yawing velocity

简明释义

首摇速度

英英释义

例句

1.Engineers must monitor the yawing velocity 偏航速度 of the ship to ensure it remains on course.

工程师必须监测船只的偏航速度以确保其保持在航线上。

2.When performing aerobatics, pilots need to control the yawing velocity 偏航速度 to execute precise maneuvers.

在进行特技飞行时，飞行员需要控制偏航速度以执行精确的动作。

3.The drone's yawing velocity 偏航速度 was adjusted to improve its stability during flight.

无人机的偏航速度被调整以提高其飞行稳定性。

4.The simulation software provides real-time data on the yawing velocity 偏航速度 of the aircraft.

模拟软件提供有关飞机偏航速度的实时数据。

5.A high yawing velocity 偏航速度 can lead to loss of control in a vehicle.

高偏航速度可能导致车辆失去控制。

作文

In the world of aviation and maritime navigation, understanding the dynamics of movement is crucial for safety and efficiency. One of the key concepts in this field is yawing velocity, which refers to the rate at which an object rotates around its vertical axis. This concept is particularly important for aircraft and ships, as it affects their maneuverability and stability during operation. Understanding yawing velocity can help pilots and captains make informed decisions while navigating through various conditions.To elaborate, yawing velocity is measured in degrees per second and indicates how quickly an object can change its heading without altering its speed. For instance, a plane that has a high yawing velocity can turn sharply and respond quickly to changes in direction, which is essential during takeoff, landing, or when avoiding obstacles. Similarly, ships with optimal yawing velocity can navigate through tight channels or avoid collisions in busy ports.The importance of yawing velocity extends beyond mere navigation; it also plays a vital role in the design of vessels and aircraft. Engineers must consider this parameter when designing control surfaces such as rudders and ailerons, which are responsible for managing the yaw motion. A well-designed control system can enhance the yawing velocity of an aircraft or ship, leading to improved performance and safety.Moreover, environmental factors such as wind and water currents can significantly impact yawing velocity. For example, strong crosswinds can affect an airplane's ability to maintain its intended course, causing it to yaw unexpectedly. Similarly, a ship may experience changes in yawing velocity due to waves and tidal movements. Navigators must be aware of these factors and adjust their strategies accordingly to maintain control over their vessels.In conclusion, yawing velocity is a fundamental concept in the fields of aviation and maritime navigation. It not only influences the maneuverability and responsiveness of aircraft and ships but also plays a critical role in their design and operational safety. By mastering the principles of yawing velocity, pilots and captains can enhance their skills and ensure safer journeys across the skies and seas. As technology continues to evolve, understanding and optimizing yawing velocity will remain essential for future advancements in transportation.

在航空和海洋导航的世界中，理解运动的动态对于安全和效率至关重要。一个关键概念是偏航速度，它指的是物体围绕其垂直轴旋转的速率。这个概念对于飞机和船只尤其重要，因为它影响着它们在操作过程中的机动性和稳定性。理解偏航速度可以帮助飞行员和船长在各种条件下做出明智的决策。具体来说，偏航速度以每秒度数来衡量，表示物体在不改变速度的情况下改变航向的快慢。例如，一架具有高偏航速度的飞机可以迅速转弯，并快速响应方向的变化，这在起飞、着陆或避开障碍物时至关重要。同样，具有最佳偏航速度的船只可以在狭窄的通道中航行或在繁忙的港口中避免碰撞。偏航速度的重要性不仅限于导航；它在船舶和飞机的设计中也发挥着重要作用。工程师在设计控制面（如舵和副翼）时必须考虑这一参数，这些控制面负责管理偏航运动。一个设计良好的控制系统可以增强飞机或船只的偏航速度，从而提高性能和安全性。此外，环境因素如风和水流也会显著影响偏航速度。例如，强烈的侧风会影响飞机保持预定航向的能力，导致其意外偏航。同样，船只可能会因为波浪和潮汐的变化而经历偏航速度的变化。导航员必须意识到这些因素，并相应调整他们的策略，以保持对船只的控制。总之，偏航速度是航空和海洋导航领域的基本概念。它不仅影响飞机和船只的机动性和响应性，还在它们的设计和操作安全中发挥着关键作用。通过掌握偏航速度的原理，飞行员和船长可以提高他们的技能，并确保在天空和海洋中的安全航行。随着技术的不断发展，理解和优化偏航速度将继续对未来交通运输的进步至关重要。