stabilizing tail

简明释义

尾稳定器

英英释义

例句

1.The drone's design includes a stabilizing tail to ensure smooth flight even in windy conditions.

无人机的设计包括一个稳定尾部，以确保即使在风大的情况下也能平稳飞行。

2.Without a stabilizing tail, the vehicle would struggle to maintain its direction.

没有稳定尾部，车辆将难以保持方向。

3.The stabilizing tail on the fish-shaped robot helps it navigate through water efficiently.

鱼形机器人的稳定尾部帮助它有效地在水中导航。

4.The model airplane flew perfectly thanks to its stabilizing tail that kept it balanced.

这架模型飞机飞行得很完美，得益于其保持平衡的稳定尾部。

5.Engineers added a stabilizing tail to the prototype to enhance its maneuverability.

工程师在原型上增加了一个稳定尾部以增强其机动性。

作文

In the world of aerodynamics, the concept of a stabilizing tail (稳定尾翼) plays a crucial role in ensuring the stability and control of an aircraft during flight. The stabilizing tail is typically located at the rear of the aircraft and is designed to counteract any unwanted movements that may arise due to turbulence or changes in speed and direction. This component is essential for maintaining the aircraft's equilibrium, allowing pilots to have better control over their flight paths.The functionality of the stabilizing tail can be compared to the tail of a kite. When flying a kite, the tail helps to keep it steady in the air; without it, the kite may spin uncontrollably or crash to the ground. Similarly, in aviation, the stabilizing tail serves as a means of providing balance and preventing excessive pitch or yaw motions that could jeopardize the safety of the flight.There are different types of stabilizing tails used in various aircraft designs. The horizontal stabilizer, which is the most common type, is responsible for controlling the pitch of the aircraft. It ensures that the nose of the plane remains level during flight, which is vital for efficient fuel consumption and passenger comfort. On the other hand, the vertical stabilizer helps in managing the yaw of the aircraft, keeping it aligned with its intended flight path.The significance of the stabilizing tail extends beyond just maintaining stability; it also contributes to the overall performance of the aircraft. A well-designed tail can enhance the lift and drag characteristics, improving fuel efficiency and allowing for smoother takeoffs and landings. Engineers spend countless hours in wind tunnels testing various designs to find the optimal shape and size for the stabilizing tail, ensuring that it meets the specific requirements of the aircraft it is attached to.Moreover, advancements in technology have led to the development of more sophisticated stabilizing tails. For instance, some modern aircraft are equipped with movable stabilizers that can adjust their angles in real-time, responding to changing flight conditions. This innovation allows for even greater control and stability, making flights safer and more efficient than ever before.In conclusion, the stabilizing tail (稳定尾翼) is an indispensable part of aircraft design that ensures stability and control during flight. Its ability to counterbalance forces acting on the aircraft makes it a key component for safe and efficient aviation. As technology continues to evolve, we can expect further enhancements in the design and functionality of stabilizing tails, paving the way for the future of flight. Understanding the importance of this component not only enriches our knowledge of aerodynamics but also highlights the intricate engineering that goes into making air travel possible.

在空气动力学的世界中，稳定尾翼的概念在确保飞机飞行期间的稳定性和控制方面发挥着至关重要的作用。稳定尾翼通常位于飞机的后部，旨在抵消由于湍流或速度和方向变化而产生的任何不必要的运动。这个组件对于保持飞机的平衡至关重要，使飞行员能够更好地控制他们的飞行路径。稳定尾翼的功能可以与风筝的尾巴进行比较。当放风筝时，尾巴有助于让它在空中保持稳定；如果没有它，风筝可能会失控旋转或坠落到地面。类似地，在航空中，稳定尾翼作为提供平衡的手段，防止过度的俯仰或偏航运动，这可能会危及飞行的安全。在各种飞机设计中，有不同类型的稳定尾翼。最常见的水平安定面负责控制飞机的俯仰。它确保飞机的机头在飞行过程中保持水平，这对高效的燃料消耗和乘客的舒适感至关重要。另一方面，垂直安定面有助于管理飞机的偏航，使其保持与预定飞行路径的对齐。稳定尾翼的重要性不仅仅体现在维持稳定性上；它还对飞机的整体性能做出了贡献。设计良好的尾翼可以增强升力和阻力特性，提高燃油效率，并使起飞和着陆更加平稳。工程师们在风洞中花费无数小时测试各种设计，以找到稳定尾翼的最佳形状和大小，确保它满足所附飞机的特定要求。此外，技术的进步导致了更复杂的稳定尾翼的发展。例如，一些现代飞机配备了可移动的安定面，可以实时调整其角度，以响应不断变化的飞行条件。这一创新使得控制和稳定性得到了更大的提升，使飞行比以往任何时候都更加安全和高效。总之，稳定尾翼是飞机设计中不可或缺的一部分，确保飞行过程中的稳定性和控制。它抵消作用于飞机的力的能力使其成为安全和高效航空旅行的关键组件。随着技术的不断发展，我们可以期待稳定尾翼在设计和功能上的进一步增强，为未来的飞行铺平道路。理解这个组件的重要性不仅丰富了我们对空气动力学的知识，也突显了使航空旅行成为可能的复杂工程。