A cylindrical container at 90 degrees Celsius contains two vapors, Vapor A and Vapor B, at a ratio of 2:1 respectively. Vapor A has an effusion rate of 0.876 that of Vapor B. Meanwhile, the temperature-dependence of Vapor B at a pressure of 8.0 atmospheres is given in the following table. Temperature (°C) Density (Kg/m) 16.447 16.150 10 15.861 15 15.590 20 15.325 25 15.067 30 14.820 What would be the molecular weight (in g/ mole) of Vapor A? What would be the molecular weight (in g/ mole) of Vapor B? What would be the average molecular weight of this mixture of vapors in grams per mole.

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A cylindrical container at 90 degrees Celsius
contains two vapors, Vapor A and Vapor B,
at a ratio of 2:1 respectively. Vapor A has an
effusion rate of 0.876 that of Vapor B.
Meanwhile, the temperature-dependence of
Vapor B at a pressure of 8.0 atmospheres is
given in the following table.
Temperature (°C) Density (Kg/m)
16.447
16.150
10
15.861
15
15.590
20
15.325
25
15.067
30
14.820
What would be the molecular weight (in g/
mole) of Vapor A?
What would be the molecular weight (in g/
mole) of Vapor B?
What would be the average molecular
weight of this mixture of vapors in grams
per mole.
Transcribed Image Text:A cylindrical container at 90 degrees Celsius contains two vapors, Vapor A and Vapor B, at a ratio of 2:1 respectively. Vapor A has an effusion rate of 0.876 that of Vapor B. Meanwhile, the temperature-dependence of Vapor B at a pressure of 8.0 atmospheres is given in the following table. Temperature (°C) Density (Kg/m) 16.447 16.150 10 15.861 15 15.590 20 15.325 25 15.067 30 14.820 What would be the molecular weight (in g/ mole) of Vapor A? What would be the molecular weight (in g/ mole) of Vapor B? What would be the average molecular weight of this mixture of vapors in grams per mole.
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