Calculate the pressure exerted in atm by 3.0 moles of ammonia when it is behaving as (a) a perfect gas in atm at 25°C in 22.414L and (b) van der Waals (VDW) gas at 100°C in 1000.0 cm3. Given van der Waals constants: a(NH3) (L2.atm/mol2) = 4.17 and b(NH3)(L/mol) = 0.037. Use 273.15 K for the temperature conversion. Pperfect gas = [A] atm PVDW = [B] atm
Calculate the pressure exerted in atm by 3.0 moles of ammonia when it is behaving as (a) a perfect gas in atm at 25°C in 22.414L and (b) van der Waals (VDW) gas at 100°C in 1000.0 cm3. Given van der Waals constants: a(NH3) (L2.atm/mol2) = 4.17 and b(NH3)(L/mol) = 0.037. Use 273.15 K for the temperature conversion. Pperfect gas = [A] atm PVDW = [B] atm
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Chapter5: The Gaseous State
Section: Chapter Questions
Problem 5.103QP: Calculate the molar volume of ethane at 1.00 atm and 0C and at 10.0 atm and 0C, using the van der...
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Calculate the pressure exerted in atm by 3.0 moles of ammonia when it is behaving as (a) a perfect gas in atm at 25°C in 22.414L and (b) van der Waals (VDW) gas at 100°C in 1000.0 cm3.
Given van der Waals constants: a(NH3) (L2.atm/mol2) = 4.17 and b(NH3)(L/mol) = 0.037. Use 273.15 K for the temperature conversion.
Pperfect gas = [A] atm
PVDW = [B] atm
3 sig. figures normal format.
Note: There is no need to add the units. The numerical values is sufficient as long as it is calculated in atm. Please also indicate the sign if it is necessary without a space from the numerical answer.
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