overlond coupling

简明释义

过载联轴器

英英释义

例句

1.The engineers discussed the issue of overlond coupling during the design review, as it could lead to system instability.

工程师们在设计评审中讨论了过度耦合的问题，因为这可能导致系统不稳定。

2.In our architecture, we must be cautious of overlond coupling that can hinder scalability.

在我们的架构中，我们必须小心可能阻碍可扩展性的过度耦合。

3.The team identified overlond coupling as a major factor in the project's delays.

团队将过度耦合识别为项目延误的主要因素。

4.Refactoring the code helped eliminate overlond coupling and improved maintainability.

重构代码有助于消除过度耦合并提高可维护性。

5.To improve modularity, we need to reduce overlond coupling between different components of the software.

为了提高模块化，我们需要减少软件不同组件之间的过度耦合。

作文

In the realm of engineering and physics, the concept of overlond coupling plays a critical role in understanding how different systems interact with one another. This term refers to the phenomenon where two or more systems are interconnected in such a way that their behaviors influence each other significantly. For instance, in mechanical systems, overlond coupling can occur when the vibrations of one component affect the performance of another, leading to complex dynamics that must be carefully analyzed. Understanding this interaction is crucial for designing stable and efficient systems.The implications of overlond coupling extend beyond mechanical systems; they also appear in various fields such as electrical engineering, climate science, and even economics. In electrical circuits, for example, overlond coupling can lead to unexpected feedback loops, which may cause circuit failures if not properly managed. Similarly, in climate science, the concept helps explain how different environmental factors like temperature, humidity, and atmospheric pressure are interrelated. A change in one aspect can lead to cascading effects throughout the entire system, showcasing the importance of understanding these couplings.Moreover, overlond coupling is not limited to natural systems; it is also relevant in social sciences. In sociology, the interactions between different social groups can be seen as a form of overlond coupling. Changes in one group’s behavior can influence others, leading to shifts in societal norms and values. This interconnectedness highlights the complexity of human interactions and the necessity for interdisciplinary approaches when studying social phenomena.The study of overlond coupling often involves advanced mathematical models and simulations. Researchers use these tools to predict how changes in one part of a system will affect the whole. For example, engineers might simulate how modifications to a bridge design could impact its load-bearing capacity and the overall stability of the structure. By analyzing these couplings, engineers can make informed decisions that enhance safety and performance.However, it is important to note that overlond coupling can also lead to challenges. In systems where these couplings are strong, small changes can have disproportionately large effects, making it difficult to control outcomes. This sensitivity necessitates robust design strategies and thorough testing to ensure that systems can handle unexpected disturbances.In conclusion, the concept of overlond coupling is fundamental to understanding the interactions within complex systems. Whether in engineering, environmental science, or social studies, recognizing how different components influence each other is essential for effective analysis and decision-making. As we continue to face increasingly interconnected challenges in our world, a deeper understanding of overlond coupling will be vital in creating solutions that are both innovative and sustainable.

在工程和物理学领域，overlond coupling的概念在理解不同系统如何相互作用方面发挥着关键作用。这个术语指的是两个或多个系统以一种显著影响彼此行为的方式互相连接的现象。例如，在机械系统中，overlond coupling可能发生在一个组件的振动影响另一个组件的性能时，导致复杂的动态，需要仔细分析。理解这种相互作用对于设计稳定和高效的系统至关重要。overlond coupling的影响不仅限于机械系统；它还出现在电气工程、气候科学甚至经济学等各个领域。例如，在电路中，overlond coupling可能导致意想不到的反馈循环，如果不加以管理，可能会导致电路故障。同样，在气候科学中，这个概念有助于解释温度、湿度和大气压力等不同环境因素是如何相互关联的。一个方面的变化可以导致整个系统的级联效应，展示了理解这些耦合的重要性。此外，overlond coupling不仅限于自然系统；它在社会科学中也具有相关性。在社会学中，不同社会群体之间的互动可以被视为一种overlond coupling。一个群体行为的变化可以影响其他群体，导致社会规范和价值观的转变。这种相互联系强调了人类互动的复杂性，以及在研究社会现象时跨学科方法的必要性。对overlond coupling的研究通常涉及先进的数学模型和模拟。研究人员使用这些工具来预测系统某一部分的变化将如何影响整体。例如，工程师可能会模拟对桥梁设计的修改如何影响其承载能力和整体稳定性。通过分析这些耦合，工程师可以做出明智的决策，从而提高安全性和性能。然而，需要注意的是，overlond coupling也可能带来挑战。在这些耦合强的系统中，小的变化可能会产生不成比例的大影响，使得控制结果变得困难。这种敏感性需要强健的设计策略和彻底的测试，以确保系统能够应对意外的干扰。总之，overlond coupling的概念是理解复杂系统内相互作用的基础。无论是在工程、环境科学还是社会研究中，认识到不同组件如何相互影响对于有效分析和决策至关重要。随着我们继续面临日益相互关联的全球挑战，更深入地理解overlond coupling将在创造创新和可持续解决方案方面发挥重要作用。