atmospheric wave

简明释义

天波

英英释义

例句

1.Scientists use satellites to track atmospheric waves (大气波) for better forecasting.

科学家们利用卫星跟踪atmospheric waves（大气波）以更好地进行天气预报。

2.Researchers are studying the effects of atmospheric waves (大气波) on climate change.

研究人员正在研究atmospheric waves（大气波）对气候变化的影响。

3.During the storm, we observed a series of atmospheric waves (大气波) moving through the atmosphere.

在暴风雨期间，我们观察到一系列的atmospheric waves（大气波）穿过大气。

4.The phenomenon of atmospheric waves (大气波) can lead to unusual temperature fluctuations.

atmospheric waves（大气波）现象可能导致异常的温度波动。

5.The meteorologist explained how an atmospheric wave (大气波) can influence weather patterns across the region.

气象学家解释了如何一个atmospheric wave（大气波）可以影响该地区的天气模式。

作文

The study of the Earth's atmosphere is a fascinating field that encompasses various phenomena, one of which is the atmospheric wave (大气波). These waves play a crucial role in weather patterns, climate changes, and even in the propagation of sound and light. Understanding atmospheric waves can help us predict weather events and comprehend the dynamics of our planet's atmosphere. Atmospheric waves are disturbances that propagate through the atmosphere, often generated by factors such as wind, temperature changes, and geographical features. They can be classified into different types, including gravity waves, Rossby waves, and sound waves. Each type has its unique characteristics and impacts on the environment. For instance, gravity waves occur when there is a balance between the force of gravity and the inertia of the air parcel. These waves can be observed in the form of ripples in the atmosphere, often leading to cloud formations.Another significant type of atmospheric wave is the Rossby wave, which is related to the rotation of the Earth. These waves are essential for understanding large-scale weather patterns, such as the jet stream. The behavior of Rossby waves influences the movement of high and low-pressure systems, ultimately affecting weather conditions across vast regions. A better grasp of these waves allows meteorologists to make more accurate forecasts, thereby helping communities prepare for severe weather.Moreover, atmospheric waves also contribute to the phenomenon of sound propagation. When sound travels through the air, it creates pressure waves that move in all directions. The characteristics of these waves can be altered by atmospheric conditions, such as temperature and humidity. This is why sometimes we can hear sounds from far away on a quiet, calm day, while on windy days, sounds may be muffled or distorted.In addition to their role in weather and sound, atmospheric waves are also vital in the context of climate change. As our planet warms, the dynamics of atmospheric waves are altered, leading to shifts in weather patterns. For example, scientists have observed that the frequency and intensity of extreme weather events, such as hurricanes and droughts, can be linked to changes in the behavior of atmospheric waves. Understanding these links is crucial for developing strategies to mitigate the impacts of climate change.The study of atmospheric waves is not only limited to meteorology; it also extends to other fields such as aviation, environmental science, and even astronomy. Pilots must understand how these waves can affect flight patterns and turbulence, while environmental scientists study their impact on ecosystems. Astronomers also consider atmospheric waves when observing celestial objects, as the Earth's atmosphere can distort light from distant stars and galaxies.In conclusion, atmospheric waves (大气波) are fundamental to understanding the complexities of our atmosphere. Their influence spans various disciplines, from weather forecasting to climate science. By continuing to study these waves, we can gain deeper insights into the workings of our planet and better prepare for future challenges posed by natural phenomena. As we face an ever-changing climate, the importance of understanding atmospheric waves becomes increasingly clear, highlighting the need for ongoing research and education in this vital area of science.

地球大气的研究是一个迷人的领域，涵盖了各种现象，其中之一就是大气波（atmospheric wave）。这些波在天气模式、气候变化，甚至声音和光的传播中发挥着至关重要的作用。理解大气波可以帮助我们预测天气事件，并理解我们星球大气的动态。大气波是通过大气传播的扰动，通常由风、温度变化和地理特征等因素产生。它们可以分为不同类型，包括重力波、罗斯贝波和声波。每种类型都有其独特的特征和对环境的影响。例如，当重力和空气团的惯性之间存在平衡时，就会发生重力波。这些波可以以大气中的涟漪形式观察到，通常导致云的形成。另一种重要的大气波是罗斯贝波，它与地球的自转有关。这些波对于理解大规模天气模式，如喷流至关重要。罗斯贝波的行为影响高压和低压系统的运动，最终影响广泛地区的天气条件。更好地掌握这些波使气象学家能够做出更准确的预测，从而帮助社区为恶劣天气做好准备。此外，大气波还对声音传播现象有贡献。当声音通过空气传播时，会产生向各个方向移动的压力波。这些波的特性可以受到气象条件（如温度和湿度）的影响。这就是为什么有时在宁静的日子里，我们可以听到远处的声音，而在多风的日子里，声音可能会被模糊或扭曲。除了在天气和声音中的作用外，大气波在气候变化的背景下也至关重要。随着我们星球的变暖，大气波的动态发生了改变，导致天气模式的变化。例如，科学家观察到极端天气事件（如飓风和干旱）的频率和强度与大气波的行为变化有关。理解这些联系对于制定减轻气候变化影响的策略至关重要。对大气波的研究不仅限于气象学；它还扩展到航空、环境科学，甚至天文学等其他领域。飞行员必须了解这些波如何影响飞行模式和湍流，而环境科学家则研究它们对生态系统的影响。天文学家在观察天体时也考虑到大气波，因为地球的大气会扭曲来自遥远星星和星系的光线。总之，大气波（atmospheric wave）对于理解我们大气的复杂性至关重要。它们的影响跨越多个学科，从天气预报到气候科学。通过继续研究这些波，我们可以深入了解我们星球的运作，并更好地为未来自然现象带来的挑战做好准备。面对不断变化的气候，理解大气波的重要性愈发明显，突显了在这一重要科学领域进行持续研究和教育的必要性。