1.
The migration of charged colloidal particles or molecules through a solution under the influence of an applied electric field usually provided by immersed electrodes.
电泳在通常由浸没电极提供的电场的作用下,带电胶粒或分子在流体中的迁移
2.
In an aerosol containing equal numbers of charged particles of both signs, the diffusive encounters for oppositely charged particles are more effective than for uncharged particles.
若气溶胶中含有等量正负带电粒子,那么正负带电粒子间的扩散碰撞比非带电粒子更容易实现。
3.
On the Electrostatic Interaction between Two Nonuniformly Charged Colloidal Particles;
表面不均匀带电的胶体颗粒的静电作用问题
4.
Similarly charged colloidal particles cannot come close enough together to agglomerate into larger particles.
带相同电荷的胶粒不能紧密靠近,它们不能聚集成较大的颗粒。
5.
Study on the Interaction between Electric Double Layers of Colloid Particles with Iteration Method in Functional Theory;
泛函数理论精确研究带电胶体粒子双电层间的相互作用
6.
neutral particle
中性粒子,不带电粒子
7.
instrumental charged-particle activation analysis
仪器带电粒子活化分析
8.
instantaneous orbit of charged particle
带电粒子的瞬时轨道
9.
charged particle scintillation spectrometer
带电粒子闪烁能谱仪
10.
charged particle energy analyzer
带电粒子能量分析仪
11.
sound tape movie camera
全胶带录音电影摄影机
12.
rubber tapped spilt brush
带胶皮头分裂式电刷
13.
When two similar colloidal particles with similar primary change approach each other, their diffuse layers begin to interact.
当带有相同基本电荷的两种相同胶粒彼此接近时,其扩散层相互影响。
14.
an electrically charged particle; an atom that has lost one or more of its electrons.
带电颗粒,失去一个或多个电子的原子。
15.
Ion is electrically charged particle formed by losing or gaining electrons.
离子是获得或失去电子后带电的微粒。
16.
charged particles energy loss by ionization
带电粒子的电离能量损失
17.
A Study of Charged Particles in Electric and Magnetic Field;
带电粒子在电磁场中运动状态的讨论
18.
Hamiltonian Functions of Charged Particles in Electric Field;
带电粒子在电场中运动的哈密顿函数