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Ideal Gas Law.

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Presentation on theme: "Ideal Gas Law."— Presentation transcript:

1 Ideal Gas Law

2 Ideal Gas Imaginary gas that conforms to all of the assumptions of the kinetic molecular theory (Day 1)

3 Real Gas Can sometimes conform to all of the assumptions of the kinetic theory  it can behave ideally Does not behave ideally at high pressures and/or low temperatures

4 P V = n R T Ideal Gas Law P = pressure V = Volume (L)
n = number of moles R = ideal gas constant T = temperature (K)

5 R: Ideal Gas Constant R = 0.0821 L atm K mol R = 62.4 L mmHg
Choose R so that the pressure units match the pressure units in the problem.

6 Example #1: What is the pressure (in mm Hg) exerted by 85.5 g of CO2 at 27˚C if the gas is contained in a 15.0 L container? P = ? V = 15.0 L n = ? (85.5 g) R = L mm Hg K mol T = 27oC = 300 K

7 Example #1: PV = nRT P = nRT V

8 Example #2: What is the mass of 120 L of SO2 at a temperature of 40˚C and a pressure of 1.85 atm? P = 1.85 atm V = 120 L n = ??? (but want grams) R = L atm K mol T = 40oC = 313 K

9 Example #2: PV = nRT PV RT n =

10 We can also derive many formulas from PV=nRT to determine other values…
Molar Mass = DRT P Molar Mass = # grams # moles (n) Density = P*Molar Mass RT

11 Example 3 What is the molar mass of a gas if 0
Example 3 What is the molar mass of a gas if 0.628g of the gas occupies a volume or 150 mL at 25˚C and 7456 mm Hg pressure?

12 Molar Mass = # g 0.628 g # mol Use PV=nRT to find the moles: n = PV RT

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