final voltage

简明释义

终止电压

英英释义

例句

1.The circuit was tested, and the measured final voltage 最终电压 was consistent with our calculations.

电路经过测试，测得的最终电压与我们的计算一致。

2.The final voltage 最终电压 of the battery can indicate its state of charge.

电池的最终电压可以指示其充电状态。

3.After adjusting the resistors, the final voltage 最终电压 across the load dropped significantly.

在调整电阻后，负载上的最终电压显著下降。

4.We need to ensure that the final voltage 最终电压 does not exceed the safety limits.

我们需要确保最终电压不超过安全限制。

5.The laboratory report showed the final voltage 最终电压 after the experiment was completed.

实验完成后，实验室报告显示了最终电压。

作文

In the realm of electrical engineering, the concept of voltage is fundamental to understanding how circuits operate. One critical aspect that engineers often need to consider is the final voltage, which refers to the voltage level present at a specific point in a circuit after all components have interacted with the electrical energy supplied. This notion is not only essential for designing effective circuits but also for troubleshooting issues that may arise during operation.To illustrate the importance of final voltage, let us consider a simple series circuit consisting of a battery, a resistor, and a light bulb. When the circuit is powered on, the battery provides an initial voltage. However, as the current flows through the resistor and the light bulb, some of this energy is converted into heat and light, respectively. The result is a drop in voltage across these components. The final voltage at the light bulb will be lower than the initial voltage provided by the battery due to these energy transformations.Understanding the final voltage is crucial for predicting how well the light bulb will perform. If the final voltage is too low, the bulb may not illuminate brightly or may not light up at all. Therefore, engineers must calculate the expected final voltage during the design phase to ensure that all components function as intended.Moreover, the concept of final voltage is vital when it comes to safety considerations. In high-voltage applications, such as power transmission lines, knowing the final voltage can help prevent accidents and equipment failures. For instance, if the voltage drops significantly due to resistance in the wires, it could lead to insufficient power reaching the end users, causing disruptions in service.In addition, the final voltage can vary depending on the load connected to the circuit. For example, if multiple devices are connected in parallel, the total current drawn from the source increases, which can affect the final voltage across each device. This variation is particularly important in applications involving multiple electrical loads, where consistent performance is required.Engineers often use simulation software to model circuits and predict the final voltage under various conditions. These tools allow for adjustments to be made before physical prototypes are created, saving time and resources. By accurately predicting the final voltage, engineers can optimize circuit designs for efficiency and reliability.In conclusion, the final voltage is a critical parameter in electrical engineering that influences the performance, safety, and reliability of circuits. Whether dealing with simple household appliances or complex industrial systems, understanding and calculating the final voltage is essential for ensuring that electrical systems operate effectively. As technology continues to advance, the importance of accurately determining the final voltage will only grow, highlighting the need for ongoing education and innovation in the field of electrical engineering.

在电气工程领域，电压的概念对于理解电路的运行至关重要。工程师经常需要考虑的一个关键方面是最终电压，它指的是在电路中某一特定点上，所有组件与供给的电能相互作用后所产生的电压水平。这个概念不仅对有效设计电路至关重要，而且在故障排除过程中也非常重要。为了说明最终电压的重要性，我们可以考虑一个简单的串联电路，这个电路由一个电池、一个电阻器和一个灯泡组成。当电路通电时，电池提供初始电压。然而，当电流流过电阻器和灯泡时，这部分能量被转换为热量和光，结果是这些组件上的电压下降。灯泡的最终电压将低于电池提供的初始电压，这是因为这些能量转化的影响。理解最终电压对于预测灯泡的性能至关重要。如果最终电压过低，灯泡可能无法明亮地照亮，甚至根本无法点亮。因此，工程师必须在设计阶段计算预期的最终电压，以确保所有组件按预期功能运行。此外，最终电压的概念在安全考虑方面也至关重要。在高电压应用中，例如电力传输线，了解最终电压可以帮助防止事故和设备故障。例如，如果由于电线中的电阻导致电压显著下降，可能会导致到达终端用户的电力不足，从而造成服务中断。此外，最终电压可能会根据连接到电路的负载而变化。例如，如果多个设备并联连接，则从源头抽取的总电流增加，这可能会影响每个设备的最终电压。这种变化在涉及多个电负载的应用中尤为重要，因为在这些情况下需要一致的性能。工程师通常使用仿真软件来建模电路，并预测在各种条件下的最终电压。这些工具允许在创建物理原型之前进行调整，从而节省时间和资源。通过准确预测最终电压，工程师可以优化电路设计，以提高效率和可靠性。总之，最终电压是电气工程中一个关键参数，影响电路的性能、安全性和可靠性。无论是处理简单的家用电器还是复杂的工业系统，理解和计算最终电压对于确保电气系统有效运行至关重要。随着技术的不断发展，准确确定最终电压的重要性只会增加，这突显了在电气工程领域继续教育和创新的必要性。