In a sealed 250 mL flask, 0.0403 g of liquid water is in equilibrium with its...
In a sealed 250 mL flask, 0.0403 g of liquid water is in equilibrium with its vapor at 70°C. Calculate the percentage of the total mass of water that is in the vapor phase.
Water data: ρ = 1.00 g mL–1; p*(70°C) = 0.308 atm
Homework Answers
Volume of flask = 250 mL = 0.250 L
volume of vapor = volume of flask = 0.250 L
vapor pressure of water = 0.308 atm
temperature of system = 70 oC = 343 K
moles of water in vapor = (pressure * volume) / (R * temperature)
where R = gas constant = 0.0821 L-atm/mol-K
moles of water in vapor = [(0.308 atm) * (0.250 L)] / [(0.0821 L-atm/mol-K) * (343 K)
moles of water in vapor = 2.73 x 10-3 mol
mass of water in vapor = (moles of water in vapor) * (molar mass of water)
mass of water in vapor = (2.73 x 10-3 mol) * (18.0 g/mol)
mass of water in vapor = 0.0493 g
Total mass = mass of water in vapor + mass of water in liquid
Total mass = (0.0493 g) + (0.0403 g)
Total mass = 0.0896 g
percentage of water in vapor phase = (mass of water in vapor / total mass) * 100
percentage of water in vapor phase = (0.0493 g / 0.0896 g) * 100
percentage of water in vapor phase = 55.0 %
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