Phases of Matter

1. Phases of Matter

2. Kinetic Theory • All matter is made of atoms and molecules that act like tiny particles. • These tiny particles are always in motion. The higher the temp., the faster the particles move. • At the same temp., more massive (heavier) particles move slower than less massive (lighter) particles.

3. SOLIDS • Definite shape? • YES • Definite volume? • YES • Molecules in a solid are tightly packed and constantly vibrating.

4. LIQUIDS • Definite shape? • NO • Definite volume? • YES • Some liquids flow more easily than others. The resistance of a liquid to flow is called viscosity. • Honey has a high viscosity compared to water.

5. GASES • Definite shape? • NO • Definite volume? • NO • The particles in a gas are spread very far apart, but can be compressed by pumping them into a restricted volume.

6. Phase Changes • Changes in phase are examples of physical changes. • Melting: solid  liquid • Freezing: liquid  solid • Vaporization: liquid  gas • Condensation: gas  liquid • Sublimation: solid  gas

7. GAS Vaporization Condensation Deposition Sublimation LIQUID Melting Melting Freezing SOLID Changes of State

8. ENERGY TRANSFERS!!! • ENERGY is the ability to change or move matter. • Energy is ABSORBED when substances melt or evaporate. • NOTE: our bodies cool down when our sweat evaporates. • Energy is RELEASED when substances freeze or condense.

9. Melting • The change of state from solid to liquid. • Energy (heat) is absorbed by the substance that is melting.

10. Freezing • The change of state from liquid to solid. Opposite of melting. Energy (heat) is released by the substance undergoing freezing.

11. Evaporation • The change of state at the surface of a liquid as it passes to a vapor. This results from the random motion of molecules that occasionally escape from the liquid surface. • Energy (heat) is absorbed by the liquid (Cooling of the liquid results) • Can happen at any temperature

12. Condensation • The change of state from gas to liquid. The opposite of evaporation. • Energy (heat) is released by the liquid (Warming of the liquid results)

13. Boiling • Change from state from a liquid to a gas. • Occurs throughout the liquid. • boiling point/temperature is determined by pressure • Energy (heat) is absorbedby the liquid.

14. Phase Change Graph *Boiling & freezing points depend on the pressure.

15. Water at normal pressure (1 atm): • For water at normal (every day) pressures: • Melting/freezing point: • Condensing/boiling point: 0 oC (32oF) 100 oC (212oF) Label the points & temperatures on your graph.

16. Change the pressure  Change the Boiling Point

17. Phase Diagrams • a phase diagram shows the equilibria pressure-temperature relationship among the different phases of a given substance

18. WATER Carbon Dioxide C AD = AB = AC =

19. C meltingcurve AD = AB = AC =

20. C meltingcurve sublimationcurve AD = AB = AC =

21. C vaporpressurecurve meltingcurve sublimationcurve AD = AB = AC =

22. C A triple point = Point ______ The point at which all 3 phases of a substance (solid, liquid, gas) can coexist at equilibrium. D critical point = Point ______ The combination of critical temperature and critical pressure. • critical temp = temp. above which a gas cannot be liquefied. (H2O=374ºC) • critical pressure = press. required to liquefy a gas at its critical temperature. (H2O=218 atm)

23. Conditions for H2O on other planets…