The SI unit of atomic polarizability is cubic metre or m^3.
Polarizability
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The SI unit of atomic polarizability is cubic metre or m^3.
The Atomic polarizability increases top to bottom i.e down the group and it decreases left to right . This trend is the same as atomic radius .
It is a measure of how easily an electron cloud is distorted by an electric field. Electron cloud will belong to atom, molecule or Ion. It is the quantitative measurement of the extent to which the electronic cloud can be polarized
Polarizability
There is a rather good article at http://www.ece.mtu.edu/faculty/wfp/articles/hp_9_twocol.pdf which I hope will be helpful to you.
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Gerald D. Mahan has written: 'Many-Particle Physics (Physics of Solids and Liquids)' 'Local density theory of polarizability' -- subject(s): Ionic crystals, Polarizability (Electricity), Solid state chemistry, Solid state physics 'Quantum mechanics in a nutshell' -- subject(s): Photon emission, Photons, Quantum theory, Scattering, Scattering (Physics)
London dispersion forces are a type of intermolecular force. They are relatively weak. They are also called induce-dipole induce-dipole interactions. * Present in non-polar molecules * Due to non-systematic electron distribution where one molecule induces a dipole on another molecule * This is an important factor in very large molecules * One factor that affects London dispersion forces is polarizability, the ease with which the electron cloud of an atom can be displaced
The question is meaningless. A chemical element cannot have "archenemies" in any meaningful way. Even figuratively (for example, one might casually, loosely, and somewhat confusingly refer to strongly oxidizing elements like fluorine and oxygen as "enemies" of metals), it doesn't apply to neon, which is exceptionally inert; even more so than most other noble gases (only helium has a lower polarizability).
hydrogen bonding exists in compounds having partially positively charged hydrogen and highly electronegative atoms bearing partial -ve charge. such intermolecular forces of attraction infleuence the physical properties like melting and boilingg points. the greater the size of atoms the greater the polarazability hence the greater the boiling points for example: the hydrides of fourth period show greater boiling point than those of third period due to ggreater size and greater polarizability.
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