Ideal Gas Law

1. Ideal Gas Law PV=nRT

2. Kinetic Molecular Theory • 1. Gases have low density • 2. Gases have elastic collisions • 3. Gases have continuous random motion. • 4. Gases have no attraction or repulsion • 5. Kinetic energy is proportional to temperature.

3. Properties of Gases • Pressure (P) • Force of gas particles hitting the sides of their container • Volume (V) • The amount of space occupied by a gas • Temperature (T) • The Kinetic Energy of gas molecules • Mols (n) • The amount of gas molecules in a certain mass

4. Ideal Gas Law • “the mathematical relationship among pressure, volume, temperature, and the number of moles of a gas” • What are the observable relationships between these properties? • Pressure and Temperature • Pressure and Volume • Pressure and moles • Volume and Temperature • Volume and moles • Temperature and moles

5. Boyle’s Law V = k / P V : 1/P Charle’s Law V = kT V : T Gay-Lussac’s Law P = k T P : T Avogadro’s Law Standard Molar volume V : n Partial Gas Laws

6. V : 1/P V : T V : n V : nT/P V = constant * nT/P PV = constant * nT Constant = R PV = nRT Units: (for this class) V must be in Liters P must be in atm T must be in Kelvin n is always mols Ideal Gas Constant = R 0.0821(L*atm) / (mol * K) Ideal Gas Law

7. Ideal Gas Law Example • How many moles of gas are in 4.6 L of gas at 56kPa and 34oC? • Convert all units to the right units • Volume: 4.6 L is in correct units • Pressure: 56 kPa x (1atm/101.3kPa) = 0.55 atm • Temperature: 34oC + 273 = 307K • Write Ideal Gas Law Equation • PV = nRT

8. Ideal Gas Law Example • How many moles of gas are in 4.6 L of gas at 56Pa and 34oC? • PV = nRT • Solve for unknown • n = PV / (RT) • Plug in numbers • n =(0.55 atm * 4.6 L) / (0.0821 * 307K)= 0.10mols

9. Simulation • http://www.chem.ufl.edu/~itl/2045/MH_sims/gas_sim.html