striking voltage

简明释义

点火电压

英英释义

例句

1.The technician warned that the striking voltage could cause serious damage if not handled properly.

技术员警告说，如果处理不当，击穿电压可能会造成严重损坏。

2.In high-voltage systems, understanding the striking voltage is crucial for safety.

在高压系统中，理解击穿电压对于安全至关重要。

3.During the experiment, we observed a striking voltage that exceeded our expectations.

在实验过程中，我们观察到一个超出预期的击穿电压。

4.The engineer measured the striking voltage to ensure the circuit was functioning correctly.

工程师测量了击穿电压以确保电路正常工作。

5.The device failed because it couldn't withstand the striking voltage during the surge.

设备因无法承受浪涌期间的击穿电压而失效。

作文

The concept of striking voltage is often discussed in the context of electrical engineering and physics. It refers to the minimum voltage that is required to initiate an electrical discharge or arc in a medium, such as air. This phenomenon is critical in various applications, including power transmission, circuit design, and even in understanding natural occurrences like lightning. The importance of striking voltage cannot be overstated, as it plays a crucial role in ensuring the safety and efficiency of electrical systems.To elaborate further, consider the scenario of high-voltage power lines. These lines carry electricity over long distances, and their design must account for the striking voltage to prevent unwanted discharges that can lead to power loss or even hazardous situations. Engineers must calculate the striking voltage based on factors such as the distance between conductors, the surrounding environment, and weather conditions. For instance, during a storm, the moisture in the air can lower the striking voltage, increasing the risk of electrical arcing.In addition to its implications in engineering, striking voltage also has relevance in everyday technology. Devices like spark plugs in internal combustion engines rely on the principle of striking voltage to ignite the fuel-air mixture. When the voltage reaches a certain threshold, it creates a spark that ignites the mixture, allowing the engine to run efficiently. Understanding the striking voltage in this context helps engineers design more effective ignition systems, ultimately improving the performance of vehicles.Moreover, the study of striking voltage extends into the realm of safety protocols in industrial settings. Workers who handle high-voltage equipment must be trained to understand the risks associated with striking voltage. Safety measures, such as proper insulation and grounding techniques, are implemented to mitigate the dangers posed by unexpected electrical discharges. By recognizing the significance of striking voltage, industries can protect their employees and minimize the risk of accidents.Furthermore, the phenomenon of striking voltage is not limited to man-made systems; it is also a fundamental aspect of natural events. Lightning, for example, is a large-scale manifestation of electrical discharge that occurs when the atmospheric conditions create a potential difference significant enough to exceed the striking voltage of air. Understanding how striking voltage operates in this context helps meteorologists predict storms and informs the design of lightning protection systems for buildings and infrastructure.In conclusion, the term striking voltage encompasses a wide array of applications and implications across various fields. From electrical engineering to environmental science, understanding this concept is essential for designing safe and efficient systems. As technology continues to evolve, the relevance of striking voltage will undoubtedly grow, making it a vital area of study for future innovations. Whether in the context of power generation, automotive engineering, or safety protocols, the principles surrounding striking voltage remain integral to our understanding of electricity and its applications in the modern world.

“striking voltage”的概念通常在电气工程和物理学的背景下讨论。它指的是在某种介质（如空气）中启动电气放电或电弧所需的最小电压。这一现象在电力传输、电路设计以及理解自然现象（如闪电）等各种应用中至关重要。“striking voltage”的重要性不言而喻，因为它在确保电气系统的安全性和效率方面发挥着关键作用。进一步阐述，考虑高压电力线的场景。这些线路在长距离内输送电力，其设计必须考虑“striking voltage”，以防止导致电力损失甚至危险情况的意外放电。工程师必须根据导体之间的距离、周围环境和天气条件等因素计算“striking voltage”。例如，在暴风雨期间，空气中的湿气会降低“striking voltage”，增加电弧的风险。除了在工程中的影响外，“striking voltage”在日常技术中也具有相关性。内部燃烧发动机中的火花塞等设备依赖于“striking voltage”的原理点燃燃料-空气混合物。当电压达到某个阈值时，它会产生一个火花点燃混合物，使发动机高效运行。在这种情况下，理解“striking voltage”有助于工程师设计更有效的点火系统，最终提高车辆的性能。此外，“striking voltage”的研究还扩展到工业环境中的安全协议。处理高压设备的工人必须接受培训，以了解与“striking voltage”相关的风险。实施适当的绝缘和接地技术等安全措施，以减轻意外电气放电带来的危险。通过认识到“striking voltage”的重要性，行业可以保护员工并最大限度地降低事故风险。此外，“striking voltage”现象不仅限于人为系统；它也是自然事件的基本方面。例如，闪电是发生在大气条件下形成足够大的电位差以超过空气的“striking voltage”的电气放电的大规模表现。了解“striking voltage”在这种背景下的运作有助于气象学家预测风暴，并为建筑物和基础设施的雷电保护系统设计提供信息。总之，“striking voltage”这个术语涵盖了各个领域广泛的应用和影响。从电气工程到环境科学，理解这一概念对于设计安全高效的系统至关重要。随着技术的不断发展，“striking voltage”的相关性无疑会增加，使其成为未来创新的重要研究领域。无论是在发电、汽车工程还是安全协议的背景下，围绕“striking voltage”的原理仍然是我们理解电力及其在现代世界中的应用的核心。