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Homework # 11 Dalton’s Law WS
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Aim: How can we calculate the total pressure exerted by several confined gases? (1st day)
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Why did you select homogeneous mixture?
Air is a ____________ Homogeneous mixture Why did you select homogeneous mixture?
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What gases are present in the air?
78.08% O2 20.95% Ar 0.94% CO2 0.03%
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What is the atmospheric pressure in mmHg?
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Which gas exert more pressure? Why?
N2 78.08% O2 20.95% Ar 0.94% CO2 0.03%
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The % of Gases in Air : Partial Pressure (STP)
78.08% 593.4 mmHg O2 20.95% 159.2 mmHg Ar 0.94% 7.1 mmHg CO2 0.03% 0.2 mmHg PAIR = PN2 + PO2 + PAr + PCO2 = 760 mmHg
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A. Dalton’s Law of Partial Pressures
Dalton discovered that when gases are mixed in the same container and they have the same temperature, the total pressure exerted by the gases is equal to the sum of the pressures exerted by the individual gases: Ptotal = Pgas 1 + Pgas Pgas 3………
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Dalton’s Law of Partial Pressures
V and T are constant P1 P2 Ptotal = P1 + P2
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1. Consider a container that has a mixture of N2 and O2 gas
1. Consider a container that has a mixture of N2 and O2 gas. If the pressure of the oxygen gas is 400 torr and the pressure of the nitrogen gas is 360 torr, what is the total pressure? Ptotal = Pgas 1 + Pgas Pgas 3……… Ptotal = PN2 + PO2 Ptotal = 360 torr torr Ptotal = 760 torr
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2. Refer to the example given before
2. Refer to the example given before. Write the equation for the partial pressure of N2 and O2. If the total pressure in the container is 900 torr and the partial pressure of the oxygen gas is 560, what is the partial pressure of the nitrogen? Ptotal = PO PN2 900 torr = 560 torr + PN2 900 torr – 560 torr = PN2 PN2 = 340 torr
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PN2= 0.65 x 760 mm Hg = 494 mm Hg PO2 = 0.15 x 760 mm Hg = 114 mm Hg
3. A mixture of gases at 760 mm Hg pressure contains 65 %nitrogen,15 % oxygen, and 20 % carbon dioxide by volume. What is the partial pressure of each gas? Ptotal = PO PN2 + P CO2 PN2= x 760 mm Hg = 494 mm Hg PO2 = x 760 mm Hg = 114 mm Hg PCO2 = x 760 mm Hg = 152 mm Hg
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4. An equilibrium mixture contains H2 at 560 torr, N2 at 180 torr and O2 at 250 torr pressure. What is the total pressure of the gases, in mm Hg and atm, in the system?
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Ptotal = PH2 + PN2 + PO2 Ptotal = 560 mm Hg mm Hg mm Hg Ptotal = 990 mm Hg
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Ptotal = 990 mm Hg X 1 atm 760 mm Hg Ptotal = 1.3 atm
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Mole fraction Partial pressure
AND Partial pressure
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B. Mole Fractions of Gases from Partial Pressures
The mole fraction of a gas A in a mixture of gases is defines as: XA = number of moles A_______ total number of moles of gases XA= mole fraction
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PA = XAPT The partial pressure of a gas is related to
its mole fraction and can be determined using the following equation: PA = XAPT XA = mole fraction PA = partial pressure PT = total pressure
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First: calculate the mole fraction:
5. A vessel contains 0.75 mol of nitrogen, 0.20 mol of hydrogen, and mol of fluorine at a total pressure of 2.5 atm. What is the partial pressure of each gas? First: calculate the mole fraction: XN2 = mole 1.00 mole = 0.75 XH2 = 0.20 mole 1.00 mole = 0.20 XF2 = mole 1.00 mole = 0.050
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Second: Calculate the partial pressure: PA= XAPT
PN2= (0.75)(2.5 atm) = atm PH2= (0.20)(2.5 atm) = 0.50 atm PF2= (0.050)(2.5 atm) = 0.13 atm
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Calculate the mole fraction of each gas in the mixture
6. A mixture of a gas consist of 3.00 moles of helium , 4.00 moles of argon, and 1.00 mole of neon. The total pressure of the mixture is torr. Calculate the mole fraction of each gas in the mixture Calculate the partial pressure of each gas in the mixture.
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XHe = 3.00 mole 8.00 mole = 0.375 = 0.500 XAr = 4.00 mole 8.00 mole
A mixture of a gas consist of 3.00 moles of helium , 4.00 moles of argon, and 1.00 mole of neon. The total pressure of the mixture is torr. a. Calculate the mole fraction of each gas in the mixture XHe = mole 8.00 mole = 0.375 XAr = 4.00 mole 8.00 mole = 0.500 XNe = mole 8.00 mole = 0.125
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PA= XAPT PHe= (0.375)(1200. torr) = 450. torr PAr= (0.500)(1200. torr)
A mixture of a gas consist of 3.00 moles of helium , 4.00 moles of argon, and 1.00 mole of neon. The total pressure of the mixture is torr. b. Calculate the partial pressure of each gas in the mixture. PA= XAPT PHe= (0.375)( torr) = 450. torr PAr= (0.500)(1200. torr) = 600. torr PNe= (0.125)(1200) torr = 150. torr
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Second Day:
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C. Collecting a gas over water : https://www. youtube. com/watch
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How can we find the pressure of the gas collected alone?
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MnO2 2KClO3 (s) 2KCl (s) + 3O2 (g) PT = PO2 + PH2O
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Total pressure is the pressure of the gas + the vapor pressure of the water.
P total = P gas + P water P gas = P total - P water
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Table O ºC Torr (mmHg) 4.6 26 25.2 5 6.5 27 26.7 10 9.2 28 28.3 15 12.8 29 30.0 16 13.6 30 31.8 17 14.5 40 55.3 18 15.5 50 92.5 19 16.5 60 149.4 20 17.5 70 233.7 21 18.7 80 355.1 22 19.8 90 525.8 23 21.1 100 760.0 24 22.4 105 906.1 25 23.8 110 1074.6
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= 764 torr – 25.2 torr (see table O)
7. CH4 gas is collected in a eudiometer at 26.0 ºC. When the water level is adjusted, the volume of gas inside the eudiometer is 78.0 mL. If the atmospheric pressure is 764 torr, how many grams of CH4 were collected? P total = P gas + P water PCH4 = Patm – P water PCH4 = 764 torr – 25.2 torr (see table O) PCH4 = torr
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PV = nRT n = m M PV = mRT M Solve m: m = PVM RT
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m = PVM RT P = torr = 0.97 atm V = 78.0 mL = L MCH4= 16 g/mole T= 26 ºC = 299 K 0.97 atm x L x 16 _g__ mole L • atm x 299 K mole•K m =
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m = PVM RT 0.97 atm x 0.078 L x 16 _g__ mole 0.0821 L • atm x 299 K
mole•K m = m = g CH4
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1. Calculate the partial pressure:
8. When oxygen gas is collected over water at 30 ºC and the total pressure is 645 mm Hg: a) What is the partial pressure of O2? b) What are the mole fraction of oxygen and water vapor? 1. Calculate the partial pressure: Pt = PO2 + P H2O PO2 = Pt - P H2O PO2 = 645 mm Hg – 31.8 mm Hg (see table O) PO2 = 613 mm Hg
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b. What are the mole fraction of oxygen and water vapor?
PA= XAPT The partial pressure of O2 and H2O are related to their mole fractions. PO2= XO2PT PH2O = XH2OPT Mole fraction Mole fraction
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PO2= XO2PT PH2O = XH2OPT PO2 = XO2 PT PH2O = XH2O PT 613 = XO2 645
The partial pressure of O2 and H2O are related to their mole fractions. PO2= XO2PT PH2O = XH2OPT PO = XO PT PH2O = XH2O PT 613 = XO 31.8 = XH2O 645 XO2 = 0.950 XH2O =
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X O2 + XH2O = = 0.999
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End of the show!!!
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