Question #5981b

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Question #5981b

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Answer 1 · 2016-08-30T00:01:10

Here's why that happens.

Explanation:

Carbon tetrachloride, ${CCl}_{4}$ $"CCl"_4$ , is a nonpolar molecule because of its molecular geometry.

In order for a molecule to be polar, it must have a net dipole moment. In the case of carbon tetrachloride, that net dipole moment is equal to zero.

Here's why that is the case.

The $C - Cl$ $"C" -"Cl"$ bond is indeed quite polar. Chlorine is more electronegative than carbon, which means that it will attract the bonding electrons more.

Consequently, a partial negative charge, $δ^{-}$ $delta^(-)$ , will appear on the chlorine atom and a partial positive charge, $δ^{+}$ $delta^(+)$ , will appear on the carbon atom.

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A bond dipole moment will thus appear for each of the four $C - Cl$ $"C"-"Cl"$ bonds that exist in a molecule of carbon tetrachloride. Because these four bonds are identical, theese dipole moments will also be identical in magnitude.

Now, carbon tetrachloride has a tetrahedral molecular geometry. This means that the resultant of any three $C - Cl$ $"C"-"Cl"$ bonds will always

be equal in magnitude

have an opposite direction

with the fourth. In other words, no net dipole moment will exist because the four bond dipole moments that arise from the polar $C - Cl$ $"C"-"Cl"$ bonds will cancel each other out.

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Question #5981b

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