Raoult's law
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In chemistry, Raoult's law states that the vapor pressure of mixed liquids is dependent on the vapor pressures of the individual liquids and the molar vulgar fraction of each present in solution.
Once equilibrium has been reached,
- PTotal = P1x1 + P2x2
where P1and P2 are the vapor pressures of two liquids, and x1 and x2 are their molar fractions in solution.
This law is strictly valid only under the assumption that the bonding between the two liquids is equal to the bonding within the liquids. Therefore, comparing actual measured vapor pressures to predicted values from Raoult's law allows information about the relative strength of bonding between liquids to be obtained. If the measured value of vapor pressure is less than the predicted value, fewer molecules have left the solution than expected. This is put down to the strength of bonding between the liquids being greater than the bonding within the individual liquids, so less molecules have enough energy to leave the solution. Conversely, if the vapor pressure is greater than the predicted value more molecules have left the solution than expected, due to the bonding between the liquids being less strong than the bonding within each.
See also: Henry's lawja:ラウールの法則
pl:Prawo Raoulta