plate potential

简明释义

屏极电位

英英释义

例句

1.The plate potential in this circuit must be adjusted to ensure optimal performance.

在这个电路中，板电位必须进行调整以确保最佳性能。

2.A higher plate potential can lead to increased efficiency in photovoltaic cells.

更高的板电位可以提高光伏电池的效率。

3.Engineers often measure the plate potential to diagnose issues in electronic devices.

工程师们常常测量板电位以诊断电子设备中的问题。

4.Understanding the plate potential is crucial for designing effective capacitors.

理解板电位对于设计有效的电容器至关重要。

5.In this experiment, we recorded the plate potential at various temperatures.

在这个实验中，我们记录了不同温度下的板电位。

作文

In the field of physics and engineering, particularly in the study of electrostatics, the term plate potential refers to the electric potential difference between two conductive plates. This concept is crucial for understanding how capacitors function, as they store electrical energy by accumulating charge on their plates. The plate potential essentially describes the ability of these plates to hold an electric charge, which is fundamental to many electronic devices we use today.To delve deeper into the significance of plate potential, we can consider a parallel plate capacitor, a common component found in various electronic circuits. When a voltage is applied across the plates, one plate becomes positively charged while the other becomes negatively charged. The difference in charge creates an electric field between the plates, which is directly related to the plate potential. The greater the voltage applied, the higher the plate potential, and consequently, the more charge the capacitor can store.The relationship between the plate potential and the stored charge can be expressed mathematically by the equation Q = CV, where Q is the charge stored, C is the capacitance, and V is the voltage (or plate potential). This equation highlights the linear relationship between the plate potential and the amount of charge a capacitor can hold, indicating that as the plate potential increases, so does the stored charge.Understanding plate potential is not only essential for theoretical studies but also for practical applications. For instance, in designing circuits, engineers must calculate the necessary plate potential to ensure that capacitors operate efficiently without reaching their breakdown voltage, which could lead to failure or damage. Furthermore, advancements in technology have led to the development of capacitors with higher capacitance values, allowing for greater plate potential and, therefore, more efficient energy storage solutions.Moreover, the concept of plate potential extends beyond capacitors. It plays a significant role in various fields, including telecommunications, power supply systems, and even renewable energy technologies such as solar panels. In these applications, understanding how to manipulate plate potential can lead to improved performance and energy efficiency.In summary, the term plate potential is a fundamental concept in the study of electrostatics and electronics, encapsulating the idea of electric potential difference between conductive plates. Its implications are vast, affecting everything from basic circuit design to advanced technological innovations. By grasping the principles surrounding plate potential, one can gain valuable insights into the behavior of electrical systems and contribute to the ongoing evolution of technology.

在物理和工程领域，特别是在静电学的研究中，“plate potential”一词指的是两个导电板之间的电势差。这个概念对于理解电容器的工作原理至关重要，因为电容器通过在其板上积累电荷来存储电能。“plate potential”本质上描述了这些板保持电荷的能力，这是我们今天使用的许多电子设备的基础。深入探讨“plate potential”的重要性，我们可以考虑平行板电容器，这是各种电子电路中常见的组件。当在板之间施加电压时，一块板变为正电荷，而另一块板则变为负电荷。电荷之间的差异在板之间形成电场，这与“plate potential”直接相关。施加的电压越大，“plate potential”越高，因此电容器能够存储的电荷也越多。“plate potential”与存储电荷之间的关系可以用公式Q = CV表示，其中Q是存储的电荷，C是电容，V是电压（或“plate potential”）。这个公式突显了“plate potential”与电容器能够容纳的电荷量之间的线性关系，表明随着“plate potential”的增加，存储的电荷也会增加。理解“plate potential”不仅对理论研究至关重要，而且对实际应用也同样重要。例如，在电路设计中，工程师必须计算所需的“plate potential”，以确保电容器高效工作而不达到其击穿电压，这可能导致故障或损坏。此外，技术的进步使得具有更高电容值的电容器得以开发，从而允许更大的“plate potential”，因此提供更高效的能量存储解决方案。此外，“plate potential”的概念超出了电容器的范畴。它在电信、电源系统甚至可再生能源技术（如太阳能电池板）等各个领域都发挥着重要作用。在这些应用中，理解如何操控“plate potential”可以提高性能和能量效率。总之，“plate potential”这一术语是静电学和电子学研究中的基本概念，概括了导电板之间电势差的概念。它的影响广泛，涉及从基本电路设计到先进技术创新的各个方面。通过掌握围绕“plate potential”的原理，人们可以深入了解电气系统的行为，并为技术的不断发展做出贡献。