wire drag

简明释义

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英英释义

例句

1.The technician adjusted the setup to reduce the wire drag 电缆拖拽 during the experiment.

技术员调整了设置，以减少实验过程中的电缆拖拽 wire drag。

2.We installed a new routing system to decrease wire drag 电缆拖拽 in the network.

我们安装了一个新的布线系统，以减少网络中的电缆拖拽 wire drag。

3.To improve performance, we need to minimize the wire drag 电缆拖拽 in the system.

为了提高性能，我们需要尽量减少系统中的电缆拖拽 wire drag。

4.High wire drag 电缆拖拽 can lead to overheating of the cables.

高电缆拖拽 wire drag可能导致电缆过热。

5.The engineer noticed that the wire drag 电缆拖拽 was causing delays in the signal transmission.

工程师注意到电缆拖拽 wire drag导致信号传输延迟。

作文

In the world of technology and engineering, various terms and concepts are essential for communication and understanding. One such term that often comes up in discussions about electrical systems and data transmission is wire drag. This term refers to the resistance or friction that occurs when an electrical signal travels through a wire. Understanding wire drag is crucial for engineers and technicians who design and maintain electrical systems, as it can significantly impact the performance and efficiency of these systems.When we talk about wire drag, we are essentially discussing the factors that affect the speed and quality of signal transmission in wires. Several elements contribute to this phenomenon, including the material of the wire, its length, and the environmental conditions it operates under. For instance, a longer wire will typically exhibit more wire drag than a shorter one due to the increased distance the electrical signal must travel. Similarly, wires made from materials with higher resistance will also experience greater wire drag, leading to potential losses in signal strength.The implications of wire drag extend beyond simple resistance. In high-frequency applications, such as telecommunications and data networks, the effects of wire drag can become even more pronounced. Engineers must account for these effects when designing circuits and selecting materials to ensure optimal performance. If not properly managed, wire drag can lead to issues like signal degradation, increased latency, and even system failures, which can be costly and time-consuming to rectify.To mitigate the effects of wire drag, engineers often employ various strategies. One common approach is to use thicker wires or cables that have lower resistance. Additionally, using materials with better conductive properties, such as copper or silver, can help reduce wire drag and improve overall system performance. Furthermore, minimizing the length of the wiring in a system can also be beneficial, as it reduces the distance the signal must travel and thus the associated wire drag.Another important consideration when dealing with wire drag is the impact of temperature. As the temperature of a wire increases, its resistance typically rises, leading to greater wire drag. This is particularly relevant in environments where wires may be exposed to heat sources or fluctuating temperatures. Engineers must take these factors into account during the design phase to ensure that systems remain reliable under various operating conditions.In conclusion, understanding wire drag is vital for anyone involved in the design and maintenance of electrical systems. The resistance encountered by electrical signals as they travel through wires can have significant implications for performance and efficiency. By recognizing the factors that contribute to wire drag and implementing strategies to minimize its effects, engineers can ensure that their systems operate smoothly and effectively. Ultimately, a solid grasp of concepts like wire drag allows professionals to create better, more reliable technologies that meet the demands of modern society.

在技术和工程领域，各种术语和概念对于沟通和理解至关重要。其中一个常常在讨论电气系统和数据传输时出现的术语是线拖。这个术语指的是电信号通过电线传输时发生的阻力或摩擦。理解线拖对设计和维护电气系统的工程师和技术人员来说至关重要，因为它会显著影响这些系统的性能和效率。当我们谈论线拖时，实际上是在讨论影响信号传输速度和质量的因素。有几个因素会导致这种现象，包括电线的材料、长度以及其操作的环境条件。例如，较长的电线通常会比较短的电线表现出更多的线拖，因为电信号必须传输的距离增加。同样，使用高电阻材料制成的电线也会经历更大的线拖，导致信号强度的潜在损失。线拖的影响不仅限于简单的阻力。在高频应用中，例如电信和数据网络，线拖的效果可能会更加明显。工程师在设计电路和选择材料时必须考虑这些影响，以确保最佳性能。如果管理不当，线拖可能会导致信号衰减、延迟增加甚至系统故障，这可能会造成昂贵且耗时的修复。为了减轻线拖的影响，工程师通常采用各种策略。一种常见的方法是使用较厚的电线或电缆，这样可以降低电阻。此外，使用导电性能更好的材料，例如铜或银，可以帮助减少线拖并提高整体系统性能。此外，尽量缩短系统中的布线长度也会有益，因为这减少了信号必须传输的距离，从而减少了相关的线拖。处理线拖时，另一个重要的考虑因素是温度的影响。随着电线温度的升高，其电阻通常会增加，从而导致更大的线拖。这在电线可能暴露于热源或温度波动的环境中尤其相关。工程师在设计阶段必须考虑这些因素，以确保系统在各种操作条件下保持可靠。总之，理解线拖对于任何参与电气系统设计和维护的人来说都是至关重要的。电信号在电线中传输时遇到的阻力对性能和效率有显著影响。通过认识到导致线拖的因素并实施减少其影响的策略，工程师可以确保他们的系统平稳有效地运行。最终，对像线拖这样的概念有扎实的掌握，使专业人士能够创造出更好、更可靠的技术，以满足现代社会的需求。