anticyclonic curvature

简明释义

反气旋曲率

英英释义

例句

1.During the flight, the pilot noted the anticyclonic curvature 反气旋曲率 in the atmosphere, which helped in navigating around storm systems.

在飞行过程中，飞行员注意到大气中的反气旋曲率 反气旋曲率，这有助于绕过风暴系统。

2.The presence of anticyclonic curvature 反气旋曲率 in the upper atmosphere is often associated with dry conditions.

上层大气中存在的反气旋曲率 反气旋曲率通常与干燥条件相关。

3.The anticyclonic curvature 反气旋曲率 observed on the satellite images indicated a high-pressure system moving into the area.

卫星图像上观察到的反气旋曲率 反气旋曲率表明一个高压系统正在向该地区移动。

4.In oceanography, anticyclonic curvature 反气旋曲率 can influence current patterns and marine life distribution.

在海洋学中，反气旋曲率 反气旋曲率会影响洋流模式和海洋生物分布。

5.The meteorologist explained that the region experienced strong anticyclonic curvature 反气旋曲率, leading to clear skies and calm weather.

气象学家解释说，该地区经历了强烈的反气旋曲率 反气旋曲率，导致晴空万里和宁静的天气。

作文

Understanding the dynamics of weather systems is crucial for meteorologists and anyone interested in atmospheric science. One important concept that arises in this field is anticyclonic curvature. This term refers to the curvature of airflows associated with high-pressure systems, known as anticyclones. In simpler terms, when we talk about anticyclonic curvature, we are discussing how the air moves around a high-pressure area in a clockwise direction in the Northern Hemisphere and counterclockwise in the Southern Hemisphere. This behavior is primarily influenced by the Coriolis effect, which is the result of the Earth's rotation. Anticyclones are characterized by descending air, which leads to clear skies and stable weather conditions. The anticyclonic curvature plays a significant role in maintaining these clear conditions because it helps to suppress cloud formation and precipitation. As the air descends, it warms up, leading to further evaporation of moisture in the atmosphere, which contributes to the stability of the weather. Understanding this process is essential for predicting weather patterns, especially during seasons where high-pressure systems dominate.In contrast to low-pressure systems, where the air rises and spirals inward, high-pressure systems exhibit a more organized flow due to the anticyclonic curvature. This organized flow is crucial for various weather phenomena, including the development of trade winds and the positioning of jet streams. Meteorologists often analyze the anticyclonic curvature to forecast weather changes, as shifts in this curvature can indicate transitions between different weather patterns.Moreover, the impact of anticyclonic curvature extends beyond just local weather. It can affect regional climates, especially in areas where anticyclonic systems linger for extended periods. For instance, prolonged anticyclonic conditions can lead to droughts in some regions, while others may experience unusually warm temperatures. Understanding these implications allows scientists and policymakers to prepare for potential environmental impacts.In summary, anticyclonic curvature is a fundamental aspect of atmospheric dynamics that significantly influences weather patterns and climate. By comprehending how air moves around high-pressure systems, we can better predict weather changes and understand their broader implications on our environment. This knowledge is not only vital for meteorologists but also for anyone who seeks to understand the complex interactions within our atmosphere. As we continue to study these systems, the importance of anticyclonic curvature will remain a key topic in the field of meteorology, aiding in our quest to unravel the complexities of weather and climate science.

理解天气系统的动态对气象学家和任何对大气科学感兴趣的人来说都是至关重要的。这个领域中出现的一个重要概念是反气旋曲率。这个术语指的是与高压系统（即反气旋）相关的气流的曲率。简单来说，当我们谈论反气旋曲率时，我们是在讨论空气如何在北半球围绕高压区顺时针方向流动，而在南半球则是逆时针方向。这种行为主要受到科里奥利效应的影响，科里奥利效应是地球自转的结果。反气旋的特点是下沉的空气，这导致了晴朗的天空和稳定的天气条件。反气旋曲率在维持这些晴朗条件方面发挥着重要作用，因为它有助于抑制云的形成和降水。随着空气的下沉，它会升温，从而进一步蒸发大气中的水分，这有助于天气的稳定。理解这个过程对于预测天气模式至关重要，尤其是在高压系统主导的季节。与低压系统不同，低压系统的空气上升并向内螺旋流动，高压系统则由于反气旋曲率展现出更为有序的流动。这种有序的流动对各种天气现象至关重要，包括贸易风的发展和喷流的位置。气象学家通常分析反气旋曲率来预测天气变化，因为这种曲率的变化可能表明不同天气模式之间的过渡。此外，反气旋曲率的影响不仅限于局部天气。它可以影响区域气候，特别是在反气旋系统持续存在较长时间的地区。例如，长期的反气旋条件可能导致某些地区出现干旱，而其他地区则可能经历异常温暖的气温。理解这些影响使科学家和决策者能够为潜在的环境影响做好准备。总之，反气旋曲率是大气动态的一个基本方面，对天气模式和气候产生重大影响。通过理解空气如何在高压系统周围移动，我们可以更好地预测天气变化，并了解其对环境的更广泛影响。这一知识不仅对气象学家至关重要，也对任何希望理解我们大气中复杂相互作用的人来说都是如此。随着我们继续研究这些系统，反气旋曲率的重要性将仍然是气象学领域的一个关键话题，帮助我们揭示天气和气候科学的复杂性。