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[solved]-Use The Van Der Waals Equation Of State To Calculate The Pressure Of 280 Mol280 Mol Of So2so2 At 475k475k In A 520 L520 L Vessel Van Der Waals Constants Can Be Found In The Van Der Waals Con 51232

Use the van der Waals equation of state to calculate thepressureof 2.80 mol2.80 mol of SO2SO2 at 475K475K ina 5.20 L5.20 L vessel. Van der Waals constantscan be found in the van der Waals constants table. =P=atmatmUse the ideal gas equation to calculate the pressure under thesame conditions. =P=atmatmIn a 15.30 L15.30 L vessel, the pressureof 2.80 mol2.80 mol of SO2SO2 at 475 K475 K is 7.13 atm7.13 atm whencalculated using the ideal gas equationand 6.98 atm6.98 atm when calculated using thevan der Waals equation of state.Why is the percent difference in the pressures calculated usingthe two different equations greater when the gas is inthe 5.20 L5.20 L vessel compared tothe 15.30 L15.30 L vessel?P=Use the ideal gas equation to calculate the pressure under thesame conditions.P=In a 15.30 L15.30 L vessel, the pressureof 2.80 mol2.80 mol of SO2SO2 at 475 K475 K is 7.13 atm7.13 atm whencalculated using the ideal gas equationand 6.98 atm6.98 atm when calculated using thevan der Waals equation of state.Why is the percent difference in the pressures calculated usingthe two different equations greater when the gas is inthe 5.20 L5.20 L vessel compared tothe 15.30 L15.30 L vessel?a.The molecular volume is a larger part of the total volume ofthe 5.20 L5.20 L vessel.b.The attractive forces between molecules become a greaterfactor at the higher pressure inthe 5.20 L5.20 L vessel.c.The attractive forces between molecules become less of afactor at the higher pressure inthe 5.20L5.20L vessel.d.The molecular volume is a smaller part of the total volume ofthe 5.20L5.20L vessel.

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