resultant wind

简明释义

合成风

英英释义

例句

1.To calculate the resultant wind, we need to consider both the wind speed and direction.

要计算合成风，我们需要考虑风速和方向。

2.The pilot had to account for the resultant wind when planning the flight path.

飞行员在规划航线时必须考虑合成风。

3.The meteorologist explained how the resultant wind affects weather patterns.

气象学家解释了合成风如何影响天气模式。

4.The sailor adjusted the sails to optimize the performance based on the resultant wind.

水手根据合成风调整帆以优化性能。

5.In sailing, understanding the resultant wind helps in maneuvering the boat effectively.

在航行中，理解合成风有助于有效操控船只。

作文

In the study of meteorology and aerodynamics, understanding the concept of resultant wind is crucial. The term resultant wind refers to the combined effect of various wind vectors acting on an object or a specific area. This concept becomes particularly important when considering how different winds interact with each other, especially in aviation and sailing. For instance, when an airplane is flying, it encounters winds coming from different directions and at varying speeds. The resultant wind is the overall wind effect that the aircraft experiences, which can significantly influence its performance, fuel consumption, and safety.To illustrate this further, imagine a sailboat navigating through the water. The boat may be affected by a steady breeze coming from one direction while also encountering gusts from another. The resultant wind in this scenario determines how well the sails fill and how effectively the boat can move forward. If the sailor understands the resultant wind, they can adjust their sails accordingly to maximize speed and efficiency.In addition to practical applications, the resultant wind has theoretical implications. Meteorologists use complex models to predict how winds will interact in different atmospheric conditions. By analyzing the resultant wind, they can forecast weather patterns more accurately. This is particularly important for predicting storms, where the interaction of multiple wind systems can lead to severe weather events.Furthermore, the resultant wind plays a significant role in the field of renewable energy. Wind turbines rely on the resultant wind to generate electricity. Engineers must consider the resultant wind when designing turbine locations and orientations to ensure maximum efficiency. A thorough understanding of how wind interacts in a given area allows for better placement of these turbines, ultimately leading to more sustainable energy production.The concept of resultant wind also extends to everyday life. For example, when walking outside on a windy day, individuals might feel the effects of multiple wind sources. The resultant wind they experience will depend on their orientation and movement relative to the wind. This understanding can help people dress appropriately or plan their activities based on the expected wind conditions.In conclusion, the idea of resultant wind encompasses various fields, from aviation and sailing to meteorology and renewable energy. By grasping this concept, individuals can make informed decisions that enhance safety, efficiency, and sustainability. Whether you are a pilot adjusting your flight path, a sailor optimizing your route, or a meteorologist predicting weather patterns, understanding the resultant wind is essential. As we continue to explore and harness the power of wind, the significance of the resultant wind will only grow, highlighting its importance in both scientific and practical applications.

在气象学和空气动力学的研究中，理解resultant wind的概念至关重要。术语resultant wind指的是作用在物体或特定区域上的各种风向量的综合效果。这个概念在考虑不同风如何相互作用时尤为重要，尤其是在航空和航海领域。例如，当一架飞机飞行时，它会遇到来自不同方向和不同速度的风。resultant wind是飞机所经历的整体风效应，这可以显著影响其性能、燃油消耗和安全性。为了进一步说明这一点，想象一艘帆船在水中航行。船可能受到来自一个方向的稳定微风的影响，同时也会遇到来自另一个方向的阵风。在这种情况下，resultant wind决定了帆的充盈程度以及船的前进效率。如果水手理解resultant wind，他们可以相应地调整帆，以最大化速度和效率。除了实际应用外，resultant wind还具有理论意义。气象学家使用复杂的模型来预测风在不同大气条件下如何相互作用。通过分析resultant wind，他们可以更准确地预测天气模式。这在预测风暴时尤为重要，因为多个风系统的相互作用可能导致严重的天气事件。此外，resultant wind在可再生能源领域也发挥着重要作用。风力发电机依赖于resultant wind来发电。工程师在设计涡轮机的位置和方向时必须考虑resultant wind，以确保最大效率。对风在特定区域内如何相互作用的透彻理解，可以更好地放置这些涡轮机，最终导致更可持续的能源生产。resultant wind的概念也扩展到日常生活中。例如，在一个多风的日子里走在外面，人们可能会感受到多种风源的影响。他们所经历的resultant wind将取决于他们的朝向和与风的相对运动。这种理解可以帮助人们适当着装或根据预期风况规划活动。总之，resultant wind的概念涵盖了多个领域，从航空和航海到气象学和可再生能源。通过掌握这一概念，个人可以做出明智的决策，从而提高安全性、效率和可持续性。无论您是调整飞行路径的飞行员、优化航线的水手，还是预测天气模式的气象学家，理解resultant wind都是必不可少的。随着我们继续探索和利用风的力量，resultant wind的重要性只会增加，突显出它在科学和实际应用中的重要性。