cyclic yawing

简明释义

周期首摇运动

英英释义

例句

1.Excessive cyclic yawing 周期性偏航 can lead to loss of control in aircraft.

过度的周期性偏航可能导致飞机失去控制。

2.During the simulation, the instructor demonstrated cyclic yawing 周期性偏航 and its impact on flight dynamics.

在模拟过程中，教练演示了周期性偏航及其对飞行动力学的影响。

3.The pilot adjusted the controls to manage the cyclic yawing 周期性偏航 during the flight.

飞行员调整控制以管理飞行中的周期性偏航。

4.Understanding cyclic yawing 周期性偏航 is crucial for improving helicopter maneuverability.

理解周期性偏航对于提高直升机的机动性至关重要。

5.The engineer analyzed the effects of cyclic yawing 周期性偏航 on rotor stability.

工程师分析了周期性偏航对旋翼稳定性的影响。

作文

In the realm of aviation and aerodynamics, understanding the concept of cyclic yawing is crucial for pilots and engineers alike. This term refers to a specific maneuver that involves the rotation of an aircraft around its vertical axis in a cyclic manner, which can significantly impact the aircraft's stability and control. cyclic yawing (循环偏航) allows pilots to make precise adjustments to their flight path, especially during complex maneuvers such as turns or when encountering turbulence. One of the primary reasons why cyclic yawing is essential is due to its role in maintaining directional control. When an aircraft is in motion, it experiences various forces that can cause it to deviate from its intended course. By employing cyclic yawing, pilots can counteract these forces and ensure that the aircraft remains on track. This technique is particularly important during takeoff and landing phases when precision is paramount. Moreover, cyclic yawing is not just limited to fixed-wing aircraft; it also plays a vital role in helicopter operations. In helicopters, the rotor system creates a natural tendency for the aircraft to yaw due to torque. Pilots must skillfully apply cyclic yawing to balance this force, allowing for smooth and controlled flight. Understanding how to manage cyclic yawing effectively can mean the difference between a successful flight and a dangerous situation. The mechanics behind cyclic yawing involve the manipulation of control surfaces and engines to achieve the desired yaw rate. Pilots use rudder pedals and a control stick to initiate and control this movement. For instance, pushing the left rudder pedal will cause the aircraft to yaw to the left, while pushing the right pedal will result in a right yaw. This cyclic adjustment enables pilots to respond dynamically to changing conditions in the air. In addition to practical applications, cyclic yawing also has implications for aircraft design and performance. Engineers must consider how an aircraft will behave under different yaw conditions to ensure safety and efficiency. Advanced flight simulators often incorporate cyclic yawing dynamics to provide realistic training scenarios for pilots, helping them to master this critical aspect of flying. In conclusion, the importance of cyclic yawing in aviation cannot be overstated. It is a fundamental skill that enhances pilots' ability to navigate through the skies safely and effectively. Whether in a commercial airliner or a military helicopter, understanding and mastering cyclic yawing is essential for achieving optimal flight performance. As technology continues to evolve, so too will the techniques and training related to cyclic yawing, ensuring that future generations of pilots are well-equipped to handle the challenges of flight.

在航空和空气动力学领域，理解“cyclic yawing”这一概念对飞行员和工程师来说至关重要。这个术语指的是一种特定的机动，涉及到飞机围绕其垂直轴以循环的方式旋转，这会显著影响飞机的稳定性和控制。“cyclic yawing”（循环偏航）使飞行员能够对飞行路径进行精确调整，尤其是在复杂机动如转弯或遇到气流时。“cyclic yawing”之所以重要，主要是因为它在保持方向控制方面的作用。当飞机在运动时，会受到各种力量的影响，导致其偏离预定航线。通过采用“cyclic yawing”，飞行员可以抵消这些力量，确保飞机保持在正确的轨道上。这项技术在起飞和降落阶段尤为重要，因为这时对精度的要求极高。此外，“cyclic yawing”不仅限于固定翼飞机；它在直升机操作中也发挥着至关重要的作用。在直升机中，旋翼系统由于扭矩产生了自然的偏航倾向。飞行员必须熟练地运用“cyclic yawing”来平衡这种力量，从而实现平稳和可控的飞行。有效管理“cyclic yawing”的能力可能意味着一次成功飞行与一次危险情况之间的区别。“cyclic yawing”背后的机械原理涉及到操纵控制面和发动机以实现所需的偏航率。飞行员使用方向舵踏板和控制杆来启动和控制这种运动。例如，踩下左侧方向舵踏板将导致飞机向左偏航，而踩下右侧踏板则会导致向右偏航。这种循环调整使飞行员能够动态响应空中的变化条件。除了实际应用外，“cyclic yawing”还对飞机设计和性能有着深远的影响。工程师必须考虑飞机在不同偏航条件下的表现，以确保安全和效率。先进的飞行模拟器通常会结合“cyclic yawing”动态，以提供现实的训练场景，帮助飞行员掌握这一飞行关键技能。总之，“cyclic yawing”在航空中的重要性不言而喻。这是一项基本技能，可以增强飞行员安全有效地在空中导航的能力。无论是在商业客机还是军事直升机中，理解和掌握“cyclic yawing”对于实现最佳飞行性能至关重要。随着技术的不断发展，与“cyclic yawing”相关的技术和培训也将不断演变，确保未来一代飞行员能够很好地应对飞行挑战。