At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 13.5 g H2 at 20.0°C in a 1.00 L container assuming in Part 1 non-ideal behavior and in Part 2 ideal behavior. a. Use the van der Waals equation and data in the hint to calculate the pressure exerted. atm b. Now, calculate the pressure exerted, assuming that the gas behaves as an ideal gas. atm
At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 13.5 g H2 at 20.0°C in a 1.00 L container assuming in Part 1 non-ideal behavior and in Part 2 ideal behavior. a. Use the van der Waals equation and data in the hint to calculate the pressure exerted. atm b. Now, calculate the pressure exerted, assuming that the gas behaves as an ideal gas. atm
Chemistry & Chemical Reactivity
10th Edition
ISBN:9781337399074
Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Chapter10: Gases And Their Properties
Section: Chapter Questions
Problem 53PS: In the text, it is stated that the pressure of 4.00 mol of Cl2 in a 4.00-L tank at 100.0 C should be...
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At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 13.5 g H2 at 20.0°C in a 1.00 L container assuming in Part 1 non-ideal behavior and in Part 2 ideal behavior.
a. Use the van der Waals equation and data in the hint to calculate the pressure exerted.
atm
b. Now, calculate the pressure exerted, assuming that the gas behaves as an ideal gas.
atm
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