equilibrium condition

简明释义

均衡条件

英英释义

例句

1.To find the equilibrium condition 平衡状态, we must analyze the forces acting on the structure.

要找到equilibrium condition 平衡状态，我们必须分析作用在结构上的力量。

2.The ecosystem strives to maintain an equilibrium condition 平衡状态 that supports diverse forms of life.

生态系统努力维持一个equilibrium condition 平衡状态，以支持多样的生命形式。

3.In physics, an object is said to be in an equilibrium condition 平衡状态 when all forces acting on it are balanced.

在物理学中，当作用在物体上的所有力都处于平衡时，物体被认为处于equilibrium condition 平衡状态。

4.In a chemical reaction, the system reaches an equilibrium condition 平衡状态 when the rate of the forward reaction equals the rate of the reverse reaction.

在化学反应中，当正反应的速率等于逆反应的速率时，系统达到equilibrium condition 平衡状态。

5.The market can achieve an equilibrium condition 均衡状态 where supply meets demand.

市场可以达到一个equilibrium condition 均衡状态，在这个状态下供给与需求相匹配。

作文

In the realm of science and economics, the term equilibrium condition refers to a state where all forces or influences are balanced, resulting in a stable system. This concept is vital in various fields, including physics, chemistry, biology, and even social sciences. Understanding equilibrium condition allows us to analyze systems effectively and predict their behavior under different circumstances.For instance, in physics, the equilibrium condition can be illustrated through the example of a seesaw. When two individuals of equal weight sit at equal distances from the pivot point, the seesaw remains balanced. This balance signifies that the upward force exerted by the pivot equals the downward gravitational force acting on each individual. If one person were to move closer to the pivot or if one were to weigh more than the other, the seesaw would no longer be in a state of equilibrium condition, leading to a tilt.Similarly, in chemistry, equilibrium condition describes a state in a chemical reaction where the rate of the forward reaction equals the rate of the reverse reaction. For example, consider the synthesis of ammonia from nitrogen and hydrogen gases. At a certain temperature and pressure, the formation of ammonia will reach a point where the amount of ammonia produced remains constant, as the rate of its formation equals the rate at which it decomposes back into nitrogen and hydrogen. This state is known as dynamic equilibrium, and it is crucial for understanding how reactions can be controlled in industrial processes.In economics, the equilibrium condition is often used to describe market dynamics. The equilibrium price and quantity occur when the supply of goods matches the demand for those goods. For instance, in a competitive market, if the price of a product is too high, suppliers will produce more than consumers are willing to buy, leading to excess supply. Conversely, if the price is too low, demand will exceed supply, resulting in shortages. The equilibrium condition is reached when the market clears, and there is neither surplus nor shortage, allowing for efficient resource allocation.In biology, the equilibrium condition can be seen in ecosystems, where various species coexist and interact with one another. An ecosystem reaches a state of equilibrium when the populations of different species remain relatively stable over time, despite fluctuations due to environmental changes or human activities. This balance is essential for maintaining biodiversity and ensuring the resilience of the ecosystem.Understanding the equilibrium condition across these diverse fields underscores its significance in both theoretical and practical applications. It allows scientists and economists alike to make informed predictions about system behaviors and to design interventions that can restore balance when disturbances occur. As we face global challenges such as climate change, resource depletion, and economic instability, recognizing the importance of equilibrium condition becomes increasingly crucial.In conclusion, the concept of equilibrium condition serves as a foundational principle in many disciplines. By grasping this idea, we can better appreciate the complexities of the systems around us and work towards solutions that promote stability and sustainability. Whether in nature, markets, or scientific phenomena, striving for equilibrium is essential for fostering harmony and efficiency in our world.

在科学和经济学领域，术语equilibrium condition指的是所有力量或影响力相互平衡的状态，从而形成一个稳定的系统。这个概念在物理学、化学、生物学甚至社会科学等多个领域至关重要。理解equilibrium condition使我们能够有效分析系统，并预测其在不同情况下的行为。例如，在物理学中，equilibrium condition可以通过跷跷板的例子来说明。当两个体重相等的人坐在离支点相等的距离时，跷跷板保持平衡。这种平衡意味着支点施加的向上力等于每个人所受的向下重力。如果一个人靠近支点移动，或者一个人的体重比另一个人重，跷跷板将不再处于equilibrium condition状态，导致倾斜。同样，在化学中，equilibrium condition描述了化学反应中正反应速率相等的状态。例如，考虑氮气和氢气合成氨气的反应。在某一温度和压力下，氨气的生成将达到一个点，此时生成的氨气量保持不变，因为它的生成速率等于分解回氮气和氢气的速率。这个状态被称为动态平衡，它对于理解工业过程中的反应控制至关重要。在经济学中，equilibrium condition通常用于描述市场动态。当商品的供给与需求相匹配时，就会出现均衡价格和数量。例如，在竞争市场中，如果某产品的价格过高，供应商将生产超过消费者愿意购买的数量，从而导致过剩。相反，如果价格过低，需求将超过供给，导致短缺。市场清算时，达到的equilibrium condition是没有过剩或短缺，从而实现资源的有效配置。在生物学中，equilibrium condition可以在生态系统中看到，其中各种物种共存并相互作用。当不同物种的种群数量在时间上保持相对稳定时，生态系统达到一种平衡状态，尽管由于环境变化或人类活动而波动。这种平衡对于维持生物多样性和确保生态系统的韧性至关重要。理解不同领域的equilibrium condition强调了它在理论和实践应用中的重要性。它使科学家和经济学家能够对系统行为做出明智的预测，并设计干预措施，以在发生干扰时恢复平衡。随着我们面临全球诸如气候变化、资源枯竭和经济不稳定等挑战，认识到equilibrium condition的重要性变得愈加关键。总之，equilibrium condition的概念在许多学科中作为基础原则存在。通过掌握这一思想，我们可以更好地欣赏周围系统的复杂性，并努力寻求促进稳定和可持续性的解决方案。无论是在自然界、市场还是科学现象中，追求平衡对于促进我们世界的和谐与效率至关重要。