uniform external electric fieldpotential of an electric fieldstrength of an electric fieldinteraction forcestwo conducting spherical dropsSummary This chapter contains sections titled: Potential of an Electric
If the electric field in a region of space is uniform, then you can infer that the electric potential isincreasing or decreasing unifomly in that region. F or example, if the electric feldis 10 V/minregion of space then you can infer that the potential di fference between two points 1 ...
2.1 Types of electromagnetic field The electromagnetic field (EMF) is a type of physical field where external forces generated by electrically-charged objects are present. The EMF travels through space in the form of electromagnetic waves (radiation), which consist of two coupled elements: magnetic ...
A fluid polarized by an electrostatic field E may exhibit reflection effects linear in E that cannot be observed in either transmission or light scattering. Fresnel reflection amplitudes are derived by means of a multipole theory, to the order of electric quadrupoles and magnetic dipoles, for ...
(A) The normal electric field; (B) the square wave electric field; and (C) the final pulsed electric field. The polymer jet in the pulsed electric field had the same kind of charge, which means the direction of the electric field force is constant, but the electric field strength ...
non uniform magnetic field 不均匀磁场 相似单词 uniform n.[C,U] 制服,校服 adj. 一致的,统一的,一律的 electric a. 1. 电的;用电的;电动的;发电的;带电的;导电的 2. 充满刺激的;令人激动的;令人震惊的 n. 1. 电 2. 电动产品;电气车辆 3. 带电体 Field n. 域 vt. 使上场 vi. 担任场...
(iii) Closer are the electric lines of forces , stronger is the field , and further apart lines of force ,weaker is electric field (iv) The electric lines of forces are parallel for a uniform electric field A(i),(ii) B(ii),(iii) C(ii),(iv) DallSubmit ...
A uniform electric field pointing in positive x-direction exists in a region. Let A be the origin, B be the point on the x-axis at x=+1cm and C be the point
美 英 un.均匀电场 英汉 un. 1. 均匀电场 释义: 全部,均匀电场
5 A partil e of mass m and charg e g is in a uniform electric field of strength E. Th e partil e has acceleration a du e to th e field.(a) Show that$$ \frac { q } { m } = \frac { a } { E } . $$[2](b) Th e particl e has a charg e of 4 e wher e e ...