steady state response

简明释义

稳态特性

英英释义

例句

1.Engineers often analyze the steady state response 稳态响应 of a circuit to ensure it meets design specifications.

工程师通常分析电路的 steady state response 稳态响应 以确保其符合设计规范。

2.The steady state response 稳态响应 of the system was measured after several minutes of operation.

系统的 steady state response 稳态响应 在运行几分钟后被测量。

3.The steady state response 稳态响应 can be affected by changes in input parameters.

输入参数的变化可能会影响 steady state response 稳态响应 。

4.To achieve optimal performance, we need to evaluate the steady state response 稳态响应 during testing.

为了实现最佳性能，我们需要在测试过程中评估 steady state response 稳态响应 。

5.In control systems, the steady state response 稳态响应 is crucial for determining system stability.

在控制系统中，steady state response 稳态响应 对于确定系统的稳定性至关重要。

作文

In the field of engineering and systems analysis, understanding the concept of steady state response is crucial for designing effective systems. The term refers to the behavior of a system after it has settled into a consistent pattern following a disturbance or input change. This is particularly important in control systems, where the aim is often to achieve a desired output that remains stable over time. For instance, consider a simple heating system in a home. When the thermostat is adjusted to increase the temperature, there is an initial reaction where the heater works to raise the temperature. However, once the room reaches the desired temperature, the system will enter a steady state response, maintaining that temperature without further fluctuation.The significance of steady state response extends beyond just heating systems. In electrical engineering, it plays a vital role in analyzing circuits. When an alternating current (AC) is applied to a circuit, the transient response occurs initially, which involves variations in current and voltage. Eventually, the circuit reaches a steady state response, where the current and voltage levels stabilize and can be predicted accurately. Engineers utilize this information to design circuits that operate efficiently under normal conditions, ensuring reliability in various applications.Moreover, the concept of steady state response is not limited to physical systems but also applies to economic models and ecological studies. In economics, for example, when analyzing market equilibrium, a steady state response can help economists understand how supply and demand interact over time. Once the market adjusts to changes such as new regulations or shifts in consumer preferences, it will eventually reach a point where prices and quantities stabilize, allowing for better predictions and strategies.In ecological studies, researchers may look at populations of species and their interactions within an ecosystem. After a disturbance, such as a natural disaster or human intervention, the ecosystem may go through a series of changes. Eventually, it will achieve a steady state response, where species populations stabilize, and the ecosystem functions normally again. Understanding this response helps conservationists make informed decisions about managing ecosystems and protecting biodiversity.In conclusion, the concept of steady state response is essential across various fields, from engineering to economics and ecology. It provides a framework for understanding how systems behave over time, particularly after disruptions. By studying and analyzing steady state response, professionals can design more efficient systems, predict outcomes more accurately, and implement better management strategies. As we continue to face complex challenges in technology, environment, and society, grasping the principles behind steady state response will be increasingly important for achieving stability and sustainability in our systems.

在工程和系统分析领域，理解“steady state response”的概念对设计有效系统至关重要。该术语指的是系统在经历扰动或输入变化后，稳定到一致模式的行为。这在控制系统中尤为重要，因为其目标通常是实现一个随时间保持稳定的期望输出。例如，考虑一个家庭的简单供暖系统。当温控器被调节以提高温度时，最初的反应是加热器努力提升温度。然而，一旦房间达到期望的温度，系统将进入“steady state response”，保持该温度而不再波动。“steady state response”的重要性不仅限于供暖系统。在电气工程中，它在电路分析中发挥着关键作用。当交流电（AC）施加到电路上时，最初会发生瞬态响应，这涉及电流和电压的变化。最终，电路会达到“steady state response”，电流和电压水平稳定，可以准确预测。工程师利用这些信息设计在正常条件下高效运行的电路，确保在各种应用中的可靠性。此外，“steady state response”的概念不仅限于物理系统，还适用于经济模型和生态研究。在经济学中，例如，在分析市场均衡时，“steady state response”可以帮助经济学家理解供需如何随时间互动。一旦市场调整到诸如新法规或消费者偏好变化等变化，它最终会达到一个价格和数量稳定的点，从而允许更好的预测和策略。在生态研究中，研究人员可能会观察物种种群及其在生态系统内的相互作用。在经历扰动后，例如自然灾害或人为干预，生态系统可能会经历一系列变化。最终，它将实现“steady state response”，物种种群稳定，生态系统正常运作。理解这种响应帮助保护主义者就管理生态系统和保护生物多样性做出明智的决策。总之，“steady state response”的概念在各个领域都是必不可少的，从工程到经济学和生态学。它提供了一个框架，用于理解系统在经历扰动后的时间行为。通过研究和分析“steady state response”，专业人士可以设计出更高效的系统，更准确地预测结果，并实施更好的管理策略。随着我们继续面临技术、环境和社会中的复杂挑战，掌握“steady state response”背后的原理对于在我们的系统中实现稳定和可持续性将变得越来越重要。