surface field
简明释义
表面电场
英英释义
例句
1.We used sensors to gather data from the surface field 表面场 during the experiment.
在实验期间,我们使用传感器从surface field 表面场 收集数据。
2.The data collected from the surface field 表面场 will help us understand the environmental changes.
从surface field 表面场 收集的数据将帮助我们了解环境变化。
3.In our research, we focused on the surface field 表面场 to analyze soil moisture levels.
在我们的研究中,我们专注于surface field 表面场 来分析土壤湿度水平。
4.The findings from the surface field 表面场 study will be published next month.
来自surface field 表面场 研究的发现将于下个月发布。
5.The surface field 表面场 measurements are crucial for predicting weather patterns.
对天气模式的预测至关重要的是surface field 表面场 测量。
作文
In the realm of physics and engineering, the term surface field refers to the distribution of a physical quantity, such as electric or magnetic field strength, across a surface. Understanding the surface field is crucial for various applications, including the design of sensors, antennas, and other electronic devices. For instance, in antenna design, the surface field helps engineers determine how the antenna will radiate energy into the surrounding environment. By analyzing the surface field, they can optimize the antenna's shape and material to achieve better performance. Moreover, the surface field concept extends beyond just antennas; it also applies to capacitors and other components where surface interactions play a significant role.In practical terms, the surface field can be visualized as the way forces act on the surface of an object. When considering a charged plate, the surface field describes how the electric field lines emanate from the surface and how they interact with nearby charges. This understanding is essential in electrostatics, where the behavior of charges in relation to surfaces can lead to various phenomena such as capacitance and discharge.Furthermore, the surface field is not only relevant in theoretical studies but also in real-world applications. For example, in the field of material science, researchers study the surface field to understand how different materials behave under various conditions. The properties of a material's surface can significantly influence its overall performance, particularly in coatings, electronics, and nanotechnology. By manipulating the surface field, scientists can enhance adhesion, reduce friction, or improve conductivity, leading to innovative solutions in technology.The significance of the surface field also extends to environmental science. In studying the interaction between pollutants and surfaces, understanding the surface field can help predict how contaminants spread and how they can be mitigated. For instance, the surface field can influence how water interacts with soil or how chemicals adhere to surfaces, which is crucial for developing effective cleanup strategies in contaminated areas.In conclusion, the concept of the surface field is multifaceted and plays a vital role in numerous scientific disciplines. From engineering applications to environmental studies, understanding the surface field allows for advancements in technology and improvements in our approach to solving complex problems. As research continues to evolve, the implications of the surface field will undoubtedly expand, leading to new discoveries and innovations that can benefit society as a whole.
在物理和工程领域,术语表面场指的是某种物理量(如电场或磁场强度)在表面上的分布。理解表面场对于各种应用至关重要,包括传感器、天线和其他电子设备的设计。例如,在天线设计中,表面场帮助工程师确定天线如何将能量辐射到周围环境中。通过分析表面场,他们可以优化天线的形状和材料,以实现更好的性能。此外,表面场的概念不仅适用于天线,还适用于电容器和其他表面相互作用起重要作用的组件。在实际应用中,表面场可以被视为力如何作用于物体表面。当考虑一个带电的板时,表面场描述了电场线如何从表面发出以及它们如何与附近的电荷相互作用。这种理解在静电学中至关重要,因为电荷与表面之间的相互作用行为可以导致电容和放电等各种现象。此外,表面场不仅在理论研究中相关,也在现实应用中发挥作用。例如,在材料科学领域,研究人员研究表面场以了解不同材料在各种条件下的表现。材料表面的特性可以显著影响其整体性能,特别是在涂层、电子学和纳米技术中。通过操纵表面场,科学家可以增强附着力、减少摩擦或改善导电性,从而在技术上提出创新解决方案。表面场的重要性还扩展到环境科学。在研究污染物与表面之间的相互作用时,理解表面场可以帮助预测污染物如何扩散以及如何减轻其影响。例如,表面场可以影响水与土壤的相互作用或化学物质如何附着在表面上,这对于制定有效的污染清理策略至关重要。总之,表面场的概念是多方面的,并在众多科学学科中发挥着至关重要的作用。从工程应用到环境研究,理解表面场使得技术进步和解决复杂问题的方法有所改善。随着研究的不断发展,表面场的影响无疑会扩大,导致新的发现和创新,为整个社会带来益处。
