parallel plate

简明释义

平行板

英英释义

例句

1.The parallel plates can be used in various applications, including filters and oscillators.

这些平行板可以用于多种应用，包括滤波器和振荡器。

2.The capacitor consists of two parallel plates that store electrical energy.

这个电容器由两个平行板组成，用于存储电能。

3.The parallel plates in the sensor help to create a uniform electric field.

传感器中的平行板有助于产生均匀的电场。

4.In the experiment, we measured the voltage across the parallel plates to determine capacitance.

在实验中，我们测量了平行板之间的电压以确定电容。

5.To achieve accuracy, ensure that the parallel plates are perfectly aligned.

为了达到准确性，确保平行板完美对齐。

作文

In the field of physics and engineering, the concept of parallel plate (平行板) configurations plays a crucial role in understanding various phenomena. A parallel plate capacitor, for example, is a fundamental component in electronic circuits and is essential for storing electrical energy. This device consists of two conductive plates that are placed parallel to each other, separated by an insulating material known as a dielectric. The ability of a parallel plate capacitor to store charge is determined by the area of the plates, the distance between them, and the properties of the dielectric material. The principles governing a parallel plate capacitor can be applied to many technological advancements. For instance, in microelectronics, parallel plate capacitors are miniaturized to fit within integrated circuits, enabling efficient energy storage and management. The design and optimization of these capacitors are critical for enhancing the performance of devices such as smartphones and laptops.Moreover, the concept of parallel plate systems extends beyond capacitors. In fluid dynamics, parallel plate flow refers to the movement of fluids between two flat surfaces that are aligned parallel to one another. This scenario is often simplified in theoretical studies to analyze the behavior of viscous fluids. The simplification allows scientists and engineers to derive equations that predict the flow characteristics, which can be applied in various industries, including chemical processing and materials engineering.Furthermore, the study of parallel plate systems is not limited to physics and engineering. In environmental science, researchers examine the effects of parallel plate configurations in sediment transport and erosion processes. Understanding how sediments behave between two flat surfaces can provide insights into natural phenomena such as riverbank erosion and the formation of deltas.In educational settings, the parallel plate concept is often used to introduce students to key principles of electromagnetism and fluid dynamics. By conducting experiments with simple parallel plate setups, students can visualize the effects of electric fields and fluid flow. Such hands-on learning experiences help solidify theoretical knowledge and encourage further exploration in the sciences.In conclusion, the significance of parallel plate configurations spans multiple disciplines, from electronics to environmental science. Understanding the principles behind parallel plate systems not only enhances our grasp of fundamental scientific concepts but also drives innovation in technology and industry. As we continue to explore the complexities of the natural world, the parallel plate will remain a vital element in our quest for knowledge and advancement.

在物理和工程领域，parallel plate（平行板）配置的概念在理解各种现象中发挥着至关重要的作用。例如，parallel plate 电容器是电子电路中的基本组件，对于存储电能至关重要。该设备由两个导电板组成，这两个板平行放置，之间隔着一种称为介质的绝缘材料。parallel plate 电容器存储电荷的能力取决于板的面积、它们之间的距离以及介质材料的性质。parallel plate 电容器所遵循的原理可以应用于许多技术进步。例如，在微电子学中，parallel plate 电容器被微型化以适应集成电路内，有效地实现能量存储和管理。这些电容器的设计和优化对于提高智能手机和笔记本电脑等设备的性能至关重要。此外，parallel plate 系统的概念不仅限于电容器。在流体动力学中，parallel plate 流动指的是流体在两个平行排列的平面之间的运动。这种情况通常在理论研究中被简化，以分析粘性流体的行为。这种简化允许科学家和工程师推导出预测流动特性的方程，这些方程可以应用于化学加工和材料工程等各个行业。此外，对parallel plate 系统的研究不限于物理和工程。在环境科学中，研究人员考察parallel plate 配置对沉积物运输和侵蚀过程的影响。理解沉积物如何在两个平坦表面之间行为，可以为自然现象提供见解，例如河岸侵蚀和三角洲的形成。在教育环境中，parallel plate 概念常用于向学生介绍电磁学和流体动力学的关键原理。通过进行简单的parallel plate 实验，学生可以直观地了解电场和流体流动的影响。这种动手学习体验有助于巩固理论知识，并鼓励进一步探索科学。总之，parallel plate 配置的重要性跨越多个学科，从电子学到环境科学。理解parallel plate 系统背后的原理不仅增强了我们对基本科学概念的理解，还推动了技术和工业的创新。在我们继续探索自然世界的复杂性时，parallel plate 将始终是我们追求知识和进步的重要元素。