locus of metacentric radii

简明释义

稳心半径轨迹

英英释义

例句

1.By analyzing the locus of metacentric radii 重心半径轨迹, designers can improve the safety features of marine vessels.

通过分析重心半径轨迹 locus of metacentric radii，设计师可以改善海洋船舶的安全特性。

2.A thorough understanding of the locus of metacentric radii 重心半径轨迹 helps in the optimization of hull shapes.

对重心半径轨迹 locus of metacentric radii 的透彻理解有助于优化船体形状。

3.In naval architecture, the locus of metacentric radii 重心半径轨迹 is essential for determining the stability of a ship.

在船舶设计中，重心半径轨迹 locus of metacentric radii 对于确定船只的稳定性至关重要。

4.The locus of metacentric radii 重心半径轨迹 can indicate potential issues with vessel roll during rough seas.

在恶劣海况下，重心半径轨迹 locus of metacentric radii 可以指示船只翻滚的潜在问题。

5.Engineers often plot the locus of metacentric radii 重心半径轨迹 to visualize how changes in design affect stability.

工程师们经常绘制重心半径轨迹 locus of metacentric radii 来可视化设计变化如何影响稳定性。

作文

The concept of the locus of metacentric radii is pivotal in the field of naval architecture and marine engineering. To understand this term, we must first delve into the definitions of 'metacenter' and 'metacentric radius.' The metacenter is a crucial point in the stability of floating bodies, defined as the point where the buoyant force acts when the body is tilted. The metacentric radius, on the other hand, is a measure of the distance between the center of gravity and the metacenter. This distance plays a vital role in determining the stability of a vessel or any floating object.When we talk about the locus of metacentric radii, we are referring to the path traced by the metacentric radius as the shape or orientation of a floating body changes. This path is essential for engineers and designers as it helps them visualize how changes in design will affect the stability of the vessel. For instance, if a ship's shape is altered, the locus of metacentric radii will also change, potentially impacting the vessel's ability to remain upright in turbulent waters.Understanding the locus of metacentric radii is not merely an academic endeavor; it has practical implications in the real world. For example, during the design phase of a new ship, engineers must consider various factors that influence stability, such as weight distribution, hull shape, and cargo load. By analyzing the locus of metacentric radii, they can predict how these changes will affect the vessel's performance. This analysis is crucial for ensuring safety at sea, as a ship with poor stability can capsize, leading to disastrous consequences.Moreover, the locus of metacentric radii can help in optimizing the design of existing vessels. For instance, retrofitting a ship with additional ballast or modifying its hull can alter its stability characteristics. Engineers can use the concept of the locus of metacentric radii to determine the most effective modifications that enhance stability without compromising other performance aspects, such as speed and fuel efficiency.In addition to its applications in ship design, the locus of metacentric radii is also relevant in research and education. Students studying marine engineering often engage in projects that involve calculating and plotting the locus of metacentric radii for different hull shapes. This hands-on experience reinforces theoretical knowledge and equips future engineers with the skills needed to tackle real-world challenges.In conclusion, the locus of metacentric radii is a fundamental concept that bridges theory and practice in naval architecture. It provides valuable insights into the stability of floating bodies and guides engineers in designing safer and more efficient vessels. As maritime technology continues to evolve, understanding the locus of metacentric radii will remain a critical component in the pursuit of innovation and safety in marine engineering.

“locus of metacentric radii”（重心半径轨迹）这一概念在海洋建筑和海洋工程领域至关重要。要理解这个术语，我们首先必须深入了解“重心”和“重心半径”的定义。重心是浮动物体稳定性中的一个关键点，定义为当物体倾斜时，浮力作用的点。而重心半径则是重心与重心之间的距离的度量。这个距离在确定船只或任何浮动物体的稳定性方面起着至关重要的作用。当我们谈论“locus of metacentric radii”时，我们指的是随着浮动物体的形状或方向变化而描绘出的重心半径的路径。这个路径对于工程师和设计师来说至关重要，因为它帮助他们可视化设计变化将如何影响船只的稳定性。例如，如果一艘船的形状发生了改变，重心半径的轨迹也会随之变化，从而可能影响船只在波涛汹涌的水域中保持直立的能力。理解“locus of metacentric radii”不仅仅是学术上的追求；它在现实世界中具有实际意义。例如，在新船的设计阶段，工程师必须考虑影响稳定性的各种因素，如重量分布、船体形状和货物负载。通过分析“locus of metacentric radii”，他们可以预测这些变化将如何影响船只的性能。这种分析对于确保海上安全至关重要，因为稳定性差的船只可能会翻覆，导致灾难性的后果。此外，“locus of metacentric radii”还可以帮助优化现有船只的设计。例如，为船只加装额外的压舱物或修改其船体可以改变其稳定性特征。工程师可以利用“locus of metacentric radii”的概念来确定最有效的修改方案，以增强稳定性，而不影响其他性能方面，例如速度和燃油效率。除了在船只设计中的应用外，“locus of metacentric radii”在研究和教育中也具有相关性。学习海洋工程的学生通常参与涉及计算和绘制不同船体形状的“locus of metacentric radii”的项目。这种实践经验强化了理论知识，并使未来的工程师具备应对现实挑战的技能。总之，“locus of metacentric radii”是连接海洋建筑理论与实践的基本概念。它提供了关于浮动物体稳定性的宝贵见解，并指导工程师设计更安全、更高效的船只。随着海事技术的不断发展，理解“locus of metacentric radii”将继续成为追求海洋工程创新和安全的重要组成部分。