n this week's experiment you will determine the molar mass of carbon dioxide by measuring the mass of an Erlenmeyer flask full of the gas. The following calculations are intended to familiarize you with the general procedure:

The mass of an empty Erlenmeyer flask and stopper was determined to be 43.59 grams. When filled with distilled water, the mass was 291.1 grams. The atmospheric pressure was measured to be 0.9916 atm, the room temperature was 19.00^oC. At this temperature, the vapor pressure of water is 16.50 torr -- but assume a 50% relative humidity as outlined in the procedure for this experiment.

What is the number of moles of air in the flask?

Moles of air in the flask = mol

If the average molar mass of the gases present in air is 28.960 g mol^-1, what is the mass of air in the flask?

Mass of air in the flask = grams

What would be the mass of carbon dioxide in the flask?

Mass of carbon dioxide = grams

What would be the mass of the flask (and stopper) when filled with carbon dioxide gas? In this case the CO₂ will be saturated with water vapor so assume 100% humidity as outlined in the experiment.

Mass of flask and stopper filled with CO₂ gas = grams

The mass of a flask with its rubber stopper was 104.6164 g when placed on an analytical balance. A piece of dry ice was placed inside the flask and allowed to sublime. The flask, rubber stopper, and carbon dioxide gas was placed on the same balance and obtained a mass of 104.8959 g. What was the mass of the piece of dry ice? Convert this mass of dry ice (carbon dioxide) into moles of carbon dioxide. The volume of the flask was found to be 0.139 L. Calculate the molar volume using the moles determined in part 2b. (molar volume = L/moles of carbon dioxide)

Data and Observations Mass of foil and flask filled with air125799g 2. Temperature of dry air in flask 21半 3. Barometric pressure s L4mm Hg (torr)0.ogon atm 4. Density of dry air at experimental temperature and pressure998gL ( g/mL 5. Mass of foil and flask filleld with CO2, after first twenty minutes25 940g 6, Mass of foil and flask filled with CO2, after secondfifteen minutesーーーーーーーーーーーーg 7, Mass of foil and flask filled with CO2, after additional five min (if needed) g 8. Temperature of CO2 in flask 22. 9. Mass of flask filled with water 404 g(with foil) 10. Temperature of waterC 11. Density of water at above temperature g/mL Calculations and Analysis The volume of the flask is equal to the volume of water in the flask. This volume is calculated from the mass and the density of the water. The mass of the water is the difference between the mass (lask+ foil water) and the mass (empty flask toil However, since the mass of the water is much larger than the mass of air displaced by the water the mass of water can be approximated as the difference between the mass (flask + foil+ water) (#9 on Data Sheet) and the mass (nask + foil +ar) (#1 on Data Sheet). The density of water at different temperatures is tabulated above The mass of dry air in the flask is calculated from the volume of the flask and the density of dry air at the recorded temperature and pressure. The density of dry air at different combinations of temperature and pressure is tabulated above. . The mass of the empty flask is equal to the difference between the mass (flask folil arn) (#1 on Data Sheet) and the calculated mass of dry air. The mass of carbon dioxide in the flask is determined by subtracting the mass of the empty flask from the largest value of mass rask +fo.carbon doode) (the largest value of #6 or #7 on the Data Sheet) .