displacement of volume

简明释义

排水体积

英英释义

例句

1.The displacement of volume in the tank indicates how much water has been added or removed.

水箱中的体积位移指示了添加或移除的水量。

2.During the test, we measured the displacement of volume to determine the density of the solid object.

在测试过程中，我们测量了体积位移以确定固体物体的密度。

3.The displacement of volume in this experiment helps us understand how liquids behave under pressure.

这个实验中的体积位移帮助我们理解液体在压力下的行为。

4.The displacement of volume caused by the submerged object can be calculated using Archimedes' principle.

浸没物体造成的体积位移可以通过阿基米德原理计算。

5.In engineering, calculating the displacement of volume is crucial for designing efficient hydraulic systems.

在工程中，计算体积位移对设计高效的液压系统至关重要。

作文

The concept of displacement of volume is fundamental in understanding various physical phenomena, particularly in the fields of physics and engineering. It refers to the change in volume that occurs when an object is submerged in a fluid. This principle can be observed in everyday life, such as when a solid object is placed in water, causing the water level to rise. The amount of water displaced is equal to the volume of the object submerged, which is a crucial aspect of Archimedes' principle.To illustrate this concept, consider a simple experiment involving a graduated cylinder filled with water. When a rock is carefully dropped into the cylinder, the water level rises. The increase in water level corresponds to the displacement of volume caused by the rock. By measuring the initial and final water levels, one can determine the volume of the rock. This relationship between the submerged object and the fluid it displaces is essential for understanding buoyancy and density.In engineering applications, the displacement of volume plays a vital role in designing ships and submarines. Engineers must calculate how much water a vessel will displace to ensure it remains buoyant and stable in water. If a ship displaces more water than its weight, it will float; conversely, if it displaces less, it will sink. Therefore, understanding the displacement of volume is critical for safe and effective marine design.Moreover, the concept extends beyond just solid objects. Gases also exhibit displacement of volume when they occupy space within a container. For instance, when air is pumped into a balloon, the volume of the balloon increases as it displaces the surrounding air. This phenomenon is not only important in everyday activities but also in various scientific experiments, where the behavior of gases under different pressures and temperatures is studied.In the realm of environmental science, the displacement of volume can also be observed in the context of climate change. Rising sea levels due to melting ice caps and glaciers result in the displacement of coastal areas. Understanding how much land is lost due to the rising waters is essential for planning and mitigating the impacts on human populations and ecosystems. The displacement of volume in this case has significant implications for urban planning, disaster preparedness, and ecological conservation.In conclusion, the displacement of volume is a key concept that permeates various disciplines, from physics to environmental science. It provides insight into how objects interact with fluids, influences engineering designs, and helps us understand the broader implications of environmental changes. By grasping this concept, we can better appreciate the complexities of the physical world and make informed decisions based on scientific principles.

“体积位移”这一概念在理解各种物理现象中至关重要，尤其是在物理和工程领域。它指的是当一个物体浸入液体时发生的体积变化。这个原理可以在日常生活中观察到，例如，当一个固体物体放入水中时，会导致水位上升。被排开的水量等于浸没物体的体积，这是阿基米德原理的关键方面。为了说明这一概念，可以考虑一个简单的实验，涉及一个装满水的量筒。当一块石头小心地放入量筒时，水位上升。水位的增加对应着石头造成的“体积位移”。通过测量初始水位和最终水位，可以确定石头的体积。这种浸没物体与其排开的流体之间的关系对于理解浮力和密度至关重要。在工程应用中，“体积位移”在设计船舶和潜艇时发挥着重要作用。工程师必须计算一艘船将排开多少水，以确保其在水中保持浮力和稳定性。如果一艘船排开比自身重量更多的水，它就会浮起来；相反，如果排开得更少，它就会沉下去。因此，理解“体积位移”对于安全有效的海洋设计至关重要。此外，这一概念不仅限于固体物体。气体在占据容器内的空间时也表现出“体积位移”。例如，当空气被泵入气球时，气球的体积增加，因为它排开了周围的空气。这一现象不仅在日常活动中重要，也在各种科学实验中研究不同压力和温度下气体的行为。在环境科学领域，“体积位移”也可以在气候变化的背景下观察到。由于冰盖和冰川融化导致海平面上升，沿海地区的土地被排开。了解因水位上升而失去多少土地对于规划和减轻对人类和生态系统影响至关重要。在这种情况下，“体积位移”对城市规划、灾害准备和生态保护具有重要影响。总之，“体积位移”是一个贯穿多个学科的关键概念，从物理学到环境科学。它提供了物体与流体相互作用的洞察，影响工程设计，并帮助我们理解环境变化的更广泛影响。通过掌握这一概念，我们可以更好地欣赏物理世界的复杂性，并根据科学原理做出明智的决策。