1. The Nature of Gases

2. I.The Kinetic Theory and a Model for Gases A.Assumptions of the Kinetic Theory 1.Gases consist of large numbers of tiny particles that are far apart Most of the volume of a gas is empty space Explains why gases are easily compressed Accounts for low density of gases 2.Gas particles undergo elastic collisions, no net loss of kinetic energy 3.Gas particles are in constant, random motion – possess kinetic energy

3. 4.There are no forces of attraction or repulsion between gas particles 5.Average kinetic energy of gas particles depends on the temperature

4. II.Kinetic Energy and Temperature A.Average kinetic energy of gas particles depends on temperature KE = ½mv 2 B.All gases at the same temperature have the same average K.E. At the same temperature lighter gas particles have higher average speed than do heavier particles C.Kelvin temperature scale – directly proportional to the average kinetic energy of a substance ↑Temperature ↑speed and ↑K.E. or ↓Temperature ↓speed and ↓K.E.

5. Effect of Temperature

6. III.Kinetic Theory and the Nature of Gases A.Expansion 1.Gases do not have a definite shape or volume 2.Gases take the shape of their container 3.Gases evenly distribute themselves in a container B.Fluidity – gas particles flow past one another

7. C.Low Density 1.A substance in the gaseous state has 1/1000 th the density of the same substance in the liquid or solid state D.Compressibility 1.Gases are mostly empty space 2.Gases can be compressed, decreasing the distance between particles, and decreasing the volume occupied by the gas

8. E.Diffusion – spontaneous mixing of particles caused by random motion 1.Rate of diffusion depends on three properties of the gas particles: speed, diameters, and attractive forces between them

9. E.Effusion – process by which gas particles under pressure pass through a tiny opening 1.Rates of effusion are directly proportional to velocities of particles 2.Molecules of low mass effuse faster than molecules of high mass

10. IV.Gas Pressure A.Pressure and Force 1.Pressure = force area 2.Newton (N) – SI unit of force 3.When a force is applied to a smaller and smaller area, the pressure increases 4.Gas molecules exert pressure on any surface with which they collide

11. Pressure & Volume of a Gas

12. B.Measuring Pressure 1.Barometer – device used to measure atmospheric pressure Evangelista Torricelli – invented 1 st barometer in early 1600’s Experiments show that at sea level, 0°C, average pressure of the atmosphere can support 760 mm column of Hg 2.Manometer – used to measure pressure of enclosed gas sample

13. How a Barometer Works

14. A.Units of Pressure 1.Pascal (Pa) – SI unit of pressure 1 Pa = 1 N/m 2 2.mmHg – millimeter of mercury 3.Atmospheres – one standard atmosphere (atm) 4.1 atm = 760 mmHg = 101.3 kPa = 1.01325 x 10 5 pascal (Pa) B.STP – standard temperature and pressure, 0° C and 1 atm