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According to the ideal gas law, a 1.075 mol sample of xenon gas in a 1.270 L container at 270.1 K should exert a pressure of 18.76 atm. What is the percent difference between the pressure calculated using the van der Waals' equation and the ideal pressure? For Xe gas, a = 4.194 L2atm/mol2 and b= 5.105x102 L/mol. |Pideal - Pvan der Waals Percent difference = x 100 Pdeal+Pean der Waals 2

According to the ideal gas law, a 1.075 mol sample of xenon gas in a 1.270 L container at 270.1 K should exert a pressure of 18.76 atm. What is the percent difference between the pressure calculated using the van der Waals' equation and the ideal pressure? For Xe gas, a = 4.194 L2atm/mol2 and b= 5.105x102 L/mol. |Pideal - Pvan der Waals Percent difference = x 100 Pdeal+Pean der Waals 2

Chemistry
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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According to the ideal gas law, a 1.075 mol sample of xenon gas in a 1.270 L container at 270.1 K should exert a pressure of 18.76 atm. What is the percent difference between the pressure calculated using the van der Waals' equation and the ideal pressure? For Xe gas, a = 4.194 L-atm/mol and b= 5.105x102 L/mol. |Pideal - Pvan der Waals Percent difference x 100 Pideel+Pean der Waals 2
Transcribed Image Text:According to the ideal gas law, a 1.075 mol sample of xenon gas in a 1.270 L container at 270.1 K should exert a pressure of 18.76 atm. What is the percent difference between the pressure calculated using the van der Waals' equation and the ideal pressure? For Xe gas, a = 4.194 L-atm/mol and b= 5.105x102 L/mol. |Pideal - Pvan der Waals Percent difference x 100 Pideel+Pean der Waals 2
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