displacement float

简明释义

排水浮体

英英释义

例句

1.The displacement float (位移浮子) activates an alarm when the water reaches a certain level.

当水达到某个水平时，displacement float (位移浮子) 会触发一个警报。

2.To ensure accurate readings, we need to calibrate the displacement float (位移浮子) regularly.

为了确保读数准确，我们需要定期校准displacement float (位移浮子)。

3.In our latest project, the displacement float (位移浮子) is crucial for monitoring fluid levels.

在我们最新的项目中，displacement float (位移浮子) 对于监测流体水平至关重要。

4.We installed a new displacement float (位移浮子) in the reservoir to improve water management.

我们在水库中安装了一个新的displacement float (位移浮子) 以改善水管理。

5.The engineer explained how the displacement float (位移浮子) works in measuring the water level in the tank.

工程师解释了如何使用displacement float (位移浮子) 来测量水箱中的水位。

作文

In the realm of physics and engineering, the concept of buoyancy plays a critical role in understanding how objects behave when placed in a fluid. One of the key principles that govern this behavior is known as the Archimedes' principle, which states that any object submerged in a fluid experiences an upward force equal to the weight of the fluid displaced by the object. This principle is particularly important when discussing the idea of a displacement float, which is a device or mechanism used to measure the volume of fluid that an object displaces when it is immersed. The displacement float serves as a practical application of Archimedes' principle, allowing us to quantify and analyze the interactions between solids and liquids.A displacement float typically consists of a buoyant object that floats on the surface of a liquid while being attached to a measuring device. As the float is submerged, it displaces a certain volume of liquid, which can then be measured to determine the volume of the object itself. This method is not only efficient but also highly accurate, making it a preferred choice in various scientific and industrial applications.One of the most common uses of a displacement float is in the field of hydrometry, where it helps in measuring the flow rate of rivers and streams. By placing a displacement float in the water, researchers can observe how fast the float moves downstream, which can then be correlated to the velocity of the water flow. This data is crucial for environmental studies, flood forecasting, and managing water resources effectively.Moreover, the displacement float is also utilized in the design and testing of ships and submarines. Engineers use these devices to determine how much water a vessel displaces when it is loaded with cargo or passengers. This information is vital for ensuring that ships are designed with the appropriate buoyancy and stability, preventing them from capsizing or sinking.In addition to its practical applications, the displacement float also serves as an educational tool. Students studying physics or engineering often conduct experiments using displacement floats to visualize and understand the principles of buoyancy and fluid mechanics. These hands-on experiences reinforce theoretical concepts and enhance learning outcomes.Furthermore, advancements in technology have led to the development of more sophisticated displacement floats. Modern versions may incorporate sensors and digital displays, allowing for real-time monitoring and data collection. This innovation has expanded the scope of applications for displacement floats, making them invaluable in fields such as oceanography, meteorology, and even robotics.In conclusion, the displacement float is a remarkable invention that bridges the gap between theoretical physics and practical application. It embodies the principles of buoyancy and fluid displacement, providing essential data for various scientific and engineering pursuits. Whether in measuring water flow, designing marine vessels, or educating future generations, the displacement float continues to play a significant role in our understanding of the physical world. Its versatility and accuracy make it an indispensable tool in both research and industry, demonstrating the enduring relevance of Archimedes' principle in contemporary science.

在物理和工程领域，浮力的概念在理解物体在流体中行为时起着至关重要的作用。支配这种行为的一个关键原则被称为阿基米德原理，该原理指出，任何浸入液体中的物体都会经历一个向上的力，这个力等于物体排开的液体的重量。这个原则在讨论displacement float（排量浮子）的概念时尤为重要，排量浮子是一种用于测量物体浸入时排开液体体积的装置或机制。displacement float作为阿基米德原理的实际应用，使我们能够量化和分析固体与液体之间的相互作用。displacement float通常由一个漂浮在液体表面的浮体组成，并与测量设备连接。当浮子被浸入时，它会排开一定体积的液体，然后可以测量这一体积以确定物体本身的体积。这种方法不仅高效，而且非常准确，因此在各种科学和工业应用中被广泛采用。displacement float最常见的用途之一是在水文测量领域，它帮助测量河流和溪流的流量。通过将displacement float放置在水中，研究人员可以观察浮子下游移动的速度，然后将其与水流的速度相关联。这些数据对环境研究、洪水预报和有效管理水资源至关重要。此外，displacement float还用于船舶和潜艇的设计与测试。工程师利用这些设备来确定一艘船在装载货物或乘客时排开多少水。这些信息对于确保船舶设计具有适当的浮力和稳定性至关重要，以防止它们倾覆或沉没。除了其实际应用外，displacement float还作为一种教育工具。学习物理或工程的学生通常会使用displacement float进行实验，以可视化和理解浮力和流体力学的原理。这些动手实践经验强化了理论概念，提高了学习效果。此外，技术的进步导致了更复杂的displacement float的发展。现代版本可能结合传感器和数字显示屏，允许实时监测和数据收集。这一创新扩展了displacement float的应用范围，使其在海洋学、气象学甚至机器人技术等领域变得不可或缺。总之，displacement float是一项了不起的发明，它架起了理论物理与实际应用之间的桥梁。它体现了浮力和流体排开的原理，为各种科学和工程追求提供了重要数据。无论是在测量水流、设计海洋船舶还是教育未来的世代，displacement float继续在我们理解物理世界中发挥重要作用。其多功能性和准确性使其成为研究和工业中不可或缺的工具，展示了阿基米德原理在当代科学中的持久相关性。