Question #a036b

1 Answer
Stefan V.
Feb 1, 2015

Methanol has the larger vapor pressure at room temperature because it has a lower molecular weight when compared with ethanol, which implies it has weaker intermolecular forces.

Both methanol (CH3OH) and ethanol (CH3CH2OH) have the capacity to form hydrogen bonds because of the -OH group, so from this standpoint there is no difference between the two.

However, the difference comes when the weaker London dispersion forces come into play. Ethanol has a molecular weight of 46 amu, while methanol has a molecular weight of 32 amu.

This difference in molecular weight means stronger London dispersion forces in favor of the heavier molecule - ethanol - which in turn translates into a lower vapor pressure.

As a result, the molecule that exhibits weaker intermolecular forces - methanol - will have the higher vapor pressure.

Ethanol's vapor pressure at 20C is 5.95 kPa, while methanol's vapor pressure at the same temperature is 12.8 kPa.

Check out this answer on the topic of vapor pressure and intermolecular forces:

http://socratic.org/questions/how-does-vapor-pressure-related-to-intermolecular-forces

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