Question
Which statement explains the relationship between the temperature and vapor pressure of a liquid?
(1 point)
The higher the temperature, the more molecules will vaporize, resulting in a lower vapor pressure.
The higher the temperature, the more molecules will vaporize, resulting in a greater vapor pressure.
The higher the temperature, the less molecules will vaporize, resulting in a greater vapor pressure.
The higher the temperature, the less molecules will vaporize, resulting in a lower vapor pressure.
(1 point)
The higher the temperature, the more molecules will vaporize, resulting in a lower vapor pressure.
The higher the temperature, the more molecules will vaporize, resulting in a greater vapor pressure.
The higher the temperature, the less molecules will vaporize, resulting in a greater vapor pressure.
The higher the temperature, the less molecules will vaporize, resulting in a lower vapor pressure.
Answers
GPT-4o mini
The correct statement is: **The higher the temperature, the more molecules will vaporize, resulting in a greater vapor pressure.**
As the temperature of a liquid increases, more molecules have enough energy to overcome intermolecular forces and enter the vapor phase, leading to an increase in vapor pressure.
As the temperature of a liquid increases, more molecules have enough energy to overcome intermolecular forces and enter the vapor phase, leading to an increase in vapor pressure.
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