1) molecular flow
分子流
1.
Analyzes the existence of the filled gas flow effect on the large-aperture difference vacuum system, which is in form of molecular flow.
分析了在分子流态下差分真空系统中充气气流效应的存在,通过引入了差分比,定量计算出充气气流效应对差分真空系统的影响。
2) stream of water molecule
水分子流
1.
The theory that extra high voltage stream of water molecule from 1700kg/cm~2 to 3400 kg/cm~2and impulsive force of water numerator in pressure condit.
并提出1700kg/cm2至3400 kg/cm2超高压力水分子流,水分子在压力环境中的冲力,破碎切割微生物细胞至纳米级的理论,在此环境中的超高压力、机械剪切力、超声波起了协助破碎的作用。
3) molecular effusion
分子泻流
4) molecule electric current
分子电流
1.
The research on the features of the distribution over magnetic field in it can improve the macro-application of blocks in electrical machinery,and offer a micro-theoretical base for molecule electric current,and play an important role in a further study on the magnetism of magnetic medium.
在微观上,可以给分子电流提供理论基础,对进一步研究磁介质的磁性特征也有重要参考价值。
2.
Magnetism of the bar magnet is produced by the surface molecule electric current.
磁块的磁性,是由磁块的表面分子电流产生的。
5) Molecular current
分子电流
1.
A mechanism of molecular current in medium interacted with light;
光与介质作用下的一种分子电流机制
2.
This paper introduces the application of Ampere s molecular current hypothesis in magnetic force doing work on current-carrying coil and in the geometrically explain Stockers formula.
本文介绍了安培分子电流思想在磁力对载流线圈做功方面的应用和对斯托克斯公式的几何解释 。
3.
An analysis was carried out on the basis of electromagnetism,using molecular current model,and by mathematic(deduction.
运用电磁学基础知识,引用分子电流模型,通过数学推导,分析得出水系统中微观粒子因受到电磁感应影响,可引发电子云分布改变。
6) molecular rectification
分子整流
1.
Since the research in the field of molecular rectification has undergone rapid development in recent years,an introduction to the manufacturing technique specialized in molecular rectifying devices is presented,and a review of the new theoretic and experimental achievements made in molecular rectification is given.
分子整流方面的研究在近几年取得了迅速发展。
2.
The molecular rectification has received great progress in the latest 30 years,both in experimental measurement and theoretical simulation.
分子电子器件的思想始于20世纪70年代,分子整流的研究在30多年中取得了显著进展,包括分子结构设计、实验测量以及理论模拟。
补充资料:分子流
分子式:
CAS号:
性质:又称努特森流。高真空下,气体平均自由程变长,努特森数Kn超过0.3时气体的流动状态与一般流动完全不同,由分子相互碰撞引起的黏度变得毫无作用,而分子与器壁的碰撞则占主导地位。
CAS号:
性质:又称努特森流。高真空下,气体平均自由程变长,努特森数Kn超过0.3时气体的流动状态与一般流动完全不同,由分子相互碰撞引起的黏度变得毫无作用,而分子与器壁的碰撞则占主导地位。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条