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The Combined and Ideal Gas Laws CP Chemistry The Combined Gas Law P1V1 = P2V2 T1 T2 Example: A balloon with Helium has a volume of 50.L at 25oC and a pressure of 1.08 atm. What volume will it have at 0.855 atm and 10oC? **Convert Temps to Kelvin T1 = 25 + 273 = 298K T2 = 10 + 273 = 283K Plug in and Solve: (1.08atm)(50L) = (0.855atm)V2 298K 283 K (1.08)(50)(283) = (0.855)(298) V2 V2 = 60. Liters Standard Temperature and Pressure (STP) to a Temperature of 0oC , and a pressure of 1 atm. Refers Keep in mind the STP values in other units: Standard Temp = 0oC or 273 Kelvin Standard Pressure = 1atm = 760 mmHg = 760 torr = 101.325kPa Ideal Gas An imaginary gas that fits all the assumptions of the kinetic molecular theory of gases. In reality, the noble gases (He, Neon, etc) are the only gases that most closely behave like an ideal gas. All gases behave like an ideal gas at high temperatures and low pressure. This is because they cannot be attracted to each other if they are moving to fast and are very far apart from each other. Avagadro’s Law Volume is directly proportional to the moles of a gas at the same temperature and pressure. n = moles Remember V1 = V2 n1 n2 1 mole of a gas at STP occupies 22.4Liters The Ideal Gas Law Mathematical formula that relates the pressure, volume, temperature and the number of particles(or moles) of a gas. PV = nRT “R” is the gas constant, R = 0.0821 atm.L K.mole The R value comes from using 1atm, 1 mole, 273K and 22.4 Liters as our comparison values. Ideal gas law example What is the pressure in atmospheres exerted by a 0.500gram sample of nitrogen (N2) gas in 10. Liter container at 25oC ? *you must convert grams to moles 0.500g 1 mole = (and Celcius to Kelvin!!) 0.0178 moles 28.02 grams PV = nRT P (10L) = (0.0178moles)(0.0821 L.atm/K.mole) (298K) P = 0.044 atm You must use Liters, atm and kelvin in this formula!!!!! Other Derivations of the ideal gas law To calculate the molar mass (M) of a gas PV = nRT Moles = n = mass (m) Molar Mass(M) PV = m R T M Rearranging Molar Mass = M = m R T PV Example: A 6.39 gram sample of a gas occupies a 2.00L container at 117kPa and 35.1oC. What is the molar mass of the gas? Molar Mass = M = m R T PV M = (6.39g)(0.0821)(308.1) (117/101.325)(2.00) = 70.0 g/mole Ideal Gas law Tutorial Online