesthetic effects, air scattering (空气散射) has practical implications in various fields, including meteorology, aviation, and even astronomy. Meteorologists study air scattering (空气散射) to understand cloud formation and precipitation processes. By analyzing how light scatters in different atmospheric conditions, they can predict weather changes and improve forecasting models. For pilots, understanding air scattering (空气散射) is essential for safe navigation. The visibility of distant objects can be greatly affected by the scattering of light, which can create illusions or obscure important landmarks. Pilots must be trained to recognize how air scattering (空气散射) can alter their perception of distance and depth, especially during takeoff and landing when precision is critical. Astronomers also face challenges due to air scattering (空气散射). When observing celestial bodies from Earth, the atmosphere can distort the light coming from stars and planets. This distortion can make it difficult to obtain clear images or accurate measurements. To mitigate this effect, astronomers often use telescopes located at high altitudes, where the atmosphere is thinner, reducing the amount of air scattering (空气散射) that occurs. Moreover, air scattering (空气散射) is not limited to visible light; it also affects other parts of the electromagnetic spectrum, including infrared and ultraviolet light. This wide-ranging impact means that scientists must consider air scattering (空气散射) when conducting experiments or observations across various wavelengths. In conclusion, air scattering (空气散射) is a fundamental concept that influences many aspects of our environment and daily lives. From the stunning colors of a sunset to the safety of a flight, understanding how light interacts with the atmosphere is essential. As we continue to explore the complexities of our atmosphere, the significance of air scattering (空气散射) will only become more apparent, highlighting the intricate connections between light, air, and our perception of the world. By studying air scattering (空气散射), we can gain insights into not only the beauty of nature but also the scientific principles that govern our universe. It is a reminder of how interconnected everything is, and how even the simplest phenomena can have profound implications.

空气散射是光与大气中的颗粒相互作用时发生的一种现象。这种相互作用会显著影响我们对周围世界的感知。例如，在日出和日落时，阳光穿过地球大气层的厚度更大，导致短波长的光（如蓝色和紫色）比长波长的光（如红色和橙色）散射得更多。这就造成了我们在这些时刻常常看到的美丽色调。空气散射在决定天空颜色方面起着至关重要的作用，还可以影响天气模式和气候。除了其美学效果外，空气散射在气象、航空甚至天文学等多个领域也具有实际意义。气象学家研究空气散射以理解云的形成和降水过程。通过分析光在不同大气条件下的散射方式，他们可以预测天气变化并改进预报模型。对于飞行员来说，理解空气散射对于安全导航至关重要。远处物体的可见性可能会因光的散射而大大受到影响，这可能会造成错觉或遮蔽重要的地标。飞行员必须接受培训，以识别空气散射如何改变他们对距离和深度的感知，尤其是在起飞和着陆时，这时精确性至关重要。天文学家也面临着由于空气散射造成的挑战。当从地球观察天体时，大气会扭曲来自恒星和行星的光。这种扭曲可能使得获得清晰图像或准确测量变得困难。为了减轻这种影响，天文学家通常使用位于高海拔地区的望远镜，因为那里的大气更稀薄，从而减少了发生空气散射的数量。此外，空气散射不仅限于可见光；它还影响其他电磁波谱的部分，包括红外线和紫外线。这种广泛的影响意味着科学家在进行各种波长的实验或观察时必须考虑空气散射。总之，空气散射是一个基本概念，影响着我们环境和日常生活的许多方面。从日落的绚丽色彩到飞行的安全，理解光如何与大气相互作用至关重要。随着我们继续探索大气的复杂性，空气散射的重要性将愈加明显，突显出光、空气与我们对世界的感知之间的复杂联系。通过研究空气散射，我们可以深入了解自然之美以及支配我们宇宙的科学原理。这提醒我们万物是如何相互关联的，以及即使是最简单的现象也可以产生深远的影响。