wave cyclone

简明释义

波动性气旋

英英释义

例句

1.Meteorologists are tracking a new wave cyclone 波动气旋 forming over the Atlantic Ocean.

气象学家正在追踪一股新的wave cyclone 波动气旋在大西洋上空形成。

2.The wave cyclone 波动气旋 brought heavy rains and strong winds to the coastal areas.

这场wave cyclone 波动气旋给沿海地区带来了大雨和强风。

3.During winter, wave cyclones 波动气旋 can significantly affect weather patterns across the Midwest.

在冬季，wave cyclones 波动气旋可以显著影响中西部的天气模式。

4.A powerful wave cyclone 波动气旋 is expected to hit the region by the end of the week.

预计一场强大的wave cyclone 波动气旋将在本周末袭击该地区。

5.Understanding the lifecycle of a wave cyclone 波动气旋 is crucial for accurate weather forecasting.

了解wave cyclone 波动气旋的生命周期对准确的天气预报至关重要。

作文

Understanding the phenomenon of a wave cyclone is crucial for meteorology and weather forecasting. A wave cyclone is a type of low-pressure system that forms along a front, typically characterized by a wave-like pattern in the atmospheric pressure. These systems can lead to significant weather changes, including storms, heavy rainfall, and strong winds. The formation of a wave cyclone generally occurs when warm air rises and cool air sinks, creating instability in the atmosphere. As this process unfolds, it generates a swirling motion that can intensify into a more organized storm system.In the context of climate change, understanding wave cyclones has become even more critical. As global temperatures rise, the behavior of these systems can also change, potentially leading to more severe weather events. For example, warmer ocean temperatures can provide additional energy to wave cyclones, making them stronger and more capable of causing damage. This has been observed in recent years, with increasing frequencies of powerful storms attributed to the influence of wave cyclones.Meteorologists use various tools to study and predict the behavior of wave cyclones. Satellite imagery, radar data, and computer models are essential in tracking these systems and providing timely warnings to affected areas. The ability to forecast the path and intensity of a wave cyclone allows communities to prepare for potential impacts, thereby reducing risks to life and property.Furthermore, research into wave cyclones contributes to our understanding of broader climatic patterns. These systems are often linked to larger-scale atmospheric phenomena, such as the jet stream. Changes in the jet stream can influence the frequency and strength of wave cyclones, thus affecting weather patterns across vast regions. By studying these connections, scientists can gain insights into how climate change may alter the behavior of wave cyclones in the future.In conclusion, a wave cyclone is more than just a meteorological term; it represents a complex interaction between various atmospheric elements that can have significant implications for weather and climate. As our world continues to face the challenges posed by climate change, the importance of understanding wave cyclones cannot be overstated. By enhancing our knowledge of these systems, we can improve our preparedness for extreme weather events, ultimately safeguarding lives and property. Therefore, investing in research and education about wave cyclones is essential for building resilience against the changing climate and its associated weather patterns.

理解wave cyclone现象对于气象学和天气预报至关重要。wave cyclone是一种沿着锋面形成的低压系统，通常以大气压力的波浪形模式为特征。这些系统可以导致显著的天气变化，包括风暴、大雨和强风。wave cyclone的形成通常发生在暖空气上升和冷空气下沉时，造成大气的不稳定性。当这个过程展开时，它会产生一种旋转运动，可能会增强成更有组织的风暴系统。在气候变化的背景下，理解wave cyclone变得更加关键。随着全球气温上升，这些系统的行为也可能发生变化，可能导致更严重的天气事件。例如，海洋温度的升高可以为wave cyclone提供额外的能量，使其更强大，更能够造成破坏。这在近年来得到了观察，越来越频繁的强风暴被归因于wave cyclone的影响。气象学家使用各种工具来研究和预测wave cyclone的行为。卫星图像、雷达数据和计算机模型在追踪这些系统和向受影响地区提供及时警报方面至关重要。能够预测wave cyclone的路径和强度使社区能够为潜在影响做好准备，从而减少对生命和财产的风险。此外，对wave cyclone的研究有助于我们理解更广泛的气候模式。这些系统往往与更大尺度的大气现象相关，例如喷流。喷流的变化可以影响wave cyclone的频率和强度，从而影响广泛区域的天气模式。通过研究这些联系，科学家们可以深入了解气候变化如何改变wave cyclone在未来的行为。总之，wave cyclone不仅仅是一个气象术语；它代表了各种大气元素之间复杂的相互作用，这可能对天气和气候产生重大影响。随着我们的世界继续面临气候变化带来的挑战，理解wave cyclone的重要性不容小觑。通过增强我们对这些系统的知识，我们可以改善对极端天气事件的准备，最终保护生命和财产。因此，投资于关于wave cyclone的研究和教育对于建立抵御气候变化及其相关天气模式的韧性至关重要。