Chemistry, asked by kuzrubacker, 10 months ago

The order of resultant dipole moment in CO2,NF3 & CHCl3.Explain briefly

Answers

Answered by jagdeep81
1

Answer:

Dipole moment plays very important role in understanding the nature of chemical bond. A

few applications are given below:

(a) Distinction between, polar and non-polar molecules. The measurement of dipole moment can

help us to distinguish between polar and non-polar molecules. Non-polar molecules have zero dipole

moment while polar molecules have some value of dipole moment.

(b) Degree of polarity in a molecule. Dipole moment measurement also gives an idea about the

degree of polarity specially in a diatomic molecule. The greater the dipole moment, the greater is

the polarity in such a molecule.

(c) Shape of molecules. In case of molecules containing more than two atoms, the dipole moment

not only depends upon the individual dipole moments of the bonds but also on the arrangement of

bonds.

.Thus, dipole moment is used to find the shapes of molecules.

(d) Ionic character in a molecule. Knowing the electronegativities of atoms involved in a molecule, it

is possible to predict the nature of chemical bond formed. If the difference in electronegativities of

two atoms is large, the bond will be highly polar. As an extreme case, when the electron is

completely transferred from one atom to another, an ionic bond is formed. Therefore, the ionic

bond is regarded as an extreme case of covalent bond. The greater the difference in

electronegativities of the bonded atoms, the higher is the ionic character

(e) Distinguish between cis- and trans- isomers. Dipole moment measurements help to distinguish

between cis- and trans- isomers because ds-isomer has usually higher dipole moment than trans

isomer.

(f) Distinguish between ortho, meta and para isomers. Dipole moment measurements help to

distinguish between o-, m- and p-isomers because the dipole moment of p-isomer is zero and that of

o-isomers is more than that of m-isomer.

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