yawing amplitude

简明释义

船首偏荡幅度

英英释义

例句

1.During testing, the yawing amplitude 偏航幅度 of the new vehicle prototype exceeded expectations.

在测试中，新车辆原型的偏航幅度 yawing amplitude 超出了预期。

2.The drone's yawing amplitude 偏航幅度 was adjusted to improve stability during flight.

无人机的偏航幅度 yawing amplitude 被调整以提高飞行稳定性。

3.Engineers measured the yawing amplitude 偏航幅度 of the ship to ensure it met safety regulations.

工程师测量了船只的偏航幅度 yawing amplitude 以确保其符合安全法规。

4.The pilot had to compensate for the yawing amplitude 偏航幅度 when landing the aircraft.

飞行员在降落飞机时必须补偿偏航幅度 yawing amplitude。

5.A high yawing amplitude 偏航幅度 can lead to navigational difficulties in rough seas.

在恶劣海况下，高偏航幅度 yawing amplitude 可能导致导航困难。

作文

In the realm of engineering and physics, particularly in the study of dynamics and motion, the term yawing amplitude refers to the measure of how much an object rotates around its vertical axis. This concept is crucial when analyzing the behavior of vehicles, aircraft, and even marine vessels during their operation. Understanding yawing amplitude can significantly enhance safety and performance in various fields. To illustrate, let’s consider the dynamics of a ship navigating through turbulent waters. As the vessel encounters waves, it may experience changes in its orientation due to the forces acting upon it. The extent of this rotation, or the angle through which the ship turns from its original heading, is what we refer to as yawing amplitude. If the yawing amplitude is excessive, it can lead to instability, making the ship difficult to control, which could potentially result in accidents or capsizing.In aviation, pilots must also be acutely aware of yawing amplitude during flight maneuvers. For instance, during a turn, the aircraft experiences a change in its yaw. If the yawing amplitude is not properly managed, it can lead to adverse yaw, where the aircraft’s nose moves in the opposite direction of the intended turn, causing complications in navigation and control.The implications of yawing amplitude extend beyond just physical objects; they also play a significant role in simulations and modeling. Engineers use mathematical models to predict how different designs will perform under various conditions. By analyzing yawing amplitude, they can optimize designs to improve stability and efficiency. This is particularly important in the development of autonomous vehicles, where precise control is essential for safe operation.Furthermore, yawing amplitude is not limited to large vehicles; it can also apply to smaller devices, such as drones. In drone technology, maintaining a stable yawing amplitude is vital for accurate positioning and maneuverability. A drone that experiences erratic yawing amplitude might struggle to maintain its course, affecting its ability to complete tasks such as aerial photography or delivery services.In summary, yawing amplitude is a fundamental concept in understanding the rotational dynamics of various objects. Whether it is a ship navigating through rough seas, an aircraft executing a turn, or a drone performing a task, managing yawing amplitude is critical for ensuring stability and control. Engineers and pilots alike must pay close attention to this parameter to enhance performance and safety in their respective fields. As technology continues to advance, the importance of mastering concepts like yawing amplitude will only grow, underscoring the need for ongoing education and research in dynamics and motion analysis.

在工程和物理学的领域，特别是在动力学和运动研究中，术语yawing amplitude指的是一个物体围绕其垂直轴旋转的程度。这一概念在分析车辆、飞机甚至海洋船只的运行行为时至关重要。理解yawing amplitude可以显著提升各个领域的安全性和性能。为了说明这一点，让我们考虑一艘船在波涛汹涌的水面上航行的动态。当船只遇到波浪时，由于作用于它的力，它可能会经历方向上的变化。船舶从其原始航向旋转的角度，正是我们所称的yawing amplitude。如果yawing amplitude过大，可能会导致不稳定，使船只难以控制，这可能会导致事故或翻船。在航空领域，飞行员在飞行机动过程中也必须对yawing amplitude保持高度警惕。例如，在转弯时，飞机会经历其偏航的变化。如果yawing amplitude未能妥善管理，可能会导致不利的偏航，即飞机的机头朝向与预期转弯的方向相反，从而造成导航和控制的复杂问题。Yawing amplitude的影响不仅限于大型车辆；它也适用于较小的设备，例如无人机。在无人机技术中，维持稳定的yawing amplitude对于准确定位和机动性至关重要。经历不稳定的yawing amplitude的无人机可能会难以保持航向，影响其完成空中摄影或快递服务等任务的能力。总之，yawing amplitude是理解各种物体旋转动态的基本概念。无论是一艘在恶劣海况中航行的船只、一架执行转弯的飞机，还是一架执行任务的无人机，管理yawing amplitude对于确保稳定性和控制力至关重要。工程师和飞行员都必须密切关注这一参数，以提高其各自领域的性能和安全性。随着技术的不断进步，掌握像yawing amplitude这样的概念的重要性只会增加，强调了在动力学和运动分析中持续教育和研究的必要性。