angle of yaw

简明释义

船首偏荡角

英英释义

例句

1.When sailing, adjusting the angle of yaw helps to navigate through strong winds.

在航行时，调整偏航角有助于在强风中航行。

2.In drone racing, controlling the angle of yaw is crucial for making sharp turns.

在无人机比赛中，控制偏航角对于急转弯至关重要。

3.The engineer measured the angle of yaw to ensure the vehicle's stability.

工程师测量了偏航角以确保车辆的稳定性。

4.The pilot adjusted the angle of yaw to maintain a straight flight path.

飞行员调整了偏航角以保持直线飞行路径。

5.To improve the maneuverability, the robot’s angle of yaw was recalibrated.

为了提高机动性，机器人的偏航角进行了重新校准。

作文

In the field of aviation and engineering, understanding the dynamics of movement is crucial for safety and efficiency. One important concept that often arises in discussions about navigation and control is the angle of yaw. The angle of yaw refers to the angle between the direction an object is pointed and its actual path over the ground. This term is particularly significant in the context of aircraft, ships, and vehicles, where precise control over direction is necessary. To illustrate this concept, let’s consider an airplane taking off from a runway. As the airplane accelerates down the runway, it must maintain a specific heading to ensure a successful takeoff. However, due to wind conditions or other external factors, the airplane may experience a deviation from its intended path. This deviation can be quantified by measuring the angle of yaw, which helps pilots understand how much they need to adjust their course to stay on track.The angle of yaw is not only relevant in aviation but also plays a vital role in maritime navigation. For instance, a ship navigating through turbulent waters must constantly adjust its heading to counteract the effects of waves and currents. By monitoring the angle of yaw, the captain can make informed decisions about steering and speed to ensure the vessel remains on its intended course. This adjustment process is essential for avoiding obstacles and ensuring the safety of both the crew and the ship.Moreover, the angle of yaw is also applicable in the automotive industry. When a car turns, the driver must be aware of the vehicle's orientation relative to the road. If a car is traveling straight but the steering wheel is turned, the angle of yaw indicates how far the car has deviated from its original heading. This information is critical for maintaining control and preventing accidents. Advanced driver-assistance systems (ADAS) utilize sensors to monitor the angle of yaw and provide real-time feedback to the driver, enhancing safety and performance.In summary, the angle of yaw is a fundamental concept in various fields, including aviation, maritime navigation, and automotive engineering. Understanding this angle allows operators to make necessary adjustments to maintain control over their vehicles, whether in the air, on water, or on land. As technology continues to advance, the importance of accurately measuring and interpreting the angle of yaw will only grow, leading to safer and more efficient travel. By grasping the significance of the angle of yaw, individuals involved in these industries can enhance their skills and contribute to improved operational outcomes. The study and application of this concept are essential for anyone aiming to excel in navigation and control systems, ensuring that they can respond effectively to the challenges posed by their environments.

在航空和工程领域，理解运动的动态对于安全和效率至关重要。在关于导航和控制的讨论中，一个重要的概念是偏航角。偏航角指的是物体指向的方向与其在地面上的实际路径之间的角度。这个术语在飞机、船只和车辆的上下文中尤为重要，因为精确控制方向是必要的。为了说明这一概念，让我们考虑一架飞机从跑道起飞。当飞机在跑道上加速时，它必须保持特定的航向，以确保成功起飞。然而，由于风的条件或其他外部因素，飞机可能会出现偏离其预定路径的情况。这种偏差可以通过测量偏航角来量化，这有助于飞行员了解他们需要调整航向的程度以保持在正确的轨道上。偏航角不仅在航空中相关，在海事导航中也扮演着重要角色。例如，一艘在湍急水域中航行的船只必须不断调整其航向，以抵消波浪和洋流的影响。通过监测偏航角，船长可以做出明智的关于操舵和速度的决策，以确保船只保持在其预定航线。这一调整过程对于避免障碍物和确保船员及船只的安全至关重要。此外，偏航角在汽车工业中也适用。当一辆车转弯时，驾驶员必须意识到车辆相对于道路的方向。如果一辆车直行但方向盘转动，那么偏航角指示了车辆偏离其原始航向的程度。这一信息对于保持控制和防止事故至关重要。先进的驾驶辅助系统（ADAS）利用传感器来监测偏航角并提供实时反馈给驾驶员，从而增强安全性和性能。总之，偏航角是多个领域中的基本概念，包括航空、海事导航和汽车工程。理解这个角度使操作员能够进行必要的调整，以保持对他们的车辆的控制，无论是在空中、水上还是陆地上。随着技术的不断进步，准确测量和解释偏航角的重要性只会增加，从而导致更安全、更高效的旅行。通过掌握偏航角的重要性，参与这些行业的个人可以提高他们的技能，并为改善操作结果做出贡献。对这一概念的研究和应用对于任何希望在导航和控制系统中脱颖而出的人来说都是必不可少的，确保他们能够有效应对环境带来的挑战。