equilibrium process

简明释义

平衡过程

英英释义

例句

1.The chemical reaction reached an equilibrium process 平衡过程 where the rates of the forward and reverse reactions were equal.

化学反应达到了一个平衡过程 平衡过程，此时正反应和逆反应的速率相等。

2.During the equilibrium process 平衡过程, the system adjusts until all forces are balanced.

在平衡过程 平衡过程中，系统会调整直到所有力量达到平衡。

3.In economics, the market price is determined through an equilibrium process 平衡过程 between supply and demand.

在经济学中，市场价格通过供需之间的平衡过程 平衡过程来决定。

4.The equilibrium process 平衡过程 in this chemical system can be disturbed by changes in temperature.

在这个化学系统中的平衡过程 平衡过程可能会因温度变化而受到干扰。

5.The equilibrium process 平衡过程 in this ecosystem ensures that predator and prey populations remain stable.

这个生态系统中的平衡过程 平衡过程确保了捕食者和猎物种群的稳定。

作文

In the study of various scientific fields, the concept of an equilibrium process is crucial for understanding how systems behave under different conditions. An equilibrium process refers to a state in which all forces acting upon a system are balanced, resulting in no net change over time. This idea is not only applicable in physics but also extends to chemistry, biology, and even economics. For instance, in chemistry, a reaction reaches equilibrium when the rate of the forward reaction equals the rate of the reverse reaction, leading to a stable concentration of reactants and products. Similarly, in economics, market equilibrium occurs when supply equals demand, ensuring that resources are allocated efficiently.Understanding equilibrium processes can help us analyze and predict the behavior of systems in various contexts. In physics, the study of forces and motion often involves identifying equilibrium states. For example, consider a book resting on a table. The force of gravity pulling the book down is balanced by the normal force exerted by the table, resulting in a state of equilibrium. If we were to push the book, it would move until another force acted upon it, disrupting the equilibrium. This illustrates how delicate balance is in physical systems and how external influences can lead to changes.In chemistry, the equilibrium process is vital for understanding reactions. When we mix reactants, they may undergo a series of transformations until they reach a point where the concentrations of products and reactants remain constant. This dynamic state is essential for many biological processes, such as enzyme activity and metabolic pathways. For example, in the human body, the equilibrium between oxygen and carbon dioxide is crucial for respiration. The lungs and blood work together to maintain this balance, demonstrating the importance of equilibrium in sustaining life.Furthermore, the concept of equilibrium processes is equally significant in economics. Market equilibrium occurs when the quantity of goods supplied matches the quantity demanded, leading to stable prices. This balance is essential for economic stability, as fluctuations can lead to shortages or surpluses. Understanding how markets reach equilibrium can help policymakers make informed decisions to promote economic growth and stability. For instance, during a recession, governments may implement stimulus measures to increase demand, aiming to restore equilibrium in the economy.In conclusion, the equilibrium process is a fundamental concept across multiple disciplines, providing insight into how systems maintain stability amidst change. Whether in physics, chemistry, or economics, recognizing the factors that contribute to equilibrium allows us to understand and predict the behavior of various systems. As we continue to explore the complexities of the world around us, the principles of equilibrium processes will remain a cornerstone of scientific inquiry and practical application. By grasping these concepts, we can better navigate the challenges and opportunities that arise in our ever-evolving environment.

在各种科学领域的研究中，平衡过程的概念对理解系统在不同条件下的行为至关重要。平衡过程是指作用于系统的所有力达到平衡状态，从而导致时间上的净变化为零。这一思想不仅适用于物理学，还扩展到化学、生物学甚至经济学。例如，在化学中，当正反应的速率相等时，反应达到平衡，导致反应物和产物的浓度保持稳定。类似地，在经济学中，当供给等于需求时，市场均衡就会发生，确保资源的有效配置。理解平衡过程可以帮助我们分析和预测各种背景下系统的行为。在物理学中，力与运动的研究通常涉及识别平衡状态。例如，考虑一本放在桌子上的书。重力向下拉书的力与桌子施加的法向力相平衡，导致一种平衡状态。如果我们推一下书，它会移动，直到另一个力作用于它，打破平衡。这说明了物理系统中平衡的脆弱性，以及外部影响如何导致变化。在化学中，平衡过程对于理解反应至关重要。当我们混合反应物时，它们可能经历一系列转变，直到达到反应物和产物浓度保持不变的点。这种动态状态对于许多生物过程至关重要，例如酶活性和代谢途径。例如，在人体内，氧气和二氧化碳之间的平衡对呼吸至关重要。肺和血液共同工作以维持这种平衡，展示了平衡在维持生命中的重要性。此外，平衡过程的概念在经济学中同样重要。市场均衡发生在商品供应量与需求量相匹配时，从而导致价格稳定。这种平衡对经济稳定至关重要，因为波动可能导致短缺或过剩。理解市场如何达到均衡可以帮助政策制定者做出明智的决策，以促进经济增长和稳定。例如，在经济衰退期间，政府可能会实施刺激措施以增加需求，旨在恢复经济中的均衡。总之，平衡过程是多个学科中的基本概念，为我们提供了关于系统如何在变化中保持稳定的见解。无论是在物理学、化学还是经济学中，认识到促成平衡的因素使我们能够理解和预测各种系统的行为。随着我们继续探索周围世界的复杂性，平衡过程的原则将始终是科学探究和实际应用的基石。通过掌握这些概念，我们可以更好地应对在不断变化的环境中出现的挑战和机遇。