Answer :
Answer:
N2 is lost from the craft 6.9% faster than O2 is lost.
Explanation:
Step 1: Data given
0.500 atm of N2
0.500 atm of 02
Molar mass of 02 = 2*16 g/mole = 32 g/mole
Molar mass of N2 = 2* 14 g/mole = 28g/mole
Step 2: Calculate the rate of loss
r1N2 / r2O2 = √(M2(02)/M1(N2)) = √(32/28) = 1.069
1.069-1)*100= 6.9%
This means N2 is lost from the craft 6.9% faster than O2 is lost.
Answer:
C. N₂ is lost from the craft 6.9% faster than O₂ is lost.
Explanation:
The rate of effusion of a gas (r) is inversely proportional to the square root of its molar mass (M), as expressed by the Graham's law.
[tex]\frac{rN_{2}}{r_{O_{2}}} =\sqrt{\frac{M(O_{2})}{M(N_{2})} } =\sqrt{\frac{32.00g/mol}{28.00g/mol} } =1.069\\rN_{2}=1.069rO_{2}[/tex]
The rate of effusion of N₂ is 1.069 times the rate of effusion of O₂, that is, N₂ effuses 6.9% faster than O₂.