vertical rudder

简明释义

方向舵

英英释义

例句

1.The design of the vertical rudder allows for better stability in rough waters.

该垂直舵的设计使得在波涛汹涌的水域中更具稳定性。

2.The fisherman adjusted the vertical rudder to navigate through the narrow channel.

渔夫调整了垂直舵以便在狭窄的水道中航行。

3.Many modern boats use a vertical rudder for enhanced control.

许多现代船只使用垂直舵以增强控制力。

4.The ship's steering was greatly improved by the addition of a vertical rudder.

通过增加一个垂直舵，船的操控性得到了很大改善。

5.During the test, the engineers observed how the vertical rudder affected the vessel's maneuverability.

在测试过程中，工程师观察了垂直舵如何影响船只的机动性。

作文

The concept of a vertical rudder is essential in the field of naval architecture and aviation. A vertical rudder is a crucial component of various types of vehicles, particularly ships and aircraft, that aids in steering and maintaining stability during movement. In ships, the vertical rudder is typically located at the stern and is used to control the direction of the vessel. When the rudder is turned, it creates a difference in water pressure on either side, allowing the ship to pivot and change its course. This principle is not only vital for navigation but also plays a significant role in ensuring safety at sea.In aviation, the vertical rudder serves a similar purpose. It is a movable surface located on the vertical stabilizer of an aircraft's tail. The primary function of the vertical rudder is to control yaw, which is the movement of the aircraft around its vertical axis. By adjusting the angle of the vertical rudder, pilots can effectively steer the aircraft left or right, which is especially important during takeoff, landing, and in turbulent conditions. Understanding how the vertical rudder operates is crucial for anyone involved in these fields. For instance, in maritime navigation, the effectiveness of a vertical rudder can determine how quickly and accurately a ship can respond to navigational commands. A well-designed vertical rudder can enhance a vessel's maneuverability, allowing it to navigate through tight spaces or avoid obstacles with ease. This is particularly important in busy ports where precision is key.Similarly, in aviation, the design and functionality of the vertical rudder can significantly affect an aircraft's performance. Pilots must be trained to understand how to use the vertical rudder effectively to maintain control of the aircraft, especially during adverse weather conditions or emergency situations. The ability to manipulate the vertical rudder can mean the difference between a smooth flight and a potentially dangerous situation.Moreover, advancements in technology have led to the development of more sophisticated vertical rudder systems. For example, some modern aircraft are equipped with fly-by-wire systems that allow for more precise control of the vertical rudder. These systems use electronic signals to adjust the rudder's position, making it easier for pilots to manage the aircraft's movements without needing to exert as much physical effort.In conclusion, the vertical rudder is a fundamental component in both marine and aviation contexts. Its role in steering and stability cannot be overstated. Whether it is helping a ship navigate through choppy waters or allowing an aircraft to perform intricate maneuvers, the vertical rudder is integral to the safe and efficient operation of these vehicles. As technology continues to evolve, so too will the designs and functionalities of the vertical rudder, ensuring that it remains a vital part of transportation engineering for years to come.

“垂直舵”这一概念在船舶设计和航空领域中至关重要。“垂直舵”是各种类型交通工具的重要组成部分，特别是船只和飞机，它有助于在运动过程中进行操控和保持稳定。在船舶中，“垂直舵”通常位于船尾，用于控制船只的方向。当舵转动时，会在两侧产生水压差，使船只能够旋转并改变航向。这一原理不仅对导航至关重要，而且在确保海上安全方面也发挥着重要作用。在航空领域，“垂直舵”起着类似的作用。它是位于飞机尾部垂直安定面的可动表面。“垂直舵”的主要功能是控制偏航，即飞机围绕其垂直轴的运动。通过调整“垂直舵”的角度，飞行员可以有效地将飞机向左或向右操控，这在起飞、着陆和颠簸条件下尤其重要。理解“垂直舵”的操作对于任何参与这些领域的人来说都是至关重要的。例如，在海洋导航中，“垂直舵”的有效性可以决定一艘船响应导航命令的速度和准确性。设计良好的“垂直舵”可以增强船舶的机动性，使其能够轻松地在狭窄空间中航行或避开障碍物。这在繁忙的港口中尤为重要，因为精确性是关键。同样，在航空中，“垂直舵”的设计和功能可以显著影响飞机的性能。飞行员必须接受培训，以了解如何有效使用“垂直舵”来保持飞机的控制，尤其是在恶劣天气条件或紧急情况下。操控“垂直舵”的能力可能意味着平稳飞行和潜在危险情况之间的区别。此外，技术的进步推动了更复杂的“垂直舵”系统的发展。例如，一些现代飞机配备了飞行电传系统，使得对“垂直舵”的控制更加精确。这些系统使用电子信号来调整舵的位置，使飞行员在管理飞机的运动时不需要施加太多的体力。总之，“垂直舵”是海洋和航空背景中的一个基本组成部分。它在操控和稳定性方面的作用不可低估。无论是帮助船只在波涛汹涌的水域中航行，还是允许飞机执行复杂的机动，“垂直舵”都是这些交通工具安全高效运行的核心。随着技术的不断发展，“垂直舵”的设计和功能也将不断演变，确保其在未来数年内仍然是交通工程的重要组成部分。