capsizing moment spindle

简明释义

绞盘轴

英英释义

例句

1.Adjusting the capsizing moment spindle can help prevent accidents in maritime operations.

调整倾覆力矩主轴可以帮助防止海事操作中的事故。

2.The engineer calculated the capsizing moment spindle to ensure the stability of the vessel during rough seas.

工程师计算了倾覆力矩主轴以确保船只在恶劣海况下的稳定性。

3.During the stability test, the capsizing moment spindle was pivotal in determining the boat's performance.

在稳定性测试中，倾覆力矩主轴在确定船只性能方面至关重要。

4.The technician explained how the capsizing moment spindle works to the new crew members.

技术员向新船员解释了倾覆力矩主轴的工作原理。

5.The design of the boat includes a capsizing moment spindle to enhance safety.

这艘船的设计包含一个倾覆力矩主轴以增强安全性。

作文

In the field of engineering and physics, understanding the mechanics of objects in motion is crucial. One important concept that often arises in discussions of stability and balance is the capsizing moment spindle. This term refers to a specific point or axis around which an object can rotate when it experiences forces that could lead to its tipping over or capsizing. The capsizing moment spindle plays a vital role in the design of various structures and vehicles, particularly those that operate on water, such as boats and ships.When we think about a boat floating on water, it is essential to consider how it maintains its balance. The capsizing moment spindle is essentially the pivot point that determines the stability of the vessel. If the center of gravity of the boat shifts too far from this spindle, the boat may begin to capsize. Engineers must carefully calculate the position of the capsizing moment spindle during the design phase to ensure that the boat can withstand external forces like waves or wind without tipping over.To illustrate the importance of the capsizing moment spindle, let's consider a scenario where a sudden gust of wind hits a sailboat. If the sails catch the wind at an angle that pushes the boat sideways, the force applied can create a moment around the capsizing moment spindle. If this moment exceeds the boat's ability to resist tipping, it will start to lean over, and if not corrected, it can lead to a complete capsize.Moreover, the concept of the capsizing moment spindle is not limited to marine vessels. It also applies to other forms of transportation, such as airplanes and cars. In aviation, for instance, the center of gravity and the moments acting on the aircraft are critical for ensuring safe flight. Pilots must be aware of how changes in load and configuration can shift the capsizing moment spindle and affect the overall stability of the aircraft.In conclusion, the capsizing moment spindle is a fundamental concept in understanding the stability of various objects in motion. Whether it is a boat on water or an airplane in the sky, the ability to maintain balance and resist tipping is essential for safety and functionality. Engineers and designers must take into account the location and effects of the capsizing moment spindle to create safe and effective designs that can withstand the forces of nature. As we continue to explore new technologies and methods in engineering, the principles surrounding the capsizing moment spindle will remain a cornerstone of our understanding of dynamics and stability.

在工程和物理学领域，理解运动物体的力学至关重要。一个常常在稳定性和平衡讨论中出现的重要概念是翻覆力矩主轴。这个术语指的是一个特定的点或轴，物体在受到可能导致其倾覆或翻覆的力时，可以围绕该点或轴旋转。翻覆力矩主轴在各种结构和车辆的设计中发挥着重要作用，特别是在水上操作的船只和舰艇。当我们想到一艘漂浮在水面上的船时，考虑它如何保持平衡是至关重要的。翻覆力矩主轴本质上是决定船舶稳定性的支点。如果船的重心过于偏离这个主轴，船就可能开始翻覆。工程师必须在设计阶段仔细计算翻覆力矩主轴的位置，以确保船能够抵御波浪或风等外部力量，而不会倾覆。为了说明翻覆力矩主轴的重要性，让我们考虑一个场景：突然的阵风袭击了一艘帆船。如果帆在一个角度上迎风，推动船只向侧面倾斜，施加的力会在翻覆力矩主轴周围产生一个力矩。如果这个力矩超过了船只抵抗倾斜的能力，船就会开始倾斜，如果不加以纠正，就会导致完全翻覆。此外，翻覆力矩主轴的概念不仅限于海洋船舶。它同样适用于其他运输工具，如飞机和汽车。在航空领域，例如，重心和作用于飞机的力矩对于确保安全飞行至关重要。飞行员必须意识到负载和配置的变化如何改变翻覆力矩主轴，并影响飞机的整体稳定性。总之，翻覆力矩主轴是理解各种运动物体稳定性的基本概念。无论是在水面上的船只还是天空中的飞机，保持平衡和抵抗倾斜的能力对安全和功能至关重要。工程师和设计师必须考虑翻覆力矩主轴的位置及其影响，以创造出能够抵御自然力量的安全有效的设计。随着我们继续探索工程中的新技术和方法，围绕翻覆力矩主轴的原理将始终是我们理解动力学和稳定性的基石。