centroid of storm rainfall

简明释义

暴雨中心;

英英释义

例句

1.By analyzing satellite data, researchers identified the centroid of storm rainfall during the hurricane's peak.

通过分析卫星数据，研究人员确定了飓风峰值期间的暴雨降水的重心。

2.Understanding the centroid of storm rainfall helps in forecasting potential landslides in mountainous regions.

理解暴雨降水的重心有助于预测山区潜在的山体滑坡。

3.The flood risk assessment was based on the centroid of storm rainfall over the last decade.

洪水风险评估是基于过去十年的暴雨降水的重心。

4.Emergency services used the centroid of storm rainfall to allocate resources effectively in the aftermath of the storm.

紧急服务部门利用暴雨降水的重心在风暴过后有效分配资源。

5.The meteorologist calculated the centroid of storm rainfall to predict the areas most affected by flooding.

气象学家计算了暴雨降水的重心以预测受洪水影响最严重的地区。

作文

Understanding the concept of the centroid of storm rainfall is crucial for meteorologists and environmental scientists. The term 'centroid' refers to the center of mass of a geometric object, which in this context represents the average location of rainfall during a storm. This concept is significant because it helps in analyzing how rain is distributed over an area during storm events. By identifying the centroid of storm rainfall, researchers can better understand the impact of storms on local ecosystems and infrastructure. When a storm occurs, it does not uniformly distribute rain across the affected region. Instead, certain areas receive heavy downpours while others may experience little to no rainfall at all. The centroid of storm rainfall provides a quantitative measure of this distribution. For instance, if a storm system produces heavy rain primarily in the northern part of a city, the centroid will be located closer to that area rather than being centrally located within the city. This information is vital for urban planning and disaster management, as it allows authorities to prepare for potential flooding and other related issues.Moreover, understanding the centroid of storm rainfall can help in predicting future weather patterns. Meteorologists use historical data to analyze where storm rainfall centroids have been located over time. This analysis can reveal trends and help forecast where future storms may concentrate their rainfall. Such predictions are essential for agriculture, as farmers can make informed decisions about planting and irrigation based on anticipated rainfall patterns.Furthermore, the centroid of storm rainfall plays a key role in hydrological modeling. Water resource managers rely on accurate rainfall data to manage reservoirs and water supplies. By knowing where the centroid of rainfall is likely to occur, they can better predict runoff into rivers and lakes, ensuring that water levels remain stable and that communities have access to necessary resources.In addition to practical applications, there is also a theoretical aspect to the centroid of storm rainfall. Researchers study the mathematical models that describe storm behavior, including how to calculate the centroid based on various factors such as wind patterns, temperature, and humidity. These models can become quite complex, but they provide valuable insights into the dynamics of storm systems.In conclusion, the centroid of storm rainfall is a critical concept in meteorology and environmental science. It serves as a focal point for understanding how rainfall is distributed during storms, which has implications for urban planning, agricultural practices, and water resource management. By studying and applying this concept, scientists and policymakers can work together to mitigate the effects of storms and enhance community resilience against extreme weather events. As climate change continues to alter weather patterns globally, the importance of accurately determining the centroid of storm rainfall will only grow, making it an essential area of focus for ongoing research and innovation.

理解“centroid of storm rainfall”这个概念对于气象学家和环境科学家至关重要。术语“centroid”指的是几何对象的质心，在此上下文中代表了暴风雨期间降雨的平均位置。这个概念很重要，因为它有助于分析在风暴事件中降雨如何在一个地区分布。通过识别“centroid of storm rainfall”，研究人员可以更好地理解风暴对当地生态系统和基础设施的影响。当风暴发生时，它并不会在受影响区域均匀分配降雨。相反，某些区域会遭遇强降雨，而其他地方可能几乎没有降雨。“centroid of storm rainfall”提供了这种分布的定量测量。例如，如果一个风暴系统在城市的北部产生了强降雨，那么质心会位于该地区附近，而不是位于城市的中心。这些信息对于城市规划和灾害管理至关重要，因为它使当局能够为潜在的洪水和其他相关问题做好准备。此外，理解“centroid of storm rainfall”有助于预测未来的天气模式。气象学家使用历史数据分析风暴降雨质心在时间上的位置。这种分析可以揭示趋势，并帮助预测未来风暴可能集中降雨的地方。这些预测对农业至关重要，因为农民可以根据预期的降雨模式做出明智的种植和灌溉决策。此外，“centroid of storm rainfall”在水文模型中也发挥着关键作用。水资源管理者依赖准确的降雨数据来管理水库和水供应。通过知道降雨质心可能出现的位置，他们可以更好地预测河流和湖泊的径流，从而确保水位保持稳定，并确保社区获得必要的资源。除了实际应用外，“centroid of storm rainfall”还有理论方面的研究。研究人员研究描述风暴行为的数学模型，包括如何根据风速、温度和湿度等各种因素计算质心。这些模型可能变得相当复杂，但它们为风暴系统的动态提供了宝贵的见解。总之，“centroid of storm rainfall”是气象学和环境科学中的一个关键概念。它作为理解风暴期间降雨分布的焦点，对城市规划、农业实践和水资源管理具有重要意义。通过研究和应用这一概念，科学家和政策制定者可以共同努力减轻风暴的影响，提高社区对极端天气事件的韧性。随着气候变化继续改变全球天气模式，准确确定“centroid of storm rainfall”的重要性只会增加，使其成为持续研究和创新的关键关注领域。