equipotential pitch

简明释义

等位距

英英释义

例句

1.During the installation of electrical systems, workers must adhere to the guidelines for equipotential pitch to avoid hazards.

在电气系统安装过程中，工人必须遵循等势间距的指导方针，以避免危险。

2.When designing a grounding system, engineers must calculate the equipotential pitch to prevent dangerous potential differences.

在设计接地系统时，工程师必须计算等势间距以防止危险的电位差。

3.Understanding the equipotential pitch is essential for maintaining uniform voltage levels across an area.

理解等势间距对于保持区域内电压水平均匀至关重要。

4.The equipotential pitch helps in determining the spacing of grounding rods in a lightning protection system.

等势间距有助于确定雷电保护系统中接地棒的间距。

5.In electrical engineering, the concept of equipotential pitch is crucial for ensuring safety in high-voltage areas.

在电气工程中，等势间距的概念对确保高压区域的安全至关重要。

作文

In the realm of physics and engineering, the concept of equipotential pitch plays a crucial role in understanding various phenomena related to electric fields and potentials. To grasp the significance of this term, we first need to break it down into its components. The word 'equipotential' refers to points in a field where the potential energy is the same, meaning that no work is required to move a charge between these points. On the other hand, 'pitch' can refer to the distance or spacing between these equipotential points. Together, equipotential pitch describes the spatial arrangement of points within an electric field that maintain a constant potential, which is essential for many applications in electrical engineering.Understanding equipotential pitch is vital for designing efficient electrical systems. For instance, when engineers create circuit layouts, they must consider the equipotential surfaces to ensure that the voltage remains stable across different parts of the circuit. If the equipotential pitch is not properly accounted for, it could lead to uneven voltage distribution, resulting in circuit failures or inefficiencies.Moreover, the concept of equipotential pitch is not limited to electrical engineering. It also has implications in fields such as geophysics, where it helps in mapping the Earth's gravitational and magnetic fields. By analyzing equipotential lines, scientists can infer valuable information about subsurface structures, which is crucial for resource exploration and environmental studies.One practical example of equipotential pitch can be observed in the design of power transmission lines. Engineers must ensure that the potential difference between various points along the line is minimized to prevent excessive losses and maintain safety. By strategically placing conductors at equipotential points, they can optimize the system's performance and reduce the risk of electrical hazards.Furthermore, in the context of electrostatics, understanding equipotential pitch aids in visualizing electric fields. When conducting experiments with charged objects, students often use equipotential lines to illustrate how electric forces act on charges. These lines help in predicting the motion of charges within the field, providing a clear understanding of the underlying principles of electrostatics.In conclusion, the term equipotential pitch encapsulates a fundamental concept in physics and engineering that is essential for the design and analysis of various systems. Its relevance spans multiple disciplines, highlighting the interconnectedness of scientific principles. By comprehending the significance of equipotential pitch, one can appreciate the nuances of electric fields and their applications in real-world scenarios. Whether in electrical engineering, geophysics, or educational settings, the understanding of equipotential relationships remains a cornerstone of scientific inquiry and technological advancement.

在物理和工程领域，equipotential pitch的概念在理解与电场和电势相关的各种现象中起着至关重要的作用。要掌握这个术语的意义，我们首先需要将其分解为几个组成部分。“equipotential”一词指的是在一个场中电势能相同的点，这意味着在这些点之间移动电荷不需要做功。而“pitch”则可以指这些等电势点之间的距离或间距。结合在一起，equipotential pitch描述了电场中保持恒定电势的点的空间排列，这对于电气工程中的许多应用至关重要。理解equipotential pitch对于设计高效的电气系统至关重要。例如，当工程师创建电路布局时，他们必须考虑等电势面，以确保不同部分的电压保持稳定。如果没有正确考虑等电势间距，可能会导致电压分布不均，从而导致电路故障或效率低下。此外，equipotential pitch的概念并不限于电气工程。它在地球物理等领域也具有重要意义，有助于绘制地球的重力和磁场。通过分析等电势线，科学家可以推断出有关地下结构的宝贵信息，这对于资源勘探和环境研究至关重要。一个关于equipotential pitch的实际例子可以在电力传输线路的设计中观察到。工程师必须确保线路沿途各点之间的电势差最小化，以防止过度损失并维护安全。通过在等电势点上战略性地放置导体，他们可以优化系统的性能并降低电气危险的风险。此外，在静电学的背景下，理解equipotential pitch有助于可视化电场。在对带电物体进行实验时，学生们常常使用等电势线来说明电力如何作用于电荷。这些线有助于预测电荷在场中的运动，提供对静电学基本原理的清晰理解。总之，equipotential pitch这一术语概括了物理和工程中的一个基本概念，对于各种系统的设计和分析至关重要。它的相关性跨越多个学科，突显了科学原理之间的相互联系。通过理解equipotential pitch的重要性，人们可以欣赏电场及其在现实世界场景中的应用的细微差别。无论是在电气工程、地球物理学还是教育环境中，对等电势关系的理解仍然是科学探究和技术进步的基石。