1. The total molar volume of a mixture at a given T and P is given by: V = V1 x1+V2 x2+50x1 x2 The molar volumes of the pure components are V1 = 120 cm3/mol and V2 = 70 cm3/mol. Please provide the following: a) What is the molar volume (cm3/mol) of a mixture containing 3 moles of component 1 and 4 moles of component 2? b) What is the total volume (cm3) of a mixture containing 3 moles of component 1 and 4 moles of component 2? c) What would be the volume (cm3) of a mixture containing 3 moles of component 1 and 4 moles of component 2 if the solution were an ideal solution?
1. The total molar volume of a mixture at a given T and P is given by:
V = V1 x1+V2 x2+50x1 x2
The molar volumes of the pure components are V1 = 120 cm3/mol and V2 = 70 cm3/mol.
Please provide the following:
a) What is the molar volume (cm3/mol) of a mixture containing 3 moles of component 1 and 4 moles of component 2?
b) What is the total volume (cm3) of a mixture containing 3 moles of component 1 and 4 moles of component 2?
c) What would be the volume (cm3) of a mixture containing 3 moles of component 1 and 4 moles of component 2 if the solution were an ideal solution?
d) What is the excess volume (cm3) of a mixture containing 3 moles of component 1 and 4 moles of component 2?
e) Please sketch the ideal and actual molar volumes (cm3/mol) of this mixture as a function of x1, with clearly labeled axes.
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