How does molecular shape affect polarity?

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How does molecular shape affect polarity?

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Answer 1 · 2016-04-07T06:37:58

The polarity of a molecule depends on the geometric sum of the individual dipoles.

Explanation:

Let's consider two molecules: $CX_4 ("X =Cl")$ , and $CHCl_3$ .

Now carbon tetrachloride is a non-polar molecule; there is no charge separation, even though the $C-Cl$ bonds have some degree of polarity, i.e. some charge separation in the $C-Cl$ bonds. On the other hand $CHCl_3$ , chloroform, is reasonably polar. Why?

Molecular polarity is the vector sum of the individual $C-Cl$ bond dipoles. Because carbon tetrachloride has a very symmetric tetrahedral geometry, the bond dipoles vector sum to zero. When we perform the same operation for chloroform, the $C-Cl$ and (weak) $C-H$ dipoles do not sum to zero, and there is a resultant vector, and a resultant molecular polarity.

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How does molecular shape affect polarity?

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