center of rudder force

简明释义

舵力中心

英英释义

例句

1.When designing a new boat, the center of rudder force 舵力中心 must be carefully considered to enhance stability.

在设计新船时，必须仔细考虑舵力中心 舵力中心以增强稳定性。

2.The pilot adjusted the ship's heading by moving the rudder, ensuring the center of rudder force 舵力中心 was aligned with the desired course.

飞行员通过移动舵来调整船的航向，确保舵力中心 舵力中心与预期航向对齐。

3.In naval architecture, understanding the center of rudder force 舵力中心 is crucial for effective steering performance.

在船舶建筑中，理解舵力中心 舵力中心对于有效的操控性能至关重要。

4.The engineer calculated the center of rudder force 舵力中心 to optimize the vessel's maneuverability during tight turns.

工程师计算了舵力中心 舵力中心以优化船舶在紧急转弯时的机动性。

5.The captain explained how the center of rudder force 舵力中心 affects the overall control of the ship.

船长解释了舵力中心 舵力中心如何影响船只的整体控制。

作文

The concept of the center of rudder force is crucial in understanding how vessels maneuver through water. This term refers to the specific point on a rudder where the force exerted by the water is most effective in changing the direction of the ship. When navigating, it is essential for sailors and shipbuilders alike to comprehend this concept to ensure optimal performance and safety. In essence, the center of rudder force is influenced by various factors, including the shape of the rudder, the speed of the vessel, and the water flow around it. A well-designed rudder can significantly enhance a ship's ability to turn quickly and efficiently. For instance, a larger rudder may provide more surface area for water to push against, thus generating greater force. However, it is not solely about size; the angle at which the rudder is set also plays a vital role. When the rudder is turned, water flows over its surface, creating a difference in pressure on either side. This pressure differential generates a turning moment about the center of rudder force, allowing the vessel to pivot in the desired direction. Understanding where this center lies is fundamental for effective navigation. If a captain misjudges the position of the center of rudder force, it could lead to inefficient steering, causing delays or even dangerous situations during maneuvers, particularly in tight spaces like harbors or narrow channels. Moreover, different types of vessels have varying centers of rudder force. For example, a large cargo ship will have a different rudder configuration compared to a small sailboat. The former typically requires a robust rudder system to handle its massive size and weight, whereas the latter can maneuver more easily due to its lighter structure. In addition, the center of rudder force is also affected by the ship's speed. At higher speeds, the water flows more rapidly over the rudder, which can shift the effective center of force. Sailors must take this into account when adjusting their rudder position, as the dynamics of water flow can change dramatically with speed variations. To summarize, grasping the idea of the center of rudder force is essential for anyone involved in maritime activities. It influences how a vessel responds to steering commands and ultimately impacts the safety and efficiency of navigation. By recognizing the factors that affect this center, sailors can make informed decisions that enhance their vessel's performance. As technology continues to advance, understanding these fundamental principles will remain vital for both new and experienced mariners alike. In conclusion, the center of rudder force is not just a technical term; it embodies the intricate relationship between a vessel's design, its operation, and the physics of water. Mastering this concept is key to successful navigation and the overall effectiveness of maritime travel.

“舵力中心”的概念对于理解船只如何在水中操纵至关重要。这个术语指的是舵上水流施加的力最有效地改变船只方向的特定点。在航行时，水手和造船者都必须理解这个概念，以确保最佳性能和安全性。从本质上讲，舵力中心受到多种因素的影响，包括舵的形状、船只的速度以及水流的情况。设计良好的舵可以显著提高船只快速高效转向的能力。例如，较大的舵可能提供更多的表面积供水流推压，从而产生更大的力。然而，仅仅依靠尺寸是不够的；舵的设定角度也起着至关重要的作用。当舵被转动时，水流过其表面，造成两侧的压力差。这种压力差在舵力中心周围产生了转动力矩，使船只朝期望的方向旋转。了解这一中心的位置对有效导航至关重要。如果船长错误判断了舵力中心的位置，可能导致操控效率低下，从而在紧凑空间（如港口或狭窄水道）中造成延误甚至危险情况。此外，不同类型的船只具有不同的舵力中心。例如，大型货船与小型帆船的舵配置就有所不同。前者通常需要一个强大的舵系统来处理其庞大的体积和重量，而后者由于结构较轻，可以更容易地操纵。此外，舵力中心还受船速的影响。在高速行驶时，水流更快地流过舵，这可能会改变有效力中心的位置。水手在调整舵的位置时必须考虑这一点，因为水流的动态在速度变化时可能会剧烈改变。总之，掌握舵力中心的概念对于任何参与海事活动的人来说都是至关重要的。它影响着船只对操控命令的响应，并最终影响导航的安全性和效率。通过认识到影响这一中心的因素，水手可以做出明智的决定，提升其船只的性能。随着科技的不断进步，理解这些基本原则对于新手和经验丰富的水手来说仍然至关重要。最后，舵力中心不仅仅是一个技术术语；它体现了船只设计、操作与水力学之间的复杂关系。掌握这一概念是成功导航和海上旅行整体有效性的关键。