tons per centimeter immersion

简明释义

每厘米排水吨数每厘米吃水吨数每厘米浸水吨数

英英释义

例句

1.When testing the model, we found that it had a tons per centimeter immersion of 3, indicating good stability.

在测试模型时，我们发现它的吨每厘米浸入为3，表明稳定性良好。

2.To determine the load capacity of the dock, engineers measured the tons per centimeter immersion of various vessels.

为了确定码头的承载能力，工程师测量了各种船只的吨每厘米浸入。

3.The tons per centimeter immersion value helps in predicting how much weight can be added without compromising safety.

该吨每厘米浸入值有助于预测可以添加多少重量而不影响安全性。

4.The buoyancy of the object was calculated to be 5 tons per centimeter immersion, which means it displaces that much water when submerged.

这个物体的浮力计算为5吨每厘米浸入，这意味着它在浸入水中时会排开这么多水。

5.The ship's design must account for its tons per centimeter immersion to ensure it remains stable in the water.

船只的设计必须考虑其吨每厘米浸入，以确保在水中保持稳定。

作文

Understanding the concept of buoyancy and its related measurements is essential in various fields, especially in engineering and marine sciences. One such measurement that often comes into play is tons per centimeter immersion. This term refers to the weight of an object submerged in water, measured for every centimeter of its immersion. In simpler terms, it quantifies how much weight a submerged object displaces for each centimeter it sinks into the water. This concept is crucial for designing ships, submarines, and other floating structures, as it helps determine their stability and buoyancy.When an object is placed in water, it experiences an upward force known as buoyant force. This force is equal to the weight of the water displaced by the object. The deeper the object is submerged, the more water it displaces, and thus, the greater the buoyant force acting on it. The measurement of tons per centimeter immersion allows engineers to calculate how much weight can be supported by the buoyant force at different levels of immersion.For instance, consider a ship designed to carry cargo. Engineers must ensure that the ship can safely float while carrying its maximum load. By using the tons per centimeter immersion measurement, they can determine how deep the ship will sit in the water when fully loaded and whether this depth will compromise its stability. If the ship's hull design allows it to displace enough water at a certain level of immersion, it will remain stable even in rough seas.Moreover, the concept of tons per centimeter immersion isn't limited to large vessels. It also applies to smaller objects, such as buoys or even underwater vehicles. Understanding how these objects behave when submerged can lead to better designs that enhance performance and safety. For example, a submersible designed for underwater exploration must account for its buoyancy at various depths to ensure it can navigate effectively without sinking too deep or floating too high.In addition, the tons per centimeter immersion measurement plays a significant role in environmental studies. Researchers often use this concept to analyze the impact of submerged structures on local ecosystems. By understanding how these structures displace water and affect buoyancy, scientists can predict changes in water flow and sediment patterns, which are vital for maintaining healthy aquatic environments.In conclusion, the term tons per centimeter immersion encapsulates a fundamental principle of physics that has wide-ranging applications. From ensuring the safety and stability of ships to aiding in environmental research, this measurement is crucial for understanding how objects interact with water. As we continue to explore and utilize our oceans, grasping the significance of tons per centimeter immersion will become increasingly important for engineers, scientists, and environmentalists alike. This knowledge not only enhances our ability to design effective marine structures but also ensures that we do so in a way that is mindful of our planet's delicate ecosystems.

理解浮力及其相关测量概念在各个领域中都是至关重要的，尤其是在工程和海洋科学中。其中一个常用的测量是每厘米浸入吨数。这个术语指的是一个物体在水中沉没时，每浸入一厘米所排开的水的重量。简单来说，它量化了一个浸没物体每沉入水中一厘米所排开的重量。这一概念对于设计船只、潜艇和其他漂浮结构至关重要，因为它有助于确定它们的稳定性和浮力。当一个物体放入水中时，它会受到一种向上的力，称为浮力。这个力等于物体排开的水的重量。物体浸入越深，排开的水就越多，因此作用在其上的浮力也越大。每厘米浸入吨数的测量允许工程师计算在不同浸入深度下，浮力可以支持多少重量。例如，考虑一艘设计用来运输货物的船只。工程师必须确保船在承载最大负荷时能够安全浮起。通过使用每厘米浸入吨数的测量，他们可以确定船在满载时将坐落于水中的深度，以及这个深度是否会影响其稳定性。如果船体设计允许其在某一浸入深度排开足够的水，它将即使在波涛汹涌的海面上也能保持稳定。此外，每厘米浸入吨数的概念不仅限于大型船只。它同样适用于较小的物体，例如浮标或甚至水下车辆。理解这些物体在浸没时的行为可以导致更好的设计，从而提高性能和安全性。例如，设计用于水下探索的潜水器必须考虑其在不同深度的浮力，以确保它能够有效导航，而不会沉得太深或浮得太高。此外，每厘米浸入吨数的测量在环境研究中也发挥着重要作用。研究人员经常使用这一概念来分析浸没结构对当地生态系统的影响。通过理解这些结构如何排水和影响浮力，科学家可以预测水流和沉积模式的变化，这对于维持健康的水生环境至关重要。总之，每厘米浸入吨数这一术语概括了一个基础的物理原理，具有广泛的应用。从确保船只的安全和稳定到帮助进行环境研究，这一测量对于理解物体与水的相互作用至关重要。随着我们继续探索和利用海洋，掌握每厘米浸入吨数的重要性将变得愈发重要，无论是对工程师、科学家还是环保主义者而言。这一知识不仅增强了我们设计有效海洋结构的能力，还确保我们以一种关注地球脆弱生态系统的方式进行设计。