Answer:
[tex]P_{He}=219mmHg[/tex]
[tex]m_{He}=0.618gHe[/tex]
Explanation:
Hello,
By applying the Dalton's law, we can compute the partial pressure of the helium has:
[tex]P_{tot}=P_{CO_2}+P_{Ar}+P_{O_2}+P_{He}[/tex]
Now, solving for the partial pressure of the helium gas we get:
[tex]P_{He}=P_{tot}-P_{CO_2}-P_{Ar}-P_{O_2}=745mmHg-125mmHg-214mmHg-187mmHg\\P_{He}=219mmHg=0.288atm[/tex]
On the other hand, the mass of the helium gas is computed via the ideal gas equation in terms of the helium's mass:
[tex]PV=\frac{m_{He}}{M_{He}}RT\\m_{He}=\frac{M_{He}PV}{RT} =\frac{4g/mol*0.288atm*12L}{0.082\frac{atm*L}{mol*K}*273K}\\ m_{He}=0.618gHe[/tex]
Best regards.
