cloud droplet

简明释义

云滴

英英释义

例句

1.As temperature drops, more cloud droplets 云滴 can form, leading to potential precipitation.

随着温度下降，更多的云滴可以形成，导致潜在的降水。

2.Meteorologists study cloud droplets 云滴 to predict rainfall and storm patterns.

气象学家研究云滴以预测降雨和风暴模式。

3.The formation of a cloud droplet 云滴 occurs when water vapor condenses around small particles in the atmosphere.

当水蒸气在大气中的小颗粒周围凝结时，形成云滴。

4.A single cloud droplet 云滴 can contribute to the formation of larger raindrops.

一个单独的云滴可以促成更大雨滴的形成。

5.The size of a cloud droplet 云滴 typically ranges from 10 to 15 micrometers.

一个云滴的大小通常在10到15微米之间。

作文

The atmosphere is a complex system that plays a critical role in regulating the Earth's climate. One of the most fascinating components of this system is the formation of clouds, which are made up of tiny water particles. These particles, known as cloud droplets (云滴), are essential for weather patterns and precipitation. Understanding how cloud droplets (云滴) form and behave can help us better predict weather changes and comprehend the water cycle. Clouds form when warm air rises and cools, causing water vapor to condense into tiny liquid water particles. This process is known as condensation. The cloud droplets (云滴) are so small that they can remain suspended in the air for long periods. In fact, the average cloud droplet (云滴) has a diameter of about 10 micrometers, which is roughly 1/100th the diameter of a human hair. Because of their minuscule size, cloud droplets (云滴) can be influenced by various atmospheric conditions, including temperature, humidity, and wind. The interaction between cloud droplets (云滴) and other particles in the atmosphere is crucial for cloud development. When cloud droplets (云滴) collide with each other, they can merge to form larger droplets. This process is known as coalescence. As these droplets grow larger, they eventually become heavy enough to overcome the upward force of the air currents, leading to precipitation in the form of rain, snow, or hail. Moreover, the presence of aerosols—tiny solid or liquid particles suspended in the atmosphere—can significantly impact the formation and behavior of cloud droplets (云滴). Aerosols can act as nuclei around which cloud droplets (云滴) form. The type and concentration of aerosols can influence the size distribution of cloud droplets (云滴), which in turn affects cloud properties and precipitation efficiency. For instance, clouds with a high concentration of smaller cloud droplets (云滴) may produce less rain than clouds with fewer, larger droplets. Understanding cloud droplets (云滴) and their behavior is not only important for meteorology but also for climate science. Changes in the concentration and size of cloud droplets (云滴) can have significant implications for global warming and climate change. For example, clouds with more cloud droplets (云滴) tend to reflect more sunlight back into space, which can have a cooling effect on the Earth. Conversely, if clouds contain fewer, larger cloud droplets (云滴), they may absorb more heat, contributing to warming. In conclusion, cloud droplets (云滴) are fundamental elements of our atmosphere that play a vital role in weather and climate systems. By studying these tiny water particles, we can improve our understanding of weather phenomena and their effects on the environment. As we continue to explore the complexities of the atmosphere, the significance of cloud droplets (云滴) will undoubtedly remain a key focus for scientists and researchers alike.

大气是一个复杂的系统，在调节地球气候方面发挥着关键作用。这个系统中最迷人的组成部分之一就是云的形成，云由微小的水粒子组成。这些粒子被称为云滴（云滴），对天气模式和降水至关重要。理解云滴（云滴）的形成和行为可以帮助我们更好地预测天气变化和理解水循环。当温暖的空气上升并冷却时，会导致水蒸气凝结成微小的液态水粒子，这个过程被称为凝结。云滴（云滴）如此之小，以至于它们可以在空中悬浮很长时间。实际上，平均每个云滴（云滴）的直径约为10微米，约为人类头发直径的1/100。由于其微小的尺寸，云滴（云滴）会受到各种大气条件的影响，包括温度、湿度和风。云滴（云滴）与大气中其他颗粒之间的相互作用对云的形成至关重要。当云滴（云滴）彼此碰撞时，它们可以合并形成更大的水滴。这个过程被称为合并。随着这些水滴变得越来越大，它们最终会变得足够重，以克服空气流动的向上力量，从而导致以雨、雪或冰雹的形式降水。此外，气溶胶——悬浮在大气中的微小固体或液体颗粒——可以显著影响云滴（云滴）的形成和行为。气溶胶可以作为云滴（云滴）形成的核。气溶胶的类型和浓度可以影响云滴（云滴）的大小分布，这反过来又影响云的特性和降水效率。例如，具有高浓度的小型云滴（云滴）的云可能产生的降雨量比具有较少、更大水滴的云要少。理解云滴（云滴）及其行为不仅对气象学重要，而且对气候科学也是如此。云滴（云滴）的浓度和大小的变化可能对全球变暖和气候变化产生重大影响。例如，含有更多云滴（云滴）的云往往会把更多阳光反射回太空，从而对地球产生冷却效果。相反，如果云中包含较少的大型云滴（云滴），它们可能吸收更多的热量，从而导致变暖。总之，云滴（云滴）是我们大气中的基本元素，在天气和气候系统中发挥着重要作用。通过研究这些微小的水粒子，我们可以改善对天气现象及其对环境影响的理解。随着我们继续探索大气的复杂性，云滴（云滴）的重要性无疑将继续成为科学家和研究人员的重点。