yawing
简明释义
v. 偏航;偏荡;摇首(yaw 的现在分词)
英英释义
Yawing refers to the rotation of a vehicle, especially an aircraft or ship, around its vertical axis, resulting in a change of direction. | 偏航是指车辆,尤其是飞机或船只,围绕其垂直轴的旋转,从而导致方向的改变。 |
单词用法
角速度;偏航率 | |
[航天]偏航角 |
同义词
| 转动 | 由于强风,船向左偏航。 | ||
| 扭转 | 飞机急剧转动以避开气流扰动。 | ||
| 旋转 | 汽车以高速扭转过弯。 |
反义词
| 俯仰 | 飞机在颠簸中上下俯仰。 | ||
| 滚转 | 船在波涛汹涌的海面上左右滚转。 |
例句
1.The variation tendencies of the side force, rolling moment and yawing moment of the overtaking cars by two spaces are different apparently.
超车车辆受到的侧向力、侧倾力矩和横摆力矩在两种间距下的变化趋势有着明显差别。
2.The research shows, in the process of hard grounding a considerable part of ship's initial kinetic energy turns into energy of revolving mode, which includes pitching, rolling and yawing.
研究表明,在船舶高能搁浅动力学过程中,有相当部分的初动能转化为旋转形式的动能,包括纵摇、横摇和艏摇;
3.When a fighter aircraft or missile flies at high angle of attack(AOA), asymmetric vortexes are produced from the forebody and induce strong side force and yawing moment.
飞机或导弹在大迎角下飞行时会形成非对称涡,从而产生很大的侧滑力和偏航力矩。
4.It provides a method of fragmenting gain for ship turning adjuster which could apace and stably achieve turning adjustment just by simple and useful measures based on yawing degree.
介绍了一种简单实用的船舶转向调节器的设计方法,该调节器只需偏航角量测值便可实现快速平稳的转向调节。
5.It is(believed) that the new controlling device presented in this paper can increase steering radius under the same(steering) yawing rate and reduce the total dissipative power.
结果认为通过该装置可以在同一转向角速度的条件下减小转向半径,降低消耗的总功率。
6.The yawing can apparently attenuate the angular displacement of both the tail and the attack angle of tail fin.
艏摇的存在会明显的衰减尾柄主臂和尾鳍攻角的角位移。
7.A yawing controller based on human operator's skill is presented for robotic airship mission path tracking.
本文介绍了一种基于人工操纵策略的无人飞艇航向控制器用于其航迹跟踪控制。
8.Test results have been positive and the turbine yawing, safety and rotor locking system have been working properly.
实验结果是积极的,涡轮偏航,安全和转子锁定系统已正常事情。
9.The pilot reported that the aircraft was yawing due to strong winds.
飞行员报告说,由于强风,飞机正在偏航。
10.The ship's captain had to correct the yawing motion caused by the waves.
船长不得不纠正因波浪造成的偏航运动。
11.He adjusted the rudder to prevent the boat from yawing off course.
他调整了舵以防止船只偏航。
12.The airplane was yawing dangerously during the storm.
飞机在暴风雨中偏航得非常危险。
13.To maintain stability, the drone was programmed to minimize yawing effects.
为了保持稳定,无人机被编程以最小化偏航的影响。
作文
In the world of aviation and maritime navigation, understanding the concept of yawing is crucial for maintaining control over a vehicle's direction. Yawing refers to the rotation of an aircraft or a ship around its vertical axis. This movement is essential for steering and maneuvering. For instance, when a pilot wants to turn left or right, they must initiate a yawing motion to alter the aircraft's heading. Similarly, in maritime contexts, a captain may need to execute yawing to navigate through tight spaces or avoid obstacles in the water.The mechanics of yawing involve the use of various control surfaces. In airplanes, the rudder plays a vital role in facilitating yawing. By deflecting the rudder left or right, pilots can induce a yawing motion that helps the aircraft turn. This is particularly important during takeoff and landing phases when precise control is necessary. On the other hand, ships utilize their rudders in a similar fashion, allowing them to change direction effectively when yawing.Understanding yawing is not only important for pilots and mariners but also for engineers and designers who create vehicles. They must consider how yawing affects stability and performance. For instance, excessive yawing can lead to loss of control, especially in high-speed scenarios. Therefore, engineers often design systems that can counteract unwanted yawing, ensuring safety and efficiency.Moreover, yawing is not limited to just aircraft and ships; it can also apply to ground vehicles. For example, when a car turns sharply, it experiences a form of yawing as its front wheels pivot around a central point. Drivers must be aware of this dynamic, as too much yawing can result in skidding or losing control of the vehicle. Thus, understanding yawing can enhance driving skills and promote safer road practices.In conclusion, yawing is a fundamental concept in the fields of aviation, maritime navigation, and even ground transportation. Its significance lies in its impact on control and maneuverability. Whether it's a pilot navigating through the skies or a captain steering a vessel, mastering the principles of yawing is essential for successful operation. As technology advances, the understanding of yawing will continue to evolve, paving the way for safer and more efficient travel across all modes of transportation.
在航空和海洋导航的世界中,理解“yawing”这一概念对于保持对车辆方向的控制至关重要。“yawing”是指飞机或船只围绕其垂直轴的旋转。这一运动对于驾驶和操控是必不可少的。例如,当飞行员想要向左或向右转弯时,他们必须启动“yawing”运动以改变飞机的航向。同样,在海洋环境中,船长可能需要执行“yawing”以通过狭窄空间或避开水中的障碍物。“yawing”的机械原理涉及各种控制面。在飞机中,方向舵在促进“yawing”中发挥着重要作用。通过将方向舵向左或向右偏转,飞行员可以引发“yawing”运动,帮助飞机转向。这在起飞和着陆阶段尤其重要,因为此时需要精确控制。另一方面,船只以类似的方式利用其舵,使其能够在“yawing”时有效地改变方向。理解“yawing”不仅对飞行员和海员重要,对设计和工程师也同样重要。他们必须考虑“yawing”如何影响稳定性和性能。例如,过度的“yawing”可能导致失去控制,特别是在高速情况下。因此,工程师通常设计可以抵消不必要的“yawing”的系统,以确保安全和效率。此外,“yawing”并不仅限于飞机和船只;它也可以应用于地面车辆。例如,当汽车急转弯时,它会经历一种形式的“yawing”,因为其前轮围绕一个中心点旋转。司机必须意识到这种动态,因为过多的“yawing”可能导致打滑或失去对车辆的控制。因此,理解“yawing”可以增强驾驶技能,并促进更安全的道路实践。总之,“yawing”是航空、海洋导航甚至地面交通领域的一个基本概念。它的重要性在于其对控制和机动性的影响。无论是飞行员在天空中导航,还是船长在水中驾驶,掌握“yawing”的原理对于成功操作都是必不可少的。随着技术的进步,对“yawing”的理解将继续发展,为所有交通方式的更安全和更高效的旅行铺平道路。
