Determine the intermolecular forces for each of the following molecules: Compound N₂ CH4 CH3CI H₂O HF CCl4 NH3 NF3 total valance electrons Lewis Structure Molecular Geometry For a molecule to be polar, it must satisfy the following two requirements: 1. The molecule must have polar bonds 2. The molecule must have a lack of symmetry, so the bond dipoles do not cancel each other. The lack of symmetry will exist if the central atom is bonded to different elements, and/or contains at least one lone pair. 1. Does the molecule contain polar bonds? yes or no? 2. Does the molecule have a lack of symmetry? yes or no? Is the molecule polar? yes or no? Dominant Intermolecular Force for Molecul

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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. Determine the intermolecular forces for each of the following molecules:
Compound
2
N₂
CH4
CH3CI
H₂O
HF
CCl4
NH3
NF3
total
valance.
electrons
Chemistry 2A Lab Handout
Intermolecular Forces
Lewis Structure
Molecular Geometry
For a molecule to be polar, it must satisfy the following two
requirements:
1. The molecule must have polar bonds
2. The molecule must have a lack of symmetry, so the bond
dipoles do not cancel each other. The lack of symmetry will
exist if the central atom is bonded to different elements,
and/or contains at least one lone pair.
1. Does the molecule
contain polar bonds?
yes or no?
2. Does the molecule
have a lack of
symmetry?
yes or no?
Page 2 of 4
Is the molecule
polar?
yes or no?
Dominant
Intermolecular
Force for Molecul
Transcribed Image Text:. Determine the intermolecular forces for each of the following molecules: Compound 2 N₂ CH4 CH3CI H₂O HF CCl4 NH3 NF3 total valance. electrons Chemistry 2A Lab Handout Intermolecular Forces Lewis Structure Molecular Geometry For a molecule to be polar, it must satisfy the following two requirements: 1. The molecule must have polar bonds 2. The molecule must have a lack of symmetry, so the bond dipoles do not cancel each other. The lack of symmetry will exist if the central atom is bonded to different elements, and/or contains at least one lone pair. 1. Does the molecule contain polar bonds? yes or no? 2. Does the molecule have a lack of symmetry? yes or no? Page 2 of 4 Is the molecule polar? yes or no? Dominant Intermolecular Force for Molecul
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