Use the following information to answer the question 21. In an experiment to determine the molar mass of an unknown compound, the compound was vaporized and sealed in a pre-weighed flask. Then, the mass of the vapour and the flask were determined. A student collected the following data. Mass of empty flask (g) Mass of flask and vapour (g) Volume of flask (mL) Temperature (°C) Pressure (kPa) 21. Using the experiment and the data supplied, complete the following. a. Calculate the number of moles of gas in the flask. PV=ART m= 102* 150 8.314 * 297.15 183.48 183.69 150.00 24.0 +273.15K= 297.15k 102 n = 6.19 moles na 6.2 moles b. Calculate the experimental molar mass of the compound, □CH, ) H₂(g) 0,(g) CO₂(g) PV RT 15300 2470.5051 h = m M n = 62 mole m = Mass of flask and vapour - Mass of empty flask. = 183.69-183-48 = 0.21 g. M= T = 297.15 K 0:31 = 0.03 g/mol e. Based on your answer in part b., select the most likely formula of the gas from the following:

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Chapter1: Chemical Foundations
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Use the following information to answer the question 21.
In an experiment to determine the molar mass of an unknown compound, the compound was
vaporized and sealed in a pre-weighed flask. Then, the mass of the vapour and the flask were
determined. A student collected the following data.
Mass of empty flask (g)
Mass of flask and vapour (g)
Volume of flask (mL)
Temperature (°C)
Pressure (kPa)
21. Using the experiment and the data supplied, complete the following.
a. Calculate the number of moles of gas in the flask.
PV=nRT
m= 102* 150
8.314 x 297.15
M=
n = 6.19 moles
na 6.2 moles
b. Calculate the experimental molar mass of the compound.
183.48
183.69
150.00
24.0 +273.15K= 297.15k
102
□ CH₂
h = m
M
n = 62 mole
m = Mass of flask and vapour - Mass of empty flask.
=
183.69-183-48 = 0.21 g.
)
H₂(g)
0,(g)
CO₂(g)
PV
RT
15300
2470.5051
= 0.03 g/mol
e. Based on your answer in part b., select the most likely formula of the gas from
the following:
T = 297.15 K
Transcribed Image Text:Use the following information to answer the question 21. In an experiment to determine the molar mass of an unknown compound, the compound was vaporized and sealed in a pre-weighed flask. Then, the mass of the vapour and the flask were determined. A student collected the following data. Mass of empty flask (g) Mass of flask and vapour (g) Volume of flask (mL) Temperature (°C) Pressure (kPa) 21. Using the experiment and the data supplied, complete the following. a. Calculate the number of moles of gas in the flask. PV=nRT m= 102* 150 8.314 x 297.15 M= n = 6.19 moles na 6.2 moles b. Calculate the experimental molar mass of the compound. 183.48 183.69 150.00 24.0 +273.15K= 297.15k 102 □ CH₂ h = m M n = 62 mole m = Mass of flask and vapour - Mass of empty flask. = 183.69-183-48 = 0.21 g. ) H₂(g) 0,(g) CO₂(g) PV RT 15300 2470.5051 = 0.03 g/mol e. Based on your answer in part b., select the most likely formula of the gas from the following: T = 297.15 K
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