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Use the van der Waals equation to calculate the pressure, in atm, of 47.20 mol of hydrogen at 487 °C in a 3.52 L container. Values of van der Waals Constants for Some Common Gases atm L2 Gas L mol mol? He H2 N2 02 Cl2 CO2 CH 0.034 0.244 1.39 1.36 6.49 3.59 2.25 0.0237 0.0266 0.0391 0.0318 0.0562 0.0427 0.0428 Answer:
A) Use the van der Waals equation to calculate the pressure, in atm, of 35.62 mol of hydrogen at 91 o C in a 3.00 L container. B) Three bulbs are connected by tubing, and the tubing is evacuated. The volume of the tubing is 39.0 mL.
The pressure predicted by the van der Waals equation is 21.4 bar. Answer link. Related questions. Question ...
Well, it depends on what equation of state you WANT to use. The easiest one to use for REAL gases is the van der Waals equation of state (vdW EOS): P = (RT)/(barV - b) - a/(barV^2) where P,R, and T are known from the ideal gas law, barV -= V/n is the molar volume of the vdW gas, and a and b are van der Waals constants accounting for the attractive intermolecular forces, and the excluded volume ...
Using van der Waals equation, find the constant ′ a ′ (in a t m L 2 m o l − 2) when two moles of a gas confined in 4 L flask exerts a pressure of 11.0 atmospheres at a temperature of 300 K. The value of b is 0.05 L m o l − 1. (R = 0.082 a t m L / K m o l) (as nearest integer)
Using van der Waals' equation, find the constant a (in a t m L 2 m o l − 2) when two moles of a gas confined in 4 L flask exerts a pressure of 11.0 atmospheres at a temperature of 300 K. The value of b is 0.05 L m o l − 1. (R = 0.082 a t m L / K m o l)
Question: Use the van der Waals equation of state to calculate the pressure P of 2.80 mol of Xe at 499 K in a 4.90 L vessel. Use this list of van der Waals constants. P= atm Use the ideal gas equation to calculate the pressure P under the same conditions. P atm
Use the van der Waals equation of state to calculate the pressure of 3.30 mol of HI at 475 K in a 6.00 L vessel. Van der Waals constants can be found in the van der Waals constants table. P Use the ideal gas equation to calculate the pressure under the same conditions.
The van der Waals equation of state was designed (by Dutch physicist Johannes van der Waals) to predict the relationship between pressure p, volume V and temperature T for gases better than the Ideal Gas Law does: (p + a V 2 n 2 ) (V − nb) = n RT The van der Waals equation of state. R stands for the gas constant and n for moles of gas.
Calculate from the Van der Waals equation, the temperature at which 192 g of S O 2 would occupy a volume of 6 d m 3 at 15 a t m pressure [ a = 5.68 a t m L 2 m o l − 2 , b = 0.06 L m o l − 1 ] View Solution