The interrelation of IMFA, vapor pressure, and boiling point is related to the ability of a liquid to transition from a liquid to a gas. The Intermolecular Forces of Attraction (IMFA) between molecules of a liquid will affect the vapor pressure of the liquid, which is the pressure at which molecules transition from a liquid to a gas. The higher the IMFA, the higher the vapor pressure and the higher the boiling point. The boiling point of a liquid is the temperature at which the vapor pressure of the liquid is equal to the atmospheric pressure, and the liquid transitions to a gas. Therefore, the higher the IMFA of a liquid, the higher the vapor pressure, and the higher the boiling point.
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Answer:
The interrelation of IMFA, vapor pressure, and boiling point is related to the ability of a liquid to transition from a liquid to a gas. The Intermolecular Forces of Attraction (IMFA) between molecules of a liquid will affect the vapor pressure of the liquid, which is the pressure at which molecules transition from a liquid to a gas. The higher the IMFA, the higher the vapor pressure and the higher the boiling point. The boiling point of a liquid is the temperature at which the vapor pressure of the liquid is equal to the atmospheric pressure, and the liquid transitions to a gas. Therefore, the higher the IMFA of a liquid, the higher the vapor pressure, and the higher the boiling point.