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Gay-Lussac’s Law: P and T

Gay-Lussac’s Law: P and T. the pressure exerted by a gas is directly related to the Kelvin temperature . V and n are constant. P 1 = P 2 T 1 T 2. Calculation with Gay-Lussac’s Law. A gas has a pressure of 2.0 atm at 18°C. What is the new pressure when the temperature is

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Gay-Lussac’s Law: P and T

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  1. Gay-Lussac’s Law: P and T • the pressure exerted by a gas is directly related to the Kelvin temperature. • V and n are constant. P1 = P2 T1 T2

  2. Calculation with Gay-Lussac’s Law A gas has a pressure of 2.0 atm at 18°C. What is the new pressure when the temperature is 62°C? (V and n constant) 1. Set up a data table; Conditions 1 Conditions 2 P1 = 2.0 atm P2 = T1 = 18°C + 273 T2 = 62°C + 273 = 291 K = 335 K ?

  3. Calculation with Gay-Lussac’s Law (continued) 2. Solve Gay-Lussac’s Law for P2: P1 = P2 T1 T2 P2 = P1 x T2 T1 P2 = 2.0 atm x 335 K = 2.3 atm 291 K Temperature ratio increases pressure

  4. Try it A gas has a pressure of 645 torr at 128°C. What is the temperature in Celsius if the pressure increases to 1.50 atm (n and V remain constant)? 1. Set up a data table: Conditions 1 Conditions 2 P1 = 645 torr P2 = 1.50 atm x 760 torr = 1140 torr 1 atm T1 = 128°C + 273 T2 = ?K  K – 273 = ?°C = 401 K

  5. Solution 2. Solve Gay-Lussac’s Law for T2: P1 = P2 T1 T2 T2 = T1 x P2 P1 T2 = 401 K x 1140 torr = 709 K - 273 = 436°C 645 torrPressure ratio increases temperature

  6. Avogadro's Law: Volume and Moles • the volume of a gas is directly related to the number of moles (n) of gas. • T and P are constant. V1 = V2 n1n2

  7. Learning Check If 0.75 mole helium gas occupies a volume of 1.5 L, what volume will 1.2 moles helium occupy at the same temperature and pressure?

  8. Solution STEP 1 Conditions 1 Conditions 2 V1 = 1.5 L V2 = ??? n1 = 0.75 mole He n2 = 1.2 moles He STEP 2 Solve for unknown V2 V2 = V1 x n2 n1 STEP 3 Substitute values and solve for V2. V2 = 1.5 L x 1.2 moles He = 2.4 L 0.75 mole He

  9. STP and Molar Volume STP = standard temperature (273 K) and pressure (1 atm) At STP: 1 mol of a gas (any gas) has a volume of 22.4 L 22.4 L 1 mole = molar volume Can be used as a conversion factor : a) What is the volume of 2.50 moles of N2 at STP? b) What is the volume in liters of 6.40 g of O2 at STP?

  10. Partial Pressure: Dalton’s Law • Many gases are mixtures of gases, e.g. air. • The partial pressure of a gas • is the pressure of each gas in a mixture. • is the pressure that gas would exert if it were by itself in the container.

  11. Dalton’s Law of Partial Pressures Dalton’s Law of Partial Pressuresindicates that • pressure depends on the total number of gas particles, not on the types of particles. • the total pressure exerted by gases in a mixture is the sum of the partial pressures of those gases. PT = P1 + P2 + P3 +..... So: if total pressure (PT) is known and all but one partial pressure…..can determine partial pressure of that one.

  12. Learning Check A scuba tank contains O2 with a pressure of 0.450 atm and He at 855 mm Hg. What is the total pressure in mm Hg in the tank?

  13. Solution 1. Convert the pressure in atm to mm Hg 0.450 atm x 760 mm Hg = 342 mm Hg = P(O2) 1 atm 2. Calculate the sum of the partial pressures. Ptotal = P(O2) + P(He) Ptotal = 342 mm Hg + 855 mm Hg = 1197 mm Hg

  14. Learning Check For a deep dive, a scuba diver uses a mixture of helium and oxygen with a total pressure of 8.00 atm. If the oxygen has a partial pressure of 1280 mm Hg, what is the partial pressure of the helium? PTotal= 8.00 atm x 760 mm Hg = 6080 mm Hg 1 atm PTotal= PO + PHe 2 PHe= PTotal- PO2 PHe= 6080 mm Hg - 1280 mm Hg = 4800 mm Hg

  15. Gases We Breathe The air we breathe • is a gas mixture. • contains mostly N2 and O2 and small amounts of other gases.

  16. Learning Check A.If the atmospheric pressure today is 745 mm Hg, what is the partial pressure (mm Hg) of O2 in the air? 1) 35.6 2) 156 3) 760 B. At an atmospheric pressure of 714, what is the partial pressure (mm Hg) N2 in the air? 1) 557 2) 9.14 3) 0.109 Hint: air is 21% oxygen

  17. Blood Gases Lungs

  18. Blood Gases In the lungs/blood/body: • O2 flows (combined with hemoglobin) into the tissues because the partial pressure of O2 is higher in arterial blood, and lower in the tissues. • CO2 flows out of the tissues because the partial pressure of CO2 is higher in the tissues, and lower in the blood. Partial Pressures (mmHg) in Blood and Tissue Oxygenated Deoxygenated (arterial) (venous) GasBlood Blood Tissues O2 100 40 30 or less CO2 40 46 50 or greater

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