I. Intermolecular Forces

1. Ch. 12 – States of Matter I. Intermolecular Forces

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

3. B. Types of IMF C. Johannesson

4. B. Types of IMF • London Dispersion Forces View animation online.

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

6. B. Types of IMF • Hydrogen Bonding

7. C. Determining IMF • NCl3 • polar = dispersion, dipole-dipole • CH4 • nonpolar = dispersion • HF • H-F bond = dispersion, dipole-dipole, hydrogen bonding

8. Ch. 12 - Liquids & Solids II. Physical Properties

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

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

11. B. Liquid Properties • Capillary Action • attractive force between the surface of a liquid and the surface of a solid

12. B. Liquid Properties • Viscosity • Measure of the resistance of a liquid to flow

13. water mercury B. Liquid Properties • Cohesion • Force of attraction between identical molecules • Adhesion • Force of attraction between different molecules

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

15. C. Types of Solids Ionic (NaCl) Metallic

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

17. water mercury C. Types of Solids • Allotrope • In a covalent network, different forms in the same state Carbon allotropes

18. water mercury C. Types of Solids • Amorphous Solid • No geometric pattern

19. Ch. 12 - Liquids & Solids III. Changes of State

20. A. Phase Changes

21. A. Phase Changes • Evaporation • molecules at the surface gain enough energy to overcome IMF • Volatility • measure of evaporation rate • depends on temp & IMF

22. # of Particles temp volatility IMF volatility Kinetic Energy A. Phase Changes Boltzmann Distribution

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

24. temp v.p. IMF v.p. A. Phase Changes • Vapor Pressure • pressure of vapor above a liquid at equilibrium v.p. • depends on temp & IMF • directly related to volatility temp

25. Patm b.p. IMF b.p. A. Phase Changes • Boiling Point • temp at which v.p. of liquid equals external pressure • depends on Patm & IMF • Normal B.P. - b.p. at 1 atm

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

27. A. Phase Changes • Sublimation • solid  gas • v.p. of solid equals external pressure • EX: dry ice, mothballs, solid air fresheners

28. Gas - KE  Boiling - PE  Liquid - KE  Melting - PE  Solid - KE  B. Heating Curves

29. B. 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

30. B. Heating Curves • Phase Change • change in PE (molecular arrangement) • temp remains constant • Heat of Fusion (Hfus) • energy required to melt 1 gram of a substance at its m.p.

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

32. C. Phase Diagrams • Show the phases of a substance at different temps and pressures.

33. The following slides… same information, different explanation and examples

34. Phase Changes

35. Why do liquids and solids form at all? • KMT postulates • A gas is a collection of small particles traveling in straight-line motion and obeying Newton's Laws. • The molecules in a gas occupy no volume. • Collisions between molecules are perfectly elastic • no energy is gained or lost during the collision • There are no attractive or repulsive forces between the molecules. • Kinetic energy is proportional to temperature X

36. What is a phase? • Region of matter that is: • chemically uniform • physically distinct • mechanically separable. • Often synonymous with (same meaning as) “state of matter”

37. Changing phases Distinguish liquid vs. solid?

38. Properties of … • Gas phase • Like/unlike soccer players on field • Liquid phase • Like/unlike crowd at a rally • Like/unlike gases • Solid phase • Like/unlike movie theatre • Compare intermolecular interactions • gases vs. liquids vs. solids

39. Phases of matter Add more energy

40. A - melting B - freezing C – boiling/ evap D - condensation E - sublimation F - solidification Phase change vocabulary

41. Phase changes and IMF’s • As InterMolecular Forces increase, melting and boiling temperatures _________? (increase or decrease)? Network covalent bonding Larger sphere, higher melting point Metallic bonding

42. Strength of interactions • Which simulation has stronger intermolecular interactions? A or B • How do you know? Same temperature A B

43. Ranking of intermolecular interactions • Water • Wood • Iron • Air • Gold • Mercury • Carbon dioxide • Oxygen • Gasoline • Lead vs. Why?

44. Why is water special? • Periodic trends • Boiling and melting points of hydrides

45. KMT, energy and phase changes

46. Total energy

47. Water phases present?

48. Heating curves Why are b and d flat?

49. Boiling vs. melting Which takes more energy? (same mass)

50. Consider liquid  gasEvaporation removes energy