yawing couple

简明释义

船首摇摆力偶

英英释义

例句

1.The yacht's maneuverability improved after reducing the effects of the yawing couple.

在减少偏航力矩的影响后，游艇的机动性得到了改善。

2.In simulations, the yawing couple was found to be critical in determining the vessel's turning radius.

在模拟中，偏航力矩被发现对确定船只的转弯半径至关重要。

3.During the test flight, the pilot noticed a significant yawing couple affecting the control surfaces.

在测试飞行中，飞行员注意到有显著的偏航力矩影响着控制面。

4.Engineers must account for the yawing couple when designing the stability of the aircraft.

工程师在设计飞机的稳定性时必须考虑到偏航力矩。

5.The ship experienced a strong yawing couple, causing it to tilt dangerously to one side.

船经历了强烈的偏航力矩，导致它危险地倾斜到一侧。

作文

In the field of engineering and mechanics, the term yawing couple refers to a pair of forces that cause an object to rotate about its vertical axis. This phenomenon is particularly significant in the study of aerodynamics and naval architecture, where understanding how vehicles behave in motion is crucial. The yawing couple can be illustrated through various examples, such as an airplane making a turn or a ship navigating through rough waters. When an airplane turns, it does so by creating a difference in lift between its wings. This differential lift generates a yawing couple that causes the aircraft to rotate around its vertical axis, allowing it to change direction smoothly. Similarly, in maritime contexts, vessels experience yawing couples when they encounter waves or currents that push against their hulls, leading to a rotation that must be countered to maintain a straight course. Understanding the dynamics of the yawing couple is essential for engineers and designers who strive to optimize the performance of vehicles. In aviation, for instance, the design of control surfaces, such as rudders and ailerons, directly relates to the management of yawing moments. These surfaces are strategically placed to counteract unwanted yaw and stabilize the flight path. In naval architecture, the concept of the yawing couple is equally important. Ships are designed with hull shapes and stabilizing fins that help mitigate the effects of yaw during rough sea conditions. Engineers utilize complex mathematical models and simulations to predict how a vessel will respond to various forces acting on it, ensuring safety and efficiency. The implications of the yawing couple extend beyond transportation; they also play a role in robotics and automation. For example, robotic arms used in manufacturing must account for yawing motions when performing tasks that require precision. If a robotic arm experiences unintended yaw, it could lead to misalignment and errors in assembly processes. Therefore, understanding and controlling the yawing couple is vital for maintaining accuracy in automated systems. Moreover, the yawing couple is not limited to mechanical systems; it can also be observed in natural phenomena. For instance, when a tornado forms, it creates a powerful yawing couple that can cause destruction as it rotates violently. Meteorologists study these dynamics to better predict weather patterns and improve safety measures during storms. In conclusion, the concept of the yawing couple is integral to various fields, from aviation and maritime engineering to robotics and meteorology. By understanding how forces interact to create rotational movements, professionals can design safer and more efficient systems. The ability to manage yawing moments is crucial for achieving stability and control in dynamic environments, highlighting the importance of this concept in both theoretical and practical applications.

在工程和力学领域，短语yawing couple指的是一对导致物体绕其垂直轴旋转的力。这一现象在空气动力学和船舶建筑的研究中尤为重要，因为理解车辆在运动中的表现至关重要。yawing couple可以通过多种例子来说明，例如飞机转弯或船只在波涛汹涌的水域中航行。当飞机转弯时，它是通过在机翼之间产生升力差来实现的。这种升力差会产生一个yawing couple，使飞机绕其垂直轴旋转，从而平稳地改变方向。同样，在海洋环境中，当船只遇到冲击其船体的波浪或水流时，会经历yawing couple，导致旋转，必须进行反制以保持直线航行。理解yawing couple的动态特性对于工程师和设计师来说至关重要，他们努力优化车辆的性能。例如，在航空领域，控制面（如舵和副翼）的设计与管理偏航力矩直接相关。这些表面被战略性地放置，以抵消不必要的偏航并稳定飞行路径。在船舶建筑中，yawing couple的概念同样重要。船只的设计考虑了船体形状和稳定鳍，以帮助减轻在恶劣海况下的偏航影响。工程师利用复杂的数学模型和模拟来预测船只在各种作用力下的反应，以确保安全和效率。yawing couple的影响不仅限于交通运输；它们在机器人技术和自动化中也起着重要作用。例如，用于制造的机器人臂在执行需要精确的任务时，必须考虑偏航运动。如果机器人臂发生意外偏航，可能导致对齐错误和组装过程中的错误。因此，理解和控制yawing couple对于保持自动化系统的准确性至关重要。此外，yawing couple不仅限于机械系统；它也可以在自然现象中观察到。例如，当龙卷风形成时，它会产生强大的yawing couple，导致其旋转剧烈并造成破坏。气象学家研究这些动态，以更好地预测天气模式，并改善暴风雨期间的安全措施。总之，yawing couple的概念在各个领域中都是不可或缺的，从航空和海事工程到机器人技术和气象学。通过理解力量如何相互作用以产生旋转运动，专业人士可以设计出更安全、更高效的系统。管理偏航力矩的能力对于在动态环境中实现稳定性和控制至关重要，这突显了这一概念在理论和实践应用中的重要性。