stability parameter

简明释义

稳定性参数

英英释义

例句

1.Researchers found that the stability parameter was crucial for maintaining system integrity under stress.

研究人员发现，稳定性参数对于在压力下维持系统完整性至关重要。

2.In the simulation, we need to monitor the stability parameter closely to avoid any unexpected failures.

在模拟中，我们需要密切监测稳定性参数以避免任何意外故障。

3.Changing the stability parameter can significantly impact the results of our experiments.

改变稳定性参数可能会显著影响我们的实验结果。

4.The software uses a stability parameter to determine the best configuration for optimal performance.

该软件使用稳定性参数来确定最佳配置以实现最佳性能。

5.The engineer adjusted the stability parameter to ensure the bridge could withstand high winds.

工程师调整了稳定性参数以确保桥梁能够承受强风。

作文

In the field of engineering and systems analysis, the concept of a stability parameter plays a crucial role in determining how a system behaves under various conditions. A stability parameter can be defined as a quantitative measure that indicates whether a given system will return to equilibrium after being subjected to a disturbance. This concept is not only applicable to mechanical systems but also extends to electrical circuits, economic models, and even ecological systems. Understanding the stability parameter is essential for engineers and scientists who aim to design robust systems that can withstand unexpected changes.For instance, consider a simple pendulum. The stability parameter in this case could relate to the length of the pendulum and the mass of the bob. If the pendulum is displaced from its resting position, the stability parameter will help predict whether it will swing back to its original position or continue to oscillate indefinitely. A longer pendulum may exhibit different stability parameters compared to a shorter one, thus affecting its motion and stability.In control systems, the stability parameter is vital for ensuring that feedback loops operate correctly. Engineers use these parameters to analyze the system's response to inputs and determine how quickly and effectively the system can return to a steady state after a perturbation. For example, in an automated temperature control system, the stability parameter would help ascertain how quickly the system can adjust to changes in room temperature and maintain comfort levels.Moreover, in the context of economics, the stability parameter can be used to evaluate the resilience of financial markets. During periods of economic turbulence, analysts look at various stability parameters to understand how different sectors respond to shocks such as market crashes or policy changes. A stable market is one where the stability parameter indicates that prices will recover quickly after a downturn, thereby instilling confidence among investors.Additionally, ecological systems also exhibit stability parameters. These parameters can indicate how ecosystems respond to environmental stressors like climate change or pollution. For instance, a healthy ecosystem with high biodiversity often has favorable stability parameters, suggesting that it can recover from disturbances more efficiently than a less diverse one. Conservationists use this information to develop strategies aimed at preserving biodiversity and enhancing ecosystem resilience.In conclusion, the stability parameter is a fundamental concept across various disciplines, providing insights into how systems behave in response to changes. Whether in engineering, economics, or ecology, understanding and analyzing stability parameters allow professionals to create systems that are not only functional but also resilient to disturbances. As we continue to face complex challenges in our world, the significance of stability parameters will only grow, guiding us towards more sustainable and robust solutions.

在工程和系统分析领域，稳定性参数的概念在确定系统在各种条件下的行为方面发挥着关键作用。稳定性参数可以定义为一种定量指标，用于指示在受到干扰后，给定系统是否会恢复到平衡状态。这个概念不仅适用于机械系统，还扩展到电路、经济模型甚至生态系统。理解稳定性参数对工程师和科学家来说至关重要，他们旨在设计能够承受意外变化的稳健系统。例如，考虑一个简单的摆。此时的稳定性参数可能与摆的长度和摆锤的质量有关。如果摆从静止位置偏移，稳定性参数将有助于预测它是会摆回原位还是继续无限摆动。较长的摆可能会表现出不同的稳定性参数，从而影响其运动和稳定性。在控制系统中，稳定性参数对于确保反馈循环正常运行至关重要。工程师利用这些参数来分析系统对输入的响应，并确定系统在受到扰动后多快和多有效地恢复到稳态。例如，在自动温控系统中，稳定性参数将帮助确定系统多快能够调整以应对室温变化并维持舒适水平。此外，在经济学的背景下，稳定性参数可用于评估金融市场的韧性。在经济动荡时期，分析师查看各种稳定性参数以了解不同部门如何应对市场崩溃或政策变化等冲击。一个稳定的市场是指稳定性参数表明价格在经济低迷后会迅速恢复，从而增强投资者信心。另外，生态系统也表现出稳定性参数。这些参数可以指示生态系统如何应对气候变化或污染等环境压力。例如，具有高生物多样性的健康生态系统通常具有良好的稳定性参数，这表明它能够更有效地从干扰中恢复。保护主义者利用这些信息制定旨在保护生物多样性和增强生态系统韧性的策略。总之，稳定性参数是各个学科中的基本概念，提供了关于系统如何响应变化的见解。无论是在工程、经济学还是生态学中，理解和分析稳定性参数使专业人士能够创建不仅功能正常且对干扰具有韧性的系统。随着我们继续面临复杂的世界挑战，稳定性参数的重要性只会增加，引导我们朝着更可持续和稳健的解决方案迈进。