Chapter 4 - Gases

1. Chapter 4 - Gases • Movie – phase diagrams • Kinetic Theory • Pressure Measurement • Units • Unit Conversions • Boyle & Charles • Combined Gas Law

2. Movie – Phase Diagrams • Take home message: • how gases move around • distances between molecules • Other • There is more information in the movie – it’s all chemistry. • Much of it is “common sense” with scientific labels.

3. Kinetic Theory • Define Temperature • Define Source of Pressure • Relate Molecular Motion to Gas Behavior.

4. Kinetic Theory – Define Temperature • Temperature relates to the speed of molecular motion. • Fast moving molecules = higher temp. • Solids vibrate • Liquids wiggle (movie) • Gases move in straight lines • Actually, temp. relates to kinetic energy which is mass times speed. • Fat molecules move slower at same temp. • Skinny molecules move faster • (Geo Metro vs. GMC Suburban)

5. Kinetic Theory - Source of Pressure • Pressure is the force of gas atoms bouncing off the walls of a container. BIFF POW

6. Kinetic Theory:Molecular Motion  Gas Behavior • Hit the wall = pressure • Gas collisions are perfect bounces. • T = Moving faster  P__ • T = moving slower  P__ • More molecules  P__ • Smaller Bottle  P__

7. How do we measure pressure? • Definition: P = force area • Wall Barometer (Fig. 4.8) • air pushes on a diaphram against a spring • calibrate the scale • Manometer • Air pushes on a mercury column.

10. Pressure Units

11. Pressure Unit Conversions • We always get to convert these! • 1 atm  760 torr = 760 mmHg = 14.7 psi = 101.3 kPa • Forget about “bar”

12. Vacuum • A vacuum is a truly empty space. • No gas molecules. • Pressure = 0.0000000 atm. • Real experiments can only get to 0.00000000000000001 atm or so.

13. What is vacuum? • Vacuum- literally translated, the word describes the volume from which all the air has been totally removed. • However, so far nobody has succeeded in achieving such a condition. Scientifically the highest vacuum yet reached is in the range of 10-14 torr. This result has been achieved during a test by IBM Thomas J. Watson Research Center, New York, USA, October 1976, in a cryogene system where the temperature dropped to minus 269 °C. • Even at this low pressure thousands of gas molecules were detected per cm3. Also far out in space the presence of gas has been measured. http://www.busch.com.au/whatisvacuum.htm

14. Absolute vs. Gauge • Bike Tires? 45 psi • Car Tire? • The psi values we use are usually relative to atmospheric pressure. • “Gauge” pressure means 1 atm + the reading. • “Absolute” means 0.000 atm + the reading • Actual pressure in bike tire is 45 psi + 14.7 psi = 59.7 psi! • Chemistry lab experiments use absolute pressure.

15. Pressure - Volume • Boyles’ Law • Change the volume of a gas sample • See what the pressure does (graph it). • Avogadro’s Law • Trap different volumes of gas in the syringe. • See what the pressure does.

16. Pressure – Volume Math • Boyle’s Law says that: PV = k, P= k/V • If you do 2 experiments: • 1st Experiment: 1.0 atm, 5.0 mL • 2nd Experiment: ? atm, 25.0 mL

18. Pressure - Temperature • Charles’ Law says that:Pressure  Temperature • P T • P T • Double temperature  double pressure • Careful: • You have to use Kelvin units for temperature.

22. Pressure – Temperature Math • Charles’ Law says that: P = kT, k = P/T • If you do 2 experiments: • 1st Experiment: 1.0 atm, 0 °C • 2nd Experiment: ? atm, 100 °C

23. Combined Gas Law • We can shove Boyle & Charles together:

24. Combined Gas Law - Math • These problems are all about setting them up right • At 56°C and 868 torr, a gas takes up 4.30 L. What will the pressure be if the volume is changed to 6.36 L and cooled to 12 °C? Case 1 Case 2 P _868 torr_ _???_____ V _4.30 L___ _6.36 L_ T _56°C=329K_ _12°C=285K_

25. Combined Gas Law - Math • Once you make the table, fill into the big equation. • Answer: 508.4 torr

26. Combined Gas Law - Math • Is out answer good? • P went down. • Sample was cooled. • Volume went up. • Sounds ok by kinetic theory…