angle of drift

简明释义

1. 航偏角; 2. 偏流角; 3. 漂移角;

英英释义

例句

1.The sailor calculated the angle of drift (漂移角) to ensure they would reach the harbor safely.

水手计算了漂移角以确保他们能安全到达港口。

2.The engineer explained how the angle of drift (漂移角) affects the performance of the vehicle.

工程师解释了漂移角如何影响车辆的性能。

3.In navigation, understanding the angle of drift (漂移角) is crucial for accurate course plotting.

在导航中，理解漂移角对于准确绘制航线至关重要。

4.During the race, the team had to consider the angle of drift (漂移角) when adjusting their sails.

在比赛中，团队在调整帆时必须考虑漂移角。

5.The pilot adjusted the flight path to account for the angle of drift (漂移角) caused by strong winds.

飞行员调整了航线，以考虑强风造成的漂移角。

作文

The concept of the angle of drift is often discussed in the fields of physics and engineering, particularly in relation to navigation and the movement of objects through various mediums. To understand this term, we must first consider what drifting means in a physical context. Drifting refers to the gradual movement of an object away from its intended path due to external forces acting upon it. This can be observed in various scenarios, such as a boat being pushed off course by ocean currents or an airplane being affected by wind during flight.In navigation, the angle of drift is crucial for determining how much an object will deviate from its intended trajectory. For instance, when a ship sails across the ocean, it must account for the currents that may push it away from its planned route. The angle of drift helps navigators calculate the necessary adjustments to their course, ensuring they reach their destination efficiently. Similarly, pilots must consider the angle of drift caused by wind when planning their flight paths. By understanding this angle, they can make informed decisions about altitude and direction, which are essential for safe and effective flying.Moreover, the angle of drift is not limited to just nautical or aerial navigation. It also applies to other fields such as robotics and autonomous vehicles. For example, self-driving cars utilize advanced algorithms to detect and compensate for any drifting that may occur due to road conditions or obstacles. The angle of drift in this context helps the vehicle maintain a straight path, enhancing safety and performance.Understanding the angle of drift is also important in sports, especially in activities like skiing or snowboarding. Athletes must be aware of how their movements can be influenced by the slope of the terrain and the speed at which they travel. The angle of drift can affect their balance and control, making it vital for them to adapt their techniques accordingly.In conclusion, the angle of drift is a multifaceted concept that plays a significant role in various domains. Whether in navigation, robotics, or sports, understanding this angle enables individuals to make better decisions and improve their performance. By considering the angle of drift, we can enhance our ability to navigate through life’s challenges, both literally and metaphorically. It serves as a reminder that while we may have a clear destination in mind, external factors can influence our journey, and adaptability is key to success.

“漂移角”这一概念常在物理和工程领域讨论，特别是与导航以及物体在不同介质中运动有关。要理解这个术语，我们首先必须考虑漂移在物理背景下的含义。漂移是指由于外部力量作用于物体而导致其逐渐偏离预定路径的过程。这可以在各种场景中观察到，例如船只被海洋洋流推离航线，或者飞机在飞行过程中受到风的影响。在导航中，“漂移角”对于确定物体偏离其预定轨迹的程度至关重要。例如，当一艘船横渡海洋时，它必须考虑可能将其推离计划路线的洋流。“漂移角”帮助导航员计算必要的航向调整，确保他们有效地到达目的地。同样，飞行员在规划航线时也必须考虑风造成的“漂移角”。通过理解这个角度，他们可以就高度和方向做出明智的决定，这对于安全有效的飞行至关重要。此外，“漂移角”不仅限于海洋或空中导航。它也适用于其他领域，如机器人技术和自动驾驶汽车。例如，自动驾驶汽车利用先进的算法检测并补偿由于道路条件或障碍物可能发生的漂移。在这种情况下，“漂移角”帮助车辆保持直线路径，提高安全性和性能。理解“漂移角”在体育运动中也很重要，尤其是在滑雪或单板滑雪等活动中。运动员必须意识到他们的动作如何受到地形坡度和速度的影响。“漂移角”可能影响他们的平衡和控制，因此他们必须相应地调整技巧。总之，“漂移角”是一个多方面的概念，在多个领域中发挥着重要作用。无论是在导航、机器人技术还是体育运动中，理解这个角度使个人能够做出更好的决策并提高表现。通过考虑“漂移角”，我们可以增强自己应对生活挑战的能力，无论是字面上还是隐喻上。这提醒我们，尽管我们可能心中有明确的目的地，但外部因素可能会影响我们的旅程，而适应能力是成功的关键。