tonnes per centimeter immersion

简明释义

每厘米浸水吨数

英英释义

例句

1.To assess the stability of the vessel, engineers measured the tonnes per centimeter immersion during testing.

为了评估船只的稳定性，工程师在测试期间测量了每厘米浸入水中的吨数。

2.The formula for calculating the tonnes per centimeter immersion involves the vessel's dimensions and weight.

计算每厘米浸入水中的吨数的公式涉及到船只的尺寸和重量。

3.When designing a new yacht, the architects considered the tonnes per centimeter immersion to ensure it would float properly.

在设计新游艇时，建筑师考虑了每厘米浸入水中的吨数以确保其能正确浮动。

4.The cargo capacity of the barge is determined by its tonnes per centimeter immersion rating.

驳船的货物容量由其每厘米浸入水中的吨数等级决定。

5.The buoyancy of the ship was calculated to be 5 tonnes per centimeter immersion.

船的浮力计算为每厘米浸入水中5吨。

作文

Understanding the concept of tonnes per centimeter immersion is crucial in various fields, particularly in engineering and physics. This phrase refers to the measurement of weight in tonnes that a material can displace when submerged in water or another fluid, calculated per centimeter of immersion. When an object is placed in a fluid, it experiences buoyant force, which is equal to the weight of the fluid displaced by the object. The principle of buoyancy is governed by Archimedes' principle, which states that any object fully or partially immersed in a fluid experiences an upward force equal to the weight of the fluid it displaces. In practical terms, tonnes per centimeter immersion helps engineers and designers understand how much weight a structure can support before it begins to sink or float. For example, consider a large ship designed for transporting goods across oceans. Engineers must calculate how much cargo the ship can carry without compromising its stability. By using the tonnes per centimeter immersion metric, they can determine how many tonnes of cargo can be loaded onto the ship for each centimeter that the hull sinks into the water. This calculation ensures that the ship remains safe and functional during its journey.Moreover, this measurement is not only applicable to ships but also to other floating structures like oil rigs, barges, and even floating docks. In each case, understanding the tonnes per centimeter immersion allows for better design and safety measures. If a floating structure is not properly designed with respect to this measurement, it could lead to catastrophic failure, resulting in loss of cargo, environmental damage, and potential loss of life.Furthermore, the concept of tonnes per centimeter immersion can also be applied in environmental studies, such as assessing the impact of submerged objects on aquatic ecosystems. For instance, if a new artificial reef is created, scientists may need to measure how much weight it contributes to the surrounding water environment. By analyzing the tonnes per centimeter immersion, researchers can predict how the reef will affect local marine life and water quality.In conclusion, the term tonnes per centimeter immersion is a vital measurement that plays a significant role in various industries, from maritime engineering to environmental science. Its implications are far-reaching, impacting safety, design, and ecological considerations. Understanding this concept is essential for professionals working in these fields, as it enables them to make informed decisions that ensure the integrity and sustainability of their projects. As we continue to explore and develop our capabilities in these areas, the importance of measurements like tonnes per centimeter immersion will only grow, highlighting the need for accurate data and careful analysis in the face of complex challenges.

理解“吨每厘米浸入”这一概念在多个领域中至关重要，尤其是在工程和物理学方面。这个短语指的是当材料浸没在水或其他液体中时，每厘米浸入所能置换的重量，以吨为单位计算。当一个物体放入液体中时，它会经历浮力，这个浮力等于物体置换的液体的重量。浮力原理受阿基米德原理的支配，该原理指出，任何完全或部分浸没在液体中的物体都会经历一个向上的力，这个力等于它所置换的液体的重量。在实际应用中，“吨每厘米浸入”帮助工程师和设计师理解一个结构在开始下沉或漂浮之前能够支持多少重量。例如，考虑一艘大型船只，旨在跨越海洋运输货物。工程师必须计算船可以承载多少货物，而不危及其稳定性。通过使用“吨每厘米浸入”这一指标，他们可以确定在船体每厘米浸入水中时，可以装载多少吨的货物。这一计算确保船在航行过程中保持安全和功能。此外，这一测量不仅适用于船舶，还适用于其他浮动结构，如石油钻井平台、驳船甚至浮动码头。在每种情况下，了解“吨每厘米浸入”可以更好地进行设计和安全措施。如果浮动结构没有根据这一测量进行合理设计，可能会导致灾难性的失败，造成货物损失、环境破坏以及潜在的生命损失。此外，“吨每厘米浸入”的概念也可以应用于环境研究，例如评估沉没物体对水生生态系统的影响。例如，如果创建了一个新的人工礁，科学家可能需要测量它对周围水环境的贡献有多重。通过分析“吨每厘米浸入”，研究人员可以预测该礁石将如何影响当地海洋生物和水质。总之，“吨每厘米浸入”这一术语是一个重要的测量指标，在多个行业中发挥着重要作用，从海事工程到环境科学。它的影响深远，涉及安全、设计和生态考虑。理解这一概念对于在这些领域工作专业人士至关重要，因为它使他们能够做出明智的决策，从而确保项目的完整性和可持续性。随着我们继续探索和发展这些领域的能力，“吨每厘米浸入”等测量的重要性只会增加，突显出在面对复杂挑战时对准确数据和细致分析的需求。