Tags Electric Electric field Electric potential Field Potential Relation In summary: But the idea is right.In summary, the electric potential at the point (7.22 m,0) in a certain region of space is -11.054 V, given that the electric field along the x-axis is E = 1.2x - 3.06 N/C an...
Mathematically the equation will be: E=-dV/dx Here, E is the electric field, V is the electric potential and dx is the length of the path. According to this relation we can conclude that electric field and electric potential are directly proportional. Therefore, as the electric field ...
Electric potential and electric field integral relation 翻译结果2复制译文编辑译文朗读译文返回顶部 正在翻译,请等待... 翻译结果3复制译文编辑译文朗读译文返回顶部 Relationship between electric potential and electric field integral 翻译结果4复制译文编辑译文朗读译文返回顶部 ...
This chapter discusses electric potential. Electric fields are vector fields that have both magnitude and direction at every point at which the field is defined. The electrical properties of space can also be described by electric potential, which is, in some respects, a simpler and more practical...
Moller (2001), The relation between electric and redox potential: evidence from laboratory and field measurements, J. Geochem. Explor., 72(2), 115-128.Timm, F. and P. Moller (2001), The relation between electric and redox potential: evidence from laboratory and field measurements, J. ...
In summary, the conversation discusses the differences between electric potential energy, potential difference, and electric potential in layman's terms. It is explained that potential energy and potential difference are relative quantities, while electric field and electric potential are properties of a ...
美 英 un.电位差;电势差 英汉 网络释义 un. 1. 电位差 2. 电势差 例句 更多例句筛选
Application: Potential and Field Between Charged Plates. The two plates inFigure4.63are very large (infinite). The dielectric between the plates is air: (a) Calculate the electric field intensity and potential between and outside the plates. ...
Fromthedefinitionofpotential Conductors Claim Thesurfaceofaconductorisalways an equipotential surface (in fact, the entire conductor is an equipotential). Why?? If surface were not equipotential, there would be an electric field component parallel to the surface and the charges would move!!
potential[英][p?'ten?l][美][p?'t?n??l]电势 1.The Electril Field and the Potential Distrikution in the Plane of Ring for An Even Charge Ring;均匀带电圆环环平面内的电场、电势分布 2.The electric fieldpotentialand intensity of an electric disk conductor;带电圆盘导体电场的电势和场强 ...