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Soaring Crane
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1) Determine the total pressure (in atm) inside a 83.00L cylinder containing 5.00 mole of nitrogen, 6.00 mole of oxygen, and 5.00 mole of argon at 417.00 kelvin.
P_total = (n1 + n2 + n3)*(RT/V)
P_total = (5.00 + 5.00 + 6.00 mol)*(0.08206*417.00 K/83.00 L) = 6.60E0 atm?? (correct sig. digits?)
2) Determine the partial pressure of nitrogen in a 6.00 L cylinder that contains 0.600 moles of oxygen, 0.600 moles of nitrogen, 0.800 moles of hydrogen, and 1.000 moles of helium at 340.00 kelvin.
P_N = X_N*(P_total)
X_N = (0.600 mol N)/(0.600 N + 0.600 mol O + 0.800 mol H) = 0.300
P_total = (0.600 + 0.600 + 0.800 mol)*(RT/V)
P_total = (2.000 mol)*(0.08206*340.00K/6.00 L) = 2.000 mol*(4.6501) = 9.30 atm
P_N = 9.30 atm(0.300) = 2.79E0 atm ? (correct sig. digits?)
Thank you.
P_total = (n1 + n2 + n3)*(RT/V)
P_total = (5.00 + 5.00 + 6.00 mol)*(0.08206*417.00 K/83.00 L) = 6.60E0 atm?? (correct sig. digits?)
2) Determine the partial pressure of nitrogen in a 6.00 L cylinder that contains 0.600 moles of oxygen, 0.600 moles of nitrogen, 0.800 moles of hydrogen, and 1.000 moles of helium at 340.00 kelvin.
P_N = X_N*(P_total)
X_N = (0.600 mol N)/(0.600 N + 0.600 mol O + 0.800 mol H) = 0.300
P_total = (0.600 + 0.600 + 0.800 mol)*(RT/V)
P_total = (2.000 mol)*(0.08206*340.00K/6.00 L) = 2.000 mol*(4.6501) = 9.30 atm
P_N = 9.30 atm(0.300) = 2.79E0 atm ? (correct sig. digits?)
Thank you.
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