Explain the formation of London forces.
(N/A) Atoms and nonpolar molecules are electrically symmetrical and have no dipole moment because their electronic charge cloud is symmetrically distributed.
However,a dipole may develop momentarily even in such atoms and molecules.
Suppose we have two atoms $A$ and $B$ in the close vicinity of each other.
In the initial state,there is a symmetrical distribution of the electronic charge cloud (see figure $a$).
It may so happen that momentarily,the electronic charge distribution in one of the atoms,say $A$,becomes unsymmetrical,i.e.,the charge cloud is more on one side than the other. This creates an instantaneous dipole in atom $A$.
This instantaneous dipole in atom $A$ distorts the electronic charge cloud of the neighboring atom $B$,thereby inducing a dipole in it. This is called an induced dipole.
The temporary attractive force between the instantaneous dipole and the induced dipole is known as the London dispersion force (see figures $b$ and $c$).
However,a dipole may develop momentarily even in such atoms and molecules.
Suppose we have two atoms $A$ and $B$ in the close vicinity of each other.
In the initial state,there is a symmetrical distribution of the electronic charge cloud (see figure $a$).
It may so happen that momentarily,the electronic charge distribution in one of the atoms,say $A$,becomes unsymmetrical,i.e.,the charge cloud is more on one side than the other. This creates an instantaneous dipole in atom $A$.
This instantaneous dipole in atom $A$ distorts the electronic charge cloud of the neighboring atom $B$,thereby inducing a dipole in it. This is called an induced dipole.
The temporary attractive force between the instantaneous dipole and the induced dipole is known as the London dispersion force (see figures $b$ and $c$).
Explore More
Similar Questions
Solid $PCl_5$ exists as $:$
Easy
View SolutionArrange the following forces in the increasing order of their interaction energy:
London forces,Covalent bond,Hydrogen bond,Dipole-dipole forces
London forces,Covalent bond,Hydrogen bond,Dipole-dipole forces
Medium
View SolutionDraw the structure of
$(i)$ $BeCl_2$ (Solid)
$(ii)$ $BeCl_2$ (Vapour)
$(i)$ $BeCl_2$ (Solid)
$(ii)$ $BeCl_2$ (Vapour)
Medium
View SolutionWhat are the intermolecular forces present between $H_2$ and $HCl$ molecules? Why?
Medium
View SolutionCovalent compounds have low melting points because:
Medium
View SolutionVedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo