百度试题 结果1 题目 London dispersion forces do not always contribute to the molecular interactions because some molecules are rigid and not polarizable to some extent. 相关知识点: 试题来源: 解析 错误 反馈 收藏
网络释义 1. 伦敦分散力 吸附作用的形成,主要来自伦敦分散力(london dispersion forces),这也是另一种凡得瓦力(van der waals force)的表现形 … www.360doc.com|基于29个网页
London dispersion forces (LDF, also known as dispersion forces, London forces, instantaneous dipole–induced dipole forces, or loosely van der Waals forces) are a type of force acting between atoms and molecules.[1] They are part of the van der Waals forces. The LDF is named after the ...
(redirected fromLondon dispersion force) Medical Encyclopedia van der Waals force n. A weak, short-range attractive force between atoms or molecules caused by their dipole moments, often arising in otherwise nonpolar atoms or molecules from a temporary shift of orbital electrons to one side of one...
色散力 (dispersion force)离子-偶极作用 (ion-dipole)该教材中将前三个统称为范德华力,并将氢键...
1 Dispersion Forces Van der Waals or London dispersion forces are the universal forces responsible for attractive interactions between nonpolar molecules. The occurrence of these short-range interactions is due to the fact that any atom will, at any given instant, be likely to possess a fini...
Understand Van der Waals forces with a focus on London dispersion forces, know the importance of these forces, their impact on molecular...
[fr. Fritz London (1930)n.Identifies weak intermolecular forces based on transient dipole interactions. One ofvan der Waals forces, also called dispersion forces, but distinct from dipole–dipole forces. These forces arise from momentary fluctuations in the electron charge cloud density in a atom ...
Identifies weak intermolecular forces based on transient dipole interactions. One of van der Waals forces , also called dispersion forces, but distinct from dipole鈥揹ipole forces. These forces arise from momentary fluctuations in the electron charge cloud density in a atom or molecule. Changes in ...
London dispersion forces are the weakest component of Van der Waals interactions. They arise from attractions between instantaneously induced dipoles on neighbouring atoms. Their relative weakness, in particular for light atoms, such as hydrogen, has led