The vaporization of methanol CH:OH(I) = CH3OH(g) is an endothermic process in which AHvap = 37.4 kJ/mol and in which entropy increases, ASvap = 111 J/mol·K. Calculate the boiling point of methanol (in °C) on a mountaintop where the atmospheric pressure is 385 torr. (Assume AH° and AS° do not change appreciably with temperature). 52,96 °C 1 2 3 6 C 7 8 9. +/- х 100 4.
The vaporization of methanol CH:OH(I) = CH3OH(g) is an endothermic process in which AHvap = 37.4 kJ/mol and in which entropy increases, ASvap = 111 J/mol·K. Calculate the boiling point of methanol (in °C) on a mountaintop where the atmospheric pressure is 385 torr. (Assume AH° and AS° do not change appreciably with temperature). 52,96 °C 1 2 3 6 C 7 8 9. +/- х 100 4.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter9: Liquids, Solids, And Materials
Section: Chapter Questions
Problem 29QRT: The vapor pressure of ethanol, C2H5OH, at 50.0 C is 233 mmHg, and its normal boiling point at 1 atm...
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Transcribed Image Text:The vaporization of methanol
CH:OH(I) = CH:OH(g)
is an endothermic process in which AHvap = 37.4 kJ/mol and in which
entropy increases, ASvap = 111 J/mol·K. Calculate the boiling point of
methanol (in °C) on a mountaintop where the atmospheric pressure is
385 torr. (Assume AH° and AS° do not change appreciably with
temperature).
52,96 °C
1
2
4
6.
C
7
8
+/-
х 100
+
LO
Transcribed Image Text:The vaporization of methanol
CH:OH(I) = CH:OH(g)
is an endothermic process in which AHvap = 37.4 kJ/mol and in which
entropy increases, ASvap = 111 J/mol·K. Calculate the boiling point of
methanol (in °C) on a mountaintop where the atmospheric pressure is
385 torr. (Assume AH° and AS° do not change appreciably with
temperature).
5161 °C
1
3
4
6.
C
7
8
9
+/-
х 100
+
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