*Stoichiometry

Ethylene oxide, C₂H₄O, may be made by passing ethylene, C₂H₄, and air over a catalyst at 2500C. When the resulting mixture is cooled and passed through water, the ethylene oxide combines with water to form ethylene glycol (CH₂OH)₂. In one experiment a 5% by volume ethylene – 95% by volume air mixture is passed over the catalyst. Some of the ethylene does not react, some forms ethylene oxide, and some is oxidized completely to form CO₂ and water vapor. The entire gas mixture enters directly into an absorption system where it is contacted by water. The gases leaving the absorber contain all the N₂, unreacted C₂H₄, unused O₂, and the CO2 formed. They are saturated with water vapor at a partial pressure of 15.4 mm Hg. The total pressure is 730 mm Hg. An Orsat Analysis of the gases leaving the absorber shows 1.075% C₂H₄, 80.7 % N₂ ad 4.30% CO₂. One mole of liquid water is fed to the absorber per 100 moles of the gas fed to the catalyst chamber. What is the composition (%mole) of the ethylene glycol-water product formed?