coupling resistance

简明释义

耦合电阻

英英释义

例句

1.By reducing the coupling resistance, we can improve the signal quality in the circuit.

通过减少耦合电阻，我们可以提高电路中的信号质量。

2.In RF design, minimizing coupling resistance is crucial for optimal performance.

在射频设计中，最小化耦合电阻对最佳性能至关重要。

3.High coupling resistance can lead to power loss in electrical circuits.

高耦合电阻可能导致电路中的功率损耗。

4.The team focused on the coupling resistance between components to enhance the overall system stability.

团队专注于组件之间的耦合电阻以增强整体系统的稳定性。

5.The engineer calculated the coupling resistance to ensure the system's efficiency.

工程师计算了耦合电阻以确保系统的效率。

作文

In the field of engineering and physics, the term coupling resistance refers to the resistance encountered when two systems or components are connected or interact with each other. This concept is crucial in various applications, such as electrical circuits, mechanical systems, and even in biological systems where different entities must work together to achieve a common goal. Understanding coupling resistance can significantly improve the efficiency and performance of these systems.One of the most common examples of coupling resistance can be found in electrical circuits. When two resistors are connected in series or parallel, they exhibit a certain level of resistance that affects the overall current flow. The coupling resistance in this case determines how much voltage drop occurs across each component and how much power is dissipated as heat. Engineers must carefully calculate these values to ensure that the circuit operates within safe limits and achieves the desired functionality.In mechanical systems, coupling resistance can be observed when two moving parts interact with each other. For instance, in a gearbox, the gears must mesh perfectly to transmit torque effectively. Any misalignment or excessive friction between the gears introduces a form of coupling resistance that can reduce the system's efficiency. By minimizing this resistance through proper design and lubrication, engineers can enhance the performance of machines and extend their operational lifespan.Moreover, coupling resistance is also relevant in the field of biology. When studying ecosystems, for example, the interaction between different species can be seen as a form of coupling. The resistance faced by one species in adapting to changes in the environment can affect the entire ecosystem's stability. Understanding these dynamics is essential for conservation efforts and managing biodiversity.To further illustrate the importance of coupling resistance, consider the development of renewable energy technologies. Wind turbines, for instance, rely on the coupling of mechanical and electrical systems to convert wind energy into electricity. The resistance encountered during this process can impact the overall efficiency of energy conversion. Engineers must optimize the design of turbines to minimize coupling resistance, ensuring that they can generate maximum power from available wind resources.In conclusion, coupling resistance is a multifaceted concept that plays a significant role in various fields. Whether in electrical circuits, mechanical systems, or biological interactions, understanding this term is vital for improving efficiency and achieving optimal performance. As technology continues to advance, the ability to manage and minimize coupling resistance will remain a key focus for engineers and scientists alike. By addressing these challenges, we can create more efficient systems that benefit society and the environment.

在工程和物理学领域，术语coupling resistance指的是当两个系统或组件连接或相互作用时遇到的阻力。这个概念在各种应用中至关重要，例如电路、机械系统，甚至生物系统，其中不同实体必须协同工作以实现共同目标。理解coupling resistance可以显著提高这些系统的效率和性能。coupling resistance的一个常见例子可以在电路中找到。当两个电阻器串联或并联连接时，它们会显示出一定程度的阻力，从而影响整体电流流动。在这种情况下，coupling resistance决定了每个组件上的电压降落程度，以及作为热量散发的功率。工程师必须仔细计算这些值，以确保电路在安全范围内运行，并实现所需的功能。在机械系统中，当两个运动部件相互作用时，可以观察到coupling resistance。例如，在齿轮箱中，齿轮必须完美啮合才能有效传递扭矩。齿轮之间的任何不对齐或过度摩擦都会引入一种形式的coupling resistance，这可能降低系统的效率。通过通过适当的设计和润滑来最小化这种阻力，工程师可以提高机器的性能并延长其使用寿命。此外，coupling resistance在生物学领域也相关。当研究生态系统时，物种之间的相互作用可以被视为一种耦合。一个物种在适应环境变化时面临的抵抗力可以影响整个生态系统的稳定性。理解这些动态对于保护工作和管理生物多样性至关重要。为了进一步说明coupling resistance的重要性，考虑可再生能源技术的发展。例如，风力涡轮机依赖于机械和电气系统的耦合，将风能转换为电力。在这个过程中遇到的阻力可能会影响能量转换的整体效率。工程师必须优化涡轮机的设计，以最小化coupling resistance，确保它们能够从可用的风资源中生成最大功率。总之，coupling resistance是一个多方面的概念，在各个领域都发挥着重要作用。无论是在电路、电气系统还是生物相互作用中，理解这个术语对于提高效率和实现最佳性能至关重要。随着技术的不断进步，管理和最小化coupling resistance的能力将继续成为工程师和科学家的重点。通过解决这些挑战，我们可以创建更高效的系统，造福社会和环境。