righting arm=righting level

简明释义

稳性力臂

英英释义

The righting arm refers to the horizontal distance from the center of gravity to the center of buoyancy when a vessel is tilted, which helps it return to an upright position.

右ing臂指的是当船只倾斜时,从重心到浮力中心的水平距离,这有助于船只恢复到直立位置。

The righting level is the angle at which the righting arm is maximized, indicating the stability of the vessel and its ability to recover from heeling.

右ing水平是右ing臂最大化的角度,表示船只的稳定性及其从倾斜中恢复的能力。

例句

1.The ship's stability is determined by its righting arm=righting level, which helps it return to an upright position after tilting.

船只的稳定性由其右ing臂=复位水平决定,这有助于它在倾斜后恢复到直立位置。

2.During the design phase, engineers calculate the righting arm=righting level to ensure safety under various conditions.

在设计阶段,工程师计算右ing臂=复位水平以确保在各种条件下的安全性。

3.In engineering, understanding the righting arm=righting level is crucial for designing safe structures.

在工程中,理解右ing臂=复位水平对于设计安全结构至关重要。

4.The righting arm=righting level can be affected by the distribution of weight on a vessel.

船只上的重量分布会影响右ing臂=复位水平

5.Sailors must be aware of the righting arm=righting level when navigating rough seas to avoid capsizing.

水手在航行于波涛汹涌的海洋时,必须了解右ing臂=复位水平以避免翻船。

作文

In the study of physics and engineering, the concept of stability is crucial, especially when dealing with structures or vehicles that need to maintain their balance. One interesting phrase that encapsulates this idea is righting arm=righting level. This phrase can be interpreted as a fundamental principle that governs how an object returns to its upright position after being tilted or disturbed. To understand this better, let’s delve into the definitions and implications of both terms: righting arm and righting level.The term 'righting arm' refers to the horizontal distance between the center of gravity of an object and its center of buoyancy when it is tilted. This distance plays a significant role in determining how effectively an object can return to its original position. The larger the righting arm, the greater the torque that acts on the object when it is displaced from its equilibrium position. Essentially, the righting arm provides the necessary leverage for the object to right itself.On the other hand, 'righting level' is a more abstract concept that represents the ideal state of balance or equilibrium that an object strives to achieve. It is the level at which the forces acting on the object are perfectly balanced, allowing it to remain stable without any external influences. When an object is at its righting level, it experiences no net torque, meaning it will not rotate or tip over.By equating righting arm=righting level, we can see that the ability of an object to return to its righting level is directly influenced by its righting arm. For instance, consider a sailboat caught in a strong wind. If the wind causes the boat to tilt, the righting arm will generate a torque that attempts to bring the boat back to its vertical position. If the righting arm is sufficiently long, the boat will successfully return to its righting level, ensuring the safety of its passengers and cargo.In contrast, if the righting arm is too short, the torque generated may not be enough to overcome the forces acting on the boat, leading to capsizing. This principle is not only applicable to boats but also to various structures, including buildings and bridges, where maintaining stability is essential for safety and functionality.Understanding the relationship between righting arm=righting level is vital for engineers and designers who create structures and vehicles. By ensuring that the righting arm is adequately designed, they can enhance the overall stability of their creations. This principle is particularly important in fields such as naval architecture, civil engineering, and aerospace design, where even slight imbalances can lead to catastrophic failures.In conclusion, the phrase righting arm=righting level serves as a reminder of the importance of stability in physical structures and vehicles. By grasping the relationship between these two concepts, we can better appreciate the intricate balance that allows objects to maintain their equilibrium. Whether it is a sailboat returning to an upright position or a skyscraper standing tall against the forces of nature, the principles of righting arm and righting level are fundamental to our understanding of stability in the physical world.

在物理和工程学的研究中,稳定性是至关重要的,尤其是在处理需要保持平衡的结构或车辆时。有一个有趣的短语概括了这个思想,即右ing臂=右ing水平。这个短语可以被理解为一个基本原则,支配着一个物体在倾斜或受到干扰后如何返回到其直立位置。为了更好地理解这一点,让我们深入探讨两个术语的定义和含义:右ing臂和右ing水平。“右ing臂”一词指的是一个物体的重心与其浮力中心之间的水平距离,当物体倾斜时,这个距离在决定物体多有效地返回到其原始位置方面起着重要作用。右ing臂越大,当物体从其平衡位置偏移时,作用于物体的力矩就越大。本质上,右ing臂为物体自我恢复提供了必要的杠杆。另一方面,“右ing水平”是一个更抽象的概念,代表着物体努力达到的理想平衡或静态状态。当一个物体处于其右ing水平时,作用于物体的力完全平衡,使其在没有外部影响的情况下保持稳定。当物体处于其右ing水平时,它不会经历净力矩,这意味着它不会旋转或翻倒。通过将右ing臂=右ing水平等同起来,我们可以看到一个物体返回到其右ing水平的能力直接受到其右ing臂的影响。例如,考虑一艘在强风中被困的帆船。如果风使船倾斜,右ing臂将产生一个力矩,试图将船带回其垂直位置。如果右ing臂足够长,船将成功返回到其右ing水平,从而确保乘客和货物的安全。相反,如果右ing臂太短,产生的力矩可能不足以克服作用于船上的力量,导致翻船。这个原则不仅适用于船只,也适用于包括建筑物和桥梁在内的各种结构,在这些结构中,保持稳定性对于安全性和功能性至关重要。理解右ing臂=右ing水平之间的关系对于设计和建造结构和车辆的工程师和设计师来说至关重要。通过确保右ing臂设计得当,他们可以增强其创造物的整体稳定性。这个原则在海军建筑、土木工程和航空航天设计等领域尤为重要,在这些领域中,即使是轻微的不平衡也可能导致灾难性的失败。总之,短语右ing臂=右ing水平提醒我们物理结构和车辆稳定性的重要性。通过掌握这两个概念之间的关系,我们可以更好地欣赏使物体保持平衡的复杂平衡。无论是一艘帆船返回直立位置,还是一座摩天大楼在自然力量面前屹立不倒,右ing臂和右ing水平的原则都是我们理解物理世界中的稳定性的基础。