vertical coupling

简明释义

立式联轴器

英英释义

例句

1.In robotics, vertical coupling 垂直耦合 can enhance the movement efficiency of robotic arms.

在机器人技术中，垂直耦合 vertical coupling可以提高机械臂的运动效率。

2.The design of the new bridge incorporates vertical coupling 垂直耦合 to improve stability during high winds.

新桥的设计采用了垂直耦合 vertical coupling，以提高在强风中的稳定性。

3.Engineers used vertical coupling 垂直耦合 techniques to connect different levels of the building.

工程师使用垂直耦合 vertical coupling技术来连接建筑物的不同层级。

4.The concept of vertical coupling 垂直耦合 is crucial in understanding how forces are transmitted through structures.

理解力如何通过结构传递的过程中，垂直耦合 vertical coupling的概念至关重要。

5.The research paper discusses the effects of vertical coupling 垂直耦合 in multi-layered structures.

这篇研究论文讨论了多层结构中垂直耦合 vertical coupling的影响。

作文

In the field of engineering and physics, the concept of vertical coupling refers to the interaction between different systems or components that are aligned in a vertical arrangement. This phenomenon can be observed in various applications, including mechanical systems, electrical circuits, and even in biological systems. Understanding vertical coupling is crucial for optimizing performance and ensuring stability in these systems.For instance, in mechanical engineering, vertical coupling often occurs in structures such as bridges and buildings where different levels or sections must work together to support loads effectively. Engineers must consider how forces are transmitted vertically through these structures to prevent failure. If one section of a building is poorly designed, it can adversely affect other sections due to vertical coupling, leading to potential structural collapse.In electrical engineering, vertical coupling can refer to the interaction between different layers of a circuit board. As technology advances, circuits have become more compact, with multiple layers stacked vertically. This arrangement can lead to unintended coupling effects where signals from one layer interfere with another. Designers must carefully manage vertical coupling to minimize noise and ensure signal integrity, which is particularly important in high-frequency applications like telecommunications.Moreover, vertical coupling is also relevant in the study of ecosystems and biological systems. For example, in a forest, the interaction between trees and the soil can be viewed as a form of vertical coupling. The roots of trees penetrate the soil, affecting nutrient distribution and water retention, while the trees themselves influence the microclimate above them. This intricate relationship demonstrates how vertical coupling can impact ecological balance and health.The implications of vertical coupling extend beyond engineering and biology; they can also be found in social sciences. In organizational structures, for example, vertical coupling can describe the relationship between different levels of management. Effective communication and collaboration between upper management and lower-level employees are essential for an organization’s success. Poor vertical coupling can lead to misunderstandings, decreased morale, and ultimately, inefficiency within the organization.In conclusion, the concept of vertical coupling plays a significant role in various disciplines, highlighting the importance of understanding interactions between vertically aligned systems. Whether in engineering, biology, or social structures, recognizing how components influence each other can lead to better designs, healthier ecosystems, and more effective organizations. As we continue to explore and innovate across different fields, the principles of vertical coupling will remain a vital consideration for achieving optimal outcomes and fostering sustainable development.

在工程和物理学领域，vertical coupling（垂直耦合）的概念指的是不同系统或组件之间的相互作用，这些系统或组件在垂直排列中对齐。这种现象可以在各种应用中观察到，包括机械系统、电气电路，甚至生物系统。理解vertical coupling对于优化性能和确保这些系统的稳定性至关重要。例如，在机械工程中，vertical coupling通常发生在桥梁和建筑等结构中，其中不同的层次或部分必须协同工作以有效支撑负载。工程师必须考虑如何通过这些结构垂直传递力，以防止失败。如果建筑的一部分设计不当，可能会由于vertical coupling的不良影响而对其他部分产生不利影响，导致潜在的结构倒塌。在电气工程中，vertical coupling可以指电路板不同层之间的相互作用。随着技术的进步，电路变得更加紧凑，多个层垂直堆叠。这种排列可能导致意外的耦合效应，其中一个层的信号干扰另一个层。设计人员必须仔细管理vertical coupling以最小化噪声并确保信号完整性，这在高频应用（如电信）中特别重要。此外，vertical coupling在生态系统和生物系统的研究中也相关。例如，在森林中，树木与土壤之间的相互作用可以视为一种vertical coupling。树木的根部穿透土壤，影响养分分布和水分保持，而树木本身则影响其上方的微气候。这种复杂的关系展示了vertical coupling如何影响生态平衡和健康。vertical coupling的影响超越了工程和生物学；它们在社会科学中也可以找到。在组织结构中，例如，vertical coupling可以描述不同管理层之间的关系。高层管理与基层员工之间的有效沟通与协作对于组织的成功至关重要。糟糕的vertical coupling可能导致误解、士气下降，最终导致组织效率低下。总之，vertical coupling的概念在各个学科中发挥着重要作用，突显了理解垂直排列系统之间相互作用的重要性。无论是在工程、生物学还是社会结构中，认识到组件如何相互影响可以带来更好的设计、更健康的生态系统和更有效的组织。随着我们继续在不同领域探索和创新，vertical coupling的原则将始终是实现最佳结果和促进可持续发展的重要考虑因素。