Intermolecular Forces

Concepts and Trends

Physical Properties

Identify and Compare

100

What is the weakest type of intermolecular force found in all molecules?

London-Dispersion Forces

100

Stronger intermolecular forces generally result in a higher _________________.

Boiling point

100

What is the main IMF in CO₂?

London Dispersion

200

Why do stronger intermolecular forces generally result in a higher boiling point?

Stronger IMFs require more energy to separate molecules, so the boiling point increases.

200

Why does water have a higher boiling point than H₂S?

Water forms hydrogen bonds (stronger bonds); H₂S cannot

200

What IMF's does H₂O have?

Mainly dipole-dipole = water molecule is polar

Hydrogen bonding with other molecules

London Dispersion Forces = temporary attractions from movement of electrons

300

Rank the intermolecular forces in order from weakest to strongest.

Dispersion Forces -> Dipole-Dipole Forces -> Hydrogen Bonding -> Ion-Dipole Forces -> Ionic Bonding

300

Why does a nonpolar substance (eg. oil) not dissolve in water?

Because non-polar molecules cannot form IMFs with polar molecules ("like dissolves like")

300

Which IMF is present in HF that explains its high boiling point?

Hydrogen Bonding

400

Why are hydrogen bonds stronger than regular dipole-dipole forces?

Hydrogen bonds involve very electronegative atoms (N, O, F) creating stronger partial charges.

400

How does molecular size affect the boiling point in a non-polar molecule?

Larger molecules = more electrons = stronger dispersion forces = higher boiling point

400

Rank the intermolecular forces in these molecules from weakest to strongest: CO₂, HBr, H₂O

(weakest) CO2, HBr, H2O (strongest)

500

Predict which IMF dominates in each I_2,HF, and CH₃Cl, and explain how the molecular structure determines this.

I₂= London Dispersion

HF = Hydrogen Bonding

CH₃Cl = Dipole-Dipole

500

Which has a higher boiling point? CH₄ or C₃H₈? Why?

C₃H₈ because it has a larger mass = stronger London Dispersion = higher boiling point.

500

Identify all the IMFs in CH3OH and label each one with the bond to which it belongs.

Between C and H's and C and O -> Dipole-Dipole

Hydrogen with nearby O from another molecule -> hydrogen bonding

London dispersion -> all over = from temporary fluctuations in electron distribution.