I. Kinetic Molecular Theory KMT

1. I. Kinetic Molecular TheoryKMT

2. Assumptions of KMT • All matter is composed of tiny particles • These particles are in constant, random motion. • Some particles are moving fast, some are moving slowly. • Temperature is a measure of the average Kinetic Energy and is proportional to the average speed of the molecules.

3. KMT Model • http://preparatorychemistry.com/Bishop_KMT_frames.htm • Click on the link above to see how particles of matter behave according to the KMT.

4. Liquids & Solids II. Intermolecular Forces

5. Definition of IMF • Attractive forces between molecules. • Much weaker than chemical bonds within molecules. • a.k.a. van der Waals forces

6. Types of IMF • London Dispersion Forces View animation online.

7. + - Types of IMF • Dipole-Dipole Forces View animation online.

8. Types of IMF • Hydrogen Bonding

9. Types of IMF

10. Liquids & Solids III. Physical Properties

11. LIQUIDS Stronger than in gases Y high N slower than in gases SOLIDS Very strong N high N extremely slow Liquids vs. Solids IMF Strength Fluid Density Compressible Diffusion

12. Liquid Properties • Surface Tension • attractive force between particles in a liquid that minimizes surface area

13. water mercury Liquid Properties • Capillary Action • attractive force between the surface of a liquid and the surface of a solid

14. decreasing m.p. Types of Solids • Crystalline - repeating geometric pattern • covalent network • metallic • ionic • covalent molecular • Amorphous - no geometric pattern

15. Types of Solids Ionic (NaCl) Metallic

16. Types of Solids Covalent Molecular (H2O) Covalent Network (SiO2 - quartz) Amorphous (SiO2 - glass)

17. Liquids & Solids IV. Changes of State

18. Phase Changes • Most substances can exist in 3 states: • Solid • Liquid • Gas • Depends on temperature and pressure

19. Phase Changes

20. Phase Changes • Each state is referred to as a “Phase” • Ice water is a heterogeneous mixture of 2 phases • When energy is added or removed, one phase can change into another

21. Phase Changes Requiring Energy • Melting • Vaporization • Sublimation

22. Melting • Amount of energy needed to melt a substance depends on forces keeping particles together. • Melting water requires a high amount of energy because of hydrogen bonding • Adding energy allows molecules to move faster, breaking the hydrogen bonds • Melting point - Temperature at which the forces holding crystal lattice together are broken and substance becomes liquid

23. IMF m.p. Phase Changes • Melting Point • equal to freezing point • Which has a higher m.p.? • polar or nonpolar? • covalent or ionic? polar ionic

24. Vaporization • In liquid water, some particles will have more kinetic energy than others. • When the particles have enough energy to overcome the forces of attraction they will escape the liquid as a gas. • Vapor - A substance that is liquid at room temperature and becomes gas. • Vaporization - the process of changing a liquid to a gas

25. Vaporization • Evaporation - Vaporization that occurs at the surface of a liquid, molecules at the surface gain enough energy to overcome IMF • Evaporation is gradual • Even at cold temperatures, some molecules have enough energy to break the attractions and become gas. • Evaporation is how your body cools itself • Water in sweat absorbs heat from your body • Water evaporates leaving less heat in your body and a lower ‘average kinetic energy’ (lower temperature)

26. temp v.p. IMF v.p. Phase Changes p.478 • Vapor Pressure • pressure of vapor above a liquid at equilibrium v.p. • depends on temp & IMF temp

27. Patm b.p. IMF b.p. Phase Changes • Boiling Point • Temperature at which the vapor pressure of a liquid equals the external atmospheric pressure • depends on Patm & IMF • Normal B.P. - b.p. at 1 atm

28. Sublimation • Sublimation - when a substance goes from solid directly to gas without becoming a liquid • Solid iodine • Frozen carbon dioxide (dry ice) • Moth balls (p-dichlorobenzene) • Solid air fresheners • Ice cubes left in a freezer for a long time

29. Phase Changes the Release Energy • Condensation • Deposition • Freezing

30. Condensation • Condensation– process of changing from gas to liquid • When molecule s lose energy, • Velocity of the molecules is reduced • Intermolecular forces take over • Hydrogen bonds form, energy is released (heat comes out) • There are different causes for condensation, however, all involve loss of energy: • Contact with cold item

31. Phase Changes • Equilibrium • trapped molecules reach a balance between evaporation & condensation

32. Deposition • Deposition – changing from gas directly to solid • Snowflakes

33. Freezing • Freezing – process of changing from liquid to solid • Remove energy from liquid • Molecules don’t move past each other any longer • Molecules stay in fixed, set position • Become solid

34. Phase Changes

35. Phase Diagrams • Phase diagram shows phase of matter at different temperatures and pressures • Each substance is unique • X-axis usually temperature • Y-axis usually pressure • There is usually a “Triple Point” where all three phases can coexist • “Critical Point” – temperature and pressure above which substance cannot exist as liquid

36. Phase Diagram - Water

37. Phase Diagram CO2

38. Heating Curves Kinetic Energy Changes – Heat Energy speeds up the molecules. Potential Energy Changes – Heat energy separates the molecules from solid to liquid, liquid to gas.

39. Heating Curves • Temperature Change • change in KE (molecular motion) • depends on heat capacity • Heat Capacity • energy required to raise the temp of 1 gram of a substance by 1°C

40. Phase Change • The energy involved in a phase change is calculated using: • Heat of Fusion (Hfus) • Heat of Vaporization (Hvap)

41. Heat of Fusion • Heat of Fusion is the energy required to change 1 gram of a substance from the solid to the liquid state without changing its temperature. Heat of Fusion is used for calculations involving the phase changes of solid  liquid or liquid solid

42. Heat of Vaporization • Heat of Vaporization (Hvap) • energy required to boil 1 gram of a substance at its b.p. • EX: sweating, steam burns, the drinking bird