射流感应破裂荷电是一种以静电学、两相流理论及空气动力学理论为基础的能产生超高荷质比带电液滴的新技术。
The droplet size and the charge to mass ratio are measured by developed device of particle charge to mass ratio and reagent of catching fuel droplets.
当一个带电粒子快速穿越云室时,水汽会凝结形成一串小液滴,这样便标识出了该粒子的路径;若将容器置于一个磁场中,还能知道粒子所带电荷的性质。
When a charged particle zips through the chamber, the vapour condenses into a trail of droplets showing the particle's path and, if the box is placed in a magnetic field, its electrical charge.
如能得知液滴尺寸与其带电量的关系,对于液滴粒度及其分布的测量是十分重要的。
It is important that is measured the liquid droplet size distribution, if the relation of size and charges is known.
He used various forms of high-energy radiation in order to make the droplets bear a charge.
他使用很多形式的高能辐射,为了就是使这些液滴带电。
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