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Determining Polarity of Molecules: Ammonia and Chloroform, Exams of Chemistry

Western Colorado University(WCU)Chemistry

The steps to determine if a molecule is polar by calculating its lewis structure, using vsepr theory to predict its shape, identifying polar bonds, and calculating the resultant dipole. The example molecules are ammonia (nh3) and chloroform (ch2cl2).

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Determining whether a molecule is polar

1. Determine the Lewis Structure of the molecule.

2. Use VSEPR to predict the shape of the molecule.

3. Find polar bonds

a. Determine the actual or relative the electronegativities of each atom

involved in the bond.

b. Determine in which direction the bond is polarized.

Remember the more electronegative element draws the shared electrons

closer to itself; it has a stronger attraction for the electrons.

By placing the electrons closer to the more electronegative element there

is more negative charge at one end of the bond. The bond is polarized,

which means that it is slightly positive at one end and slightly

negative at the other end.

These statements mean the same thing

•It is a polar bond

•The bond has a dipole or dipole moment.

•The bond is polarized.

4. Determine the dipole that results when all the dipoles in the molecule are

added together.

Do ammonia, NH3

1. Determine Lewis Structure

H

N

••

H

2. Use VESPR to determine shape

N

H

HH

••

ammonia is pyramidal

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188

Determining whether a molecule is polar

Determine the Lewis Structure of the molecule.
Use VSEPR to predict the shape of the molecule.
Find polar bonds a. Determine the actual or relative the electronegativities of each atom involved in the bond. b. Determine in which direction the bond is polarized. Remember the more electronegative element draws the shared electrons closer to itself; it has a stronger attraction for the electrons. By placing the electrons closer to the more electronegative element there is more negative charge at one end of the bond. The bond is polarized, which means that it is slightly positive at one end and slightly negative at the other end. These statements mean the same thing •It is a polar bond •The bond has a dipole or dipole moment. •The bond is polarized.
Determine the dipole that results when all the dipoles in the molecule are added together.

Determining Polarity of Molecules: Ammonia and Chloroform, Exams of Chemistry

Related documents

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Download Determining Polarity of Molecules: Ammonia and Chloroform and more Exams Chemistry in PDF only on Docsity!

Determining whether a molecule is polar

Do ammonia, NH 3

1. Determine Lewis Structure

H

N H

H

2. Use VESPR to determine shape

3. Electronegativity of N = 3.0, H = 2.1, so electrons in each bond are

closer to the N than the H.

4. Determine the resultant dipole.

Ammonia is polar, the N is the negative end, and the middle of the H’s

is the positive end.

How about CH 2 Cl 2

1. Determine Lewis Structure

C H

H

H

H

2. Use VSEPR to determine shape

3. Determine the bond polarity

4. The dipoles cancel out. No dipole moment.