floatation balance

简明释义

浮力秤

英英释义

例句

1.The engineer explained how the floatation balance 浮力平衡 is crucial for the stability of the boat.

工程师解释了浮力平衡在船只稳定性方面的重要性。

2.In physics class, we learned about the floatation balance 浮力平衡 and its role in determining whether an object sinks or floats.

在物理课上，我们学习了浮力平衡及其在决定物体是沉还是浮中的作用。

3.During the experiment, we measured the floatation balance 浮力平衡 of different objects in water.

在实验中，我们测量了不同物体在水中的浮力平衡。

4.The concept of floatation balance 浮力平衡 is essential for designing submarines.

设计潜艇时，浮力平衡的概念至关重要。

5.The aquarium's design relies on a floatation balance 浮力平衡 system to keep the decorations submerged.

水族馆的设计依赖于一个浮力平衡系统来保持装饰物的沉没。

作文

In the world of science and engineering, understanding the principles of buoyancy is crucial. One term that often arises in discussions about buoyancy is floatation balance. This concept refers to the equilibrium state achieved when an object is submerged in a fluid, where the upward buoyant force equals the downward gravitational force acting on the object. In simpler terms, it describes the point at which an object neither sinks nor floats but remains suspended in the fluid. This principle can be observed in various applications, from shipbuilding to diving. For instance, consider a boat on a lake. The design of the boat ensures that its weight is balanced by the volume of water it displaces, achieving a state of floatation balance. If the boat carries too much weight, it will sink because the buoyant force can no longer support it. Conversely, if the boat is too light, it will float high above the water's surface. This delicate balance is essential for the safe operation of vessels in water.In addition to boats, the concept of floatation balance is also vital in the field of medicine, particularly in treatments that involve floating therapies. For example, flotation tanks are designed to create an environment where individuals can experience weightlessness, promoting relaxation and stress relief. The precise balance of salt and water in these tanks ensures that the user can float effortlessly, achieving a perfect state of floatation balance. This therapeutic practice has gained popularity due to its numerous benefits, including improved mental clarity and physical recovery.Moreover, in the realm of physics, floatation balance plays a significant role in experiments that investigate the properties of materials. Researchers often use this principle to determine the density of unknown substances by observing how they behave when placed in a liquid. By measuring the buoyant force acting on the object and comparing it to its weight, scientists can calculate the density and gain insights into the material's characteristics.Understanding floatation balance is not only important in practical applications but also in educational settings. Students learning about physics often conduct experiments to observe how different objects behave in water. These hands-on experiences help solidify their understanding of buoyancy and the factors that contribute to floatation balance. For instance, students might test various shapes and materials to see which ones float or sink, allowing them to grasp the underlying principles of density and buoyancy.In conclusion, the concept of floatation balance is a fundamental principle that permeates various fields, from engineering and medicine to education and research. Its importance cannot be overstated, as it influences the design of boats, the effectiveness of therapeutic practices, and scientific investigations into material properties. By understanding and mastering this concept, individuals can appreciate the intricate balance of forces that govern our interactions with fluids, leading to practical applications and deeper knowledge in both academic and real-world contexts.

在科学和工程的世界中，理解浮力原理至关重要。一个常常出现在关于浮力讨论中的术语是浮力平衡。这个概念指的是当物体浸没在液体中时所达到的平衡状态，在这个状态下，向上的浮力等于作用于物体的向下重力。简单来说，它描述了一个物体既不下沉也不漂浮而是悬浮在液体中的点。这个原理可以在多种应用中观察到，从造船到潜水。例如，考虑一下湖面上的一艘船。船的设计确保其重量被排开的水的体积所平衡，实现了浮力平衡。如果船承载过多的重量，它将下沉，因为浮力无法再支撑它。相反，如果船太轻，它将高高漂浮在水面上。这种微妙的平衡对于船只在水中的安全操作至关重要。除了船只，浮力平衡的概念在医学领域也是至关重要的，特别是在涉及漂浮疗法的治疗中。例如，漂浮舱的设计旨在创造一个环境，让个人体验失重，促进放松和减压。舱内盐和水的精确平衡确保用户能够毫不费力地漂浮，达到完美的浮力平衡。由于其众多好处，包括改善心理清晰度和身体恢复，这种治疗方法已经变得越来越受欢迎。此外，在物理学领域，浮力平衡在研究材料特性实验中发挥着重要作用。研究人员经常利用这一原理来确定未知物质的密度，通过观察它们在液体中的行为。通过测量作用于物体的浮力并与其重量进行比较，科学家可以计算密度，从而深入了解材料的特性。理解浮力平衡不仅在实际应用中重要，在教育环境中也同样重要。学习物理的学生通常会进行实验，以观察不同物体在水中的行为。这些动手体验有助于巩固他们对浮力及影响浮力平衡的因素的理解。例如，学生可能会测试各种形状和材料，以查看哪些物体漂浮或下沉，从而让他们掌握密度和浮力的基本原理。总之，浮力平衡的概念是一个基本原理，渗透到各个领域，从工程和医学到教育和研究。它的重要性不容小觑，因为它影响着船只的设计、治疗实践的有效性以及对材料特性的科学调查。通过理解和掌握这一概念，个人可以欣赏到控制我们与液体相互作用的力量之间的微妙平衡，从而在学术和现实世界的背景中获得实际应用和更深的知识。