tons per centimeter immersion

简明释义

每厘米浸水吨数

英英释义

例句

1.The tons per centimeter immersion value helps in understanding how deep the object can be submerged without risk.

该每厘米浸入吨数值有助于了解物体可以在没有风险的情况下沉入多深。

2.In this experiment, we will measure the tons per centimeter immersion of various materials in water.

在这个实验中，我们将测量各种材料在水中的每厘米浸入吨数。

3.The buoyancy of the object is measured in tons per centimeter immersion, which indicates how much weight it can support underwater.

物体的浮力以每厘米浸入吨数来衡量，这表明它在水下可以支撑多少重量。

4.When calculating the load capacity of the dock, we consider the tons per centimeter immersion of the vessels.

在计算码头的载重能力时，我们考虑船只的每厘米浸入吨数。

5.The engineering team needs to determine the tons per centimeter immersion for the new design to ensure stability.

工程团队需要确定新设计的每厘米浸入吨数以确保稳定性。

作文

Understanding the concept of tons per centimeter immersion is crucial in various fields, particularly in engineering and fluid mechanics. This term essentially refers to the weight of an object submerged in a fluid, measured in tons for every centimeter it is immersed. It plays a significant role in calculating buoyancy, stability, and the overall behavior of floating bodies. In essence, tons per centimeter immersion helps us understand how much weight a submerged object displaces and how it interacts with the surrounding fluid.To illustrate this concept, let’s consider a practical example involving a ship. When a ship is designed, engineers must calculate how much of its hull will be submerged when it is loaded with cargo. The deeper the ship is immersed in water, the greater the volume of water displaced, which can be quantified using the tons per centimeter immersion metric. This measurement allows for precise calculations that ensure the ship remains stable and seaworthy under various loading conditions.Moreover, the concept of tons per centimeter immersion is not only applicable to ships but also to other floating structures such as oil rigs and buoys. For instance, an oil rig must remain stable in the ocean; therefore, understanding how much weight it can support without capsizing is essential. By applying the tons per centimeter immersion principle, engineers can determine the maximum load the structure can carry while maintaining its balance.In addition to marine applications, tons per centimeter immersion can be observed in everyday scenarios. Consider a large swimming pool filled with water. If you were to submerge a heavy object, like a rock, you would notice that the water level rises. The amount of water displaced corresponds to the weight of the rock, illustrating the principle of buoyancy. This simple observation can be quantified using the tons per centimeter immersion metric, making it easier to understand how different objects interact with fluids.Furthermore, the significance of tons per centimeter immersion extends to environmental studies. For example, when assessing the impact of submerged structures on aquatic ecosystems, scientists can use this measurement to evaluate how these structures affect water displacement and flow patterns. Understanding the immersion characteristics of various materials can help in designing environmentally friendly structures that minimize disruption to natural habitats.In conclusion, mastering the concept of tons per centimeter immersion is essential for professionals in engineering, environmental science, and fluid mechanics. It provides a fundamental understanding of buoyancy and stability in various contexts, from ships and oil rigs to everyday objects in water. As we continue to explore and innovate in these fields, the importance of accurately measuring and interpreting tons per centimeter immersion will only grow, ensuring safer and more efficient designs in our interactions with fluids.

理解“吨每厘米浸入”这一概念在多个领域，尤其是工程和流体力学中至关重要。这个术语基本上指的是一个物体浸入流体中的重量，以吨为单位，每厘米浸入的量。它在计算浮力、稳定性以及漂浮物体的整体行为方面发挥着重要作用。实质上，“吨每厘米浸入”帮助我们理解一个浸没物体排开多少重量以及它如何与周围流体相互作用。为了说明这个概念，让我们考虑一个涉及船舶的实际例子。当一艘船被设计时，工程师必须计算当船只装载货物时，其船体将浸没多少。船只在水中浸没得越深，排开的水量就越大，这可以通过“吨每厘米浸入”的指标进行量化。这个测量允许进行精确的计算，以确保船在各种装载条件下保持稳定和适航。此外，“吨每厘米浸入”的概念不仅适用于船舶，还适用于其他漂浮结构，如石油平台和浮标。例如，一座石油平台必须在海洋中保持稳定；因此，了解它可以支持多少重量而不倾覆是至关重要的。通过应用“吨每厘米浸入”原理，工程师可以确定该结构在保持平衡的情况下能够承载的最大负荷。除了海洋应用外，“吨每厘米浸入”还可以在日常场景中观察到。考虑一个装满水的大游泳池。如果你要浸没一个重物，比如一块石头，你会注意到水位上升。排开的水量与石头的重量相对应，说明了浮力原理。这个简单的观察可以使用“吨每厘米浸入”度量来量化，使我们更容易理解不同物体与流体的相互作用。此外，“吨每厘米浸入”的重要性还扩展到环境研究中。例如，在评估浸没结构对水生生态系统的影响时，科学家可以使用该测量来评估这些结构如何影响水的排放和流动模式。了解各种材料的浸入特性有助于设计环保结构，最小化对自然栖息地的干扰。总之，掌握“吨每厘米浸入”的概念对于工程、环境科学和流体力学领域的专业人士至关重要。它提供了对各种背景下浮力和稳定性的基本理解，从船舶和石油平台到水中的日常物体。随着我们在这些领域继续探索和创新，准确测量和解释“吨每厘米浸入”的重要性只会增加，确保我们在与流体互动时的设计更加安全和高效。