tonne per centimeter immersion

简明释义

每厘米吃水吨数

英英释义

例句

1.When designing a boat, engineers must consider the tonne per centimeter immersion to ensure stability.

在设计船只时，工程师必须考虑每厘米浸入吨数以确保稳定性。

2.The buoyancy of the object can be calculated using its weight in tonne per centimeter immersion.

物体的浮力可以通过其在每厘米浸入吨数中的重量来计算。

3.A higher tonne per centimeter immersion indicates a heavier load capacity for the vessel.

更高的每厘米浸入吨数表示船只的承载能力更大。

4.The tonne per centimeter immersion measurement helps in determining how much of the hull is submerged.

每厘米浸入吨数的测量有助于确定船体浸入水中的部分。

5.To calculate the draft of the ship, we need to know the tonne per centimeter immersion value.

要计算船的吃水，我们需要知道每厘米浸入吨数的数值。

作文

Understanding the concept of tonne per centimeter immersion is crucial in various fields, particularly in engineering and physics. This term refers to the weight of an object that can be submerged in a fluid per unit of depth. Essentially, it provides a measure of how much weight can be supported by the buoyant force of the fluid at a certain depth. The concept is often used in naval architecture and marine engineering, where the stability and buoyancy of ships and submarines are essential for their design and functionality.When we talk about tonne per centimeter immersion (吨/厘米浸入), we are essentially discussing the relationship between weight and the volume of fluid displaced. According to Archimedes' principle, any object submerged in a fluid experiences an upward buoyant force equal to the weight of the fluid it displaces. This principle is fundamental in understanding how vessels float or sink in water. For instance, if a ship weighs 10 tonnes and is designed to sit 5 centimeters deep in the water, it displaces enough water to create a buoyant force that supports its weight. Therefore, the calculation of tonne per centimeter immersion becomes vital in determining the appropriate dimensions and weight distribution of the vessel.Moreover, the practical applications of this concept extend beyond maritime activities. In civil engineering, for example, when constructing underwater foundations or piers, engineers must consider the tonne per centimeter immersion to ensure that the structures can withstand the forces exerted by the water. If the structure is not designed properly, it may either float away or collapse under the pressure of the water, leading to catastrophic failures.In addition to engineering, the concept of tonne per centimeter immersion also finds relevance in environmental science. Researchers studying the impact of climate change on sea levels need to understand how different materials will behave when submerged in water. For example, as ice melts and sea levels rise, the buoyancy of various objects and ecosystems will be affected, which can have significant implications for coastal habitats and human infrastructure.Furthermore, the concept can also be applied in the field of fluid mechanics, where understanding the forces acting on submerged objects is essential for designing efficient systems. For instance, in designing underwater vehicles or remotely operated vehicles (ROVs), engineers must calculate the tonne per centimeter immersion to optimize their performance and ensure they can operate effectively at various depths.In conclusion, the term tonne per centimeter immersion (吨/厘米浸入) encapsulates a fundamental principle of physics that has wide-ranging applications across multiple disciplines. Whether in naval architecture, civil engineering, environmental science, or fluid mechanics, understanding this concept is vital for ensuring safety, efficiency, and effectiveness in designs and operations. As we continue to explore and innovate within these fields, the principles behind tonne per centimeter immersion will remain a cornerstone of our understanding of buoyancy and fluid dynamics.

理解“吨/厘米浸入”这一概念在各个领域中至关重要，尤其是在工程和物理学中。这个术语指的是每单位深度中可以被浸没在流体中的物体的重量。它本质上提供了一个测量标准，用于表示在一定深度下流体的浮力可以支持多少重量。这个概念通常用于海洋建筑和海洋工程中，在这些领域，船舶和潜艇的稳定性和浮力对其设计和功能至关重要。当我们谈论吨/厘米浸入时，我们实际上是在讨论重量与排开流体的体积之间的关系。根据阿基米德原理，任何浸没在流体中的物体都经历一个向上的浮力，该浮力等于它排开的流体的重量。这个原理是理解船只如何在水中漂浮或沉没的基础。因此，计算吨/厘米浸入在确定船舶的适当尺寸和重量分布方面变得至关重要。此外，这个概念的实际应用不仅限于海洋活动。在土木工程中，例如，在建造水下基础或码头时，工程师必须考虑吨/厘米浸入以确保结构能够承受水施加的力量。如果结构设计不当，可能会漂浮走或在水的压力下崩溃，从而导致灾难性的失败。除了工程之外，吨/厘米浸入的概念在环境科学中也具有相关性。研究气候变化对海平面影响的研究人员需要了解不同材料在浸没在水中时的表现。例如，随着冰的融化和海平面的上升，各种物体和生态系统的浮力将受到影响，这可能对沿海栖息地和人类基础设施产生重大影响。此外，这个概念还可以应用于流体力学领域，在该领域，理解作用于浸没物体的力量对于设计高效系统至关重要。例如，在设计水下车辆或遥控操作车辆（ROV）时，工程师必须计算吨/厘米浸入以优化其性能，并确保它们能够在不同深度下有效运行。总之，术语吨/厘米浸入概括了物理学的一个基本原理，该原理在多个学科中具有广泛的应用。无论是在海洋建筑、土木工程、环境科学还是流体力学中，理解这一概念对于确保设计和操作的安全性、效率和有效性至关重要。随着我们在这些领域继续探索和创新，吨/厘米浸入背后的原理将始终是我们理解浮力和流体动力学的基石。