Answer:
77.3 bar
Explanation:
We can use the Ideal Gas Law to calculate the individual gas pressures and then use Dalton’s Law of Partial pressures to calculate the total pressure.
Step 1. Calculate the individual gas pressures.
pV = nRT Divide both sides by V
p = (nRT)/V = n(RT/V)
For ease of typing, let’s call oxygen Gas 1, nitrogen Gas 2, and argon Gas 3.
For all three gases,
R = 0.083 14 bar·L·K⁻¹mol⁻¹
T = 298 K
V = 0.250 L
Let’s calculate the value of (RT)/V.
(RT)/V = (0.083 14 × 298)/0.250
(RT)/V = 24.78/0.250
(RT)/V = 99.10 bar·mol⁻¹
So,
p = 99.10n Calculate p₁
———
p₁ = 99.10 × 0.150
p₁ = 14.87 bar Calculate p₂
———
p₂ = 99.10 × 0.419
p₂ = 41.52 bar Calculate p₃
———
p₃ = 99.10 × 0.211
p₃ = 20.91 bar
===============
Step 2. Calculate the total pressure
According to Dalton’s Law,
p = p₁ + p₂ + p₃
p = 14.87 + 41.52 + 20.91
p = 77.3 bar
