resultant wind velocity

简明释义

合成风速

英英释义

例句

1.The resultant wind velocity can significantly affect the flight path of an aircraft.

对飞机的飞行路径来说，合成风速可能会产生显著影响。

2.The pilot calculated the resultant wind velocity to determine the best approach for landing.

飞行员计算了合成风速以确定最佳着陆方式。

3.In mountaineering, understanding the resultant wind velocity helps climbers prepare for conditions.

在登山中，了解合成风速有助于登山者为天气条件做准备。

4.Sailors often adjust their sails based on the resultant wind velocity to maximize speed.

水手们常常根据合成风速调整帆，以最大化速度。

5.Meteorologists use instruments to measure the resultant wind velocity during storms.

气象学家在暴风雨期间使用仪器测量合成风速。

作文

Understanding the concept of resultant wind velocity is crucial for various fields such as meteorology, aviation, and marine navigation. The term refers to the overall speed and direction of wind at a specific point, taking into account all contributing factors. This includes not only the speed of the wind itself but also any other influences that may affect it, such as geographical features, temperature variations, and atmospheric pressure changes. By analyzing the resultant wind velocity at different altitudes and locations, scientists and engineers can make more accurate predictions about weather patterns and potential hazards.In meteorology, the resultant wind velocity is essential for understanding storm systems and their movements. For instance, during hurricanes, the wind can be influenced by the rotation of the Earth, known as the Coriolis effect, as well as by the temperature differences between land and sea. Meteorologists use advanced models to calculate the resultant wind velocity to predict the path of these storms, which is vital for issuing warnings and preparing communities for severe weather. In aviation, pilots must be acutely aware of the resultant wind velocity when planning flights. Wind can significantly affect flight paths, fuel consumption, and landing approaches. A strong headwind can slow down an aircraft, while a tailwind can speed it up. Understanding the resultant wind velocity allows pilots to adjust their flight plans accordingly, ensuring safer and more efficient travel.Similarly, in marine navigation, the resultant wind velocity plays a key role in determining the best routes for ships. Sailors must consider both the wind speed and its direction to optimize their sailing strategies. The resultant wind velocity helps them understand how the wind will interact with ocean currents and tides, which can greatly influence their journey. Accurate calculations of the resultant wind velocity can mean the difference between a smooth voyage and a perilous one.Moreover, the study of resultant wind velocity is not limited to professionals in these fields; it is also important for everyday individuals. For example, hikers and outdoor enthusiasts should be aware of the resultant wind velocity when planning their activities. High winds can create dangerous conditions, particularly in mountainous regions or near bodies of water. By checking local weather forecasts that include information about resultant wind velocity, individuals can make informed decisions about their safety and comfort.In conclusion, the concept of resultant wind velocity encompasses a wide range of applications and implications. From predicting weather patterns to ensuring safe travel in the air and on water, understanding this term is essential for both professionals and the general public. As our knowledge of wind dynamics continues to grow, so too will our ability to harness this natural force for various purposes, ultimately leading to safer and more efficient practices in many areas of life. The importance of accurately measuring and interpreting resultant wind velocity cannot be overstated, as it directly impacts our ability to navigate and respond to the ever-changing environment around us.

理解结果风速的概念对于气象学、航空和海洋导航等多个领域至关重要。这个术语指的是在特定点的整体风速和方向，考虑到所有影响因素。这不仅包括风本身的速度，还包括可能影响它的其他因素，如地理特征、温度变化和大气压力变化。通过分析不同高度和位置的结果风速，科学家和工程师可以更准确地预测天气模式和潜在的危险。在气象学中，结果风速对于理解风暴系统及其运动至关重要。例如，在飓风期间，风可能受到地球自转的影响，这被称为科里奥利效应，以及陆地和海洋之间的温度差异。气象学家使用先进模型来计算结果风速，以预测这些风暴的路径，这对于发布警报和准备社区应对恶劣天气至关重要。在航空领域，飞行员在规划航班时必须清楚结果风速。风会显著影响航线、燃料消耗和着陆方式。强大的逆风会减慢飞机速度，而顺风则会加快速度。了解结果风速使飞行员能够相应调整航班计划，从而确保更安全、更高效的旅行。同样，在海洋导航中，结果风速在确定船只最佳航线方面发挥着关键作用。水手必须考虑风速及其方向，以优化航行策略。结果风速帮助他们理解风如何与海流和潮汐相互作用，这会极大地影响他们的旅程。准确计算结果风速可能意味着平稳航行和危险航行之间的区别。此外，结果风速的研究不仅限于这些领域的专业人士；日常个人也很重要。例如，徒步旅行者和户外爱好者在规划活动时应该注意结果风速。强风可能会造成危险条件，特别是在山区或靠近水体的地方。通过查看包含结果风速信息的当地天气预报，个人可以做出有关安全和舒适的明智决策。总之，结果风速的概念涵盖了广泛的应用和意义。从预测天气模式到确保空中和水上的安全旅行，理解这个术语对专业人士和公众都至关重要。随着我们对风动力学的认识不断增长，我们将能够利用这一自然力量用于各种目的，最终在生活的许多领域实现更安全、更高效的实践。准确测量和解释结果风速的重要性不容低估，因为它直接影响我们在不断变化的环境中导航和应对的能力。