Homework Answers
Part 1
From Ideal gas equation
PV= mRT/ M
m/V= PM/ RT = density
density = PM/ RT
where P= pressure = 0.950 atm
M = Molar mass = 222 g/mol
T = Temperature = 303 K
R = gas constant = 0.0821 L.atm/mol.K
Now, density = (0.950 atm * 222 g/mol) / (303K*0.0821 L.atm/mol.K) = 8.48 g/mol
Part B
Since the density of radon is more than air. So, it will move towards the earth surface. Hence, basement
Add Answer to:
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9. The density of a diatomic gas is 1.634 g/L at 1.50 atm and 40.0°C. Calculate the molar mass of the gas, and use the...
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Part C l ReviewI Constants Periodic Table Calculate the partial pressure of Ar in the mixture. A mixture containing 0.767 mol He(g), 0.300 mol Ne(g), and 0.118 mol Ar(g) is confined in a 10.00-L vessel at 25 °C. You may want to reference (Pages 411-412) Section 10.6 while completing this problem. atm Submit Part D Calculate the total pressure of the mixture atm
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A noble gas has a density of 0.173 g/L at a temperature of 328.15 K and a pressure of 1.168 atm. What is that noble gas? Hint: Determine molar mass of the gas and compare with the molar mass given in the periodic table for the various noble gas elements. Xe Оне 0 Ne O Ar
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Please just answer Part 2
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