yawing axis

简明释义

首摇轴

英英释义

例句

1.The yawing axis 偏航轴 plays a crucial role in the aerodynamics of the aircraft.

在飞机的空气动力学中，偏航轴 yawing axis 起着至关重要的作用。

2.During the test flight, we monitored the yawing axis 偏航轴 to ensure proper control.

在试飞过程中，我们监测了偏航轴 yawing axis 以确保控制得当。

3.The aircraft's stability is affected by the position of the yawing axis 偏航轴 during flight.

在飞行过程中，飞机的稳定性受到偏航轴 yawing axis 位置的影响。

4.The simulation software allows us to visualize the effects of changing the yawing axis 偏航轴 on the vehicle's performance.

该模拟软件使我们能够可视化改变偏航轴 yawing axis 对车辆性能的影响。

5.To improve maneuverability, engineers adjusted the yawing axis 偏航轴 of the drone.

为了提高机动性，工程师调整了无人机的偏航轴 yawing axis。

作文

In the realm of aerodynamics and vehicle dynamics, understanding the concept of the yawing axis is crucial for both designers and operators of various types of vehicles. The yawing axis refers to an imaginary line that runs vertically through a vehicle, around which it can rotate when turning. This axis plays a significant role in determining how a vehicle behaves during maneuvers, particularly in terms of stability and control. When a vehicle turns, it experiences a rotation about its yawing axis, which affects its trajectory and handling characteristics.For instance, in airplanes, the yawing axis is essential for maintaining directional control. Pilots must understand how their aircraft responds to inputs on the rudder, which controls yaw. When the pilot applies rudder input, the airplane rotates around the yawing axis, allowing it to change direction effectively. If the yaw is not controlled properly, it can lead to adverse effects such as skidding or loss of control, especially during critical phases of flight.Similarly, in cars, the yawing axis is vital for ensuring safe and efficient cornering. When a driver turns the steering wheel, the vehicle pivots around its yawing axis. Proper management of this rotation is essential for maintaining traction and stability. A vehicle that over-rotates about its yawing axis may experience oversteer, where the rear wheels lose grip, leading to a spin. Conversely, understeer occurs when the front wheels lose grip, causing the car to continue straight despite turning the wheel.To enhance safety and performance, automotive engineers often incorporate systems such as Electronic Stability Control (ESC) that monitor the vehicle’s orientation relative to its yawing axis. These systems can detect when a vehicle is beginning to lose control and can automatically apply brakes to individual wheels to help stabilize the vehicle, effectively managing its motion around the yawing axis.Moreover, the yawing axis is not only limited to ground and aerial vehicles; it also applies to marine vessels. In ships, the yawing axis influences how the vessel turns and maintains its course in water. Navigating through rough seas requires a keen understanding of how the ship will respond around its yawing axis, as waves and currents can significantly affect stability and direction.In conclusion, the yawing axis is a fundamental concept in the study of vehicle dynamics, affecting everything from airplanes to automobiles and ships. Understanding how to control and manage the rotation around this axis is vital for ensuring safety and efficiency. Whether it is through the use of advanced technologies or traditional piloting skills, mastering the principles related to the yawing axis can lead to better performance and enhanced safety in all forms of transportation.

在空气动力学和车辆动力学领域，理解“yawing axis”的概念对各种类型车辆的设计者和操作员至关重要。“yawing axis”指的是一条虚构的垂直线，穿过车辆，车辆在转弯时可以围绕这条轴旋转。这个轴在确定车辆在机动时的行为方面起着重要作用，特别是在稳定性和控制方面。当车辆转弯时，它会围绕其“yawing axis”旋转，这会影响其轨迹和操控特性。例如，在飞机中，“yawing axis”对于保持方向控制至关重要。飞行员必须理解他们的飞机如何响应方向舵的输入，方向舵控制着偏航。当飞行员施加方向舵输入时，飞机围绕“yawing axis”旋转，从而有效地改变方向。如果偏航未得到适当控制，可能会导致不良后果，例如滑行或失去控制，尤其是在飞行的关键阶段。同样，在汽车中，“yawing axis”对于确保安全和高效的转弯至关重要。当驾驶员转动方向盘时，车辆围绕其“yawing axis”旋转。妥善管理这种旋转对于保持牵引力和稳定性至关重要。一辆在“yawing axis”上过度旋转的车辆可能会经历过度转向，即后轮失去抓地力，导致失控。相反，欠转向发生在前轮失去抓地力，导致汽车尽管转动方向盘仍然直行。为了增强安全性和性能，汽车工程师通常会结合电子稳定控制（ESC）等系统，这些系统监测车辆相对于其“yawing axis”的方向。这些系统可以检测到车辆开始失去控制的情况，并可以自动对单个车轮施加刹车，以帮助稳定车辆，有效管理其在“yawing axis”上的运动。此外，“yawing axis”不仅限于陆地和空中车辆；它也适用于海洋船只。在船只中，“yawing axis”影响着船只在水中的转向和保持航向。穿越波涛汹涌的海域需要敏锐理解船只如何围绕其“yawing axis”响应，因为波浪和水流可以显著影响稳定性和方向。总之，“yawing axis”是车辆动力学研究中的一个基本概念，影响着从飞机到汽车和船只的一切。理解如何控制和管理围绕此轴的旋转对于确保安全和效率至关重要。无论是通过先进技术还是传统的飞行技巧，掌握与“yawing axis”相关的原则都可以带来更好的性能和增强的运输安全。