1 / 37

Chapter 11 – Molecule Love

Chapter 11 – Molecule Love. 11.1 Comparison of liquid & Solid s (Table 11.1) 11.2 Intermolecular (attractive) Forces A. ion-ion  ionic (duh.), high MP (strongest) B. ion-dipole  salt water C. dipole-dipole  2 polar molecules. Continued…

ishmael-tyson
Download Presentation

Chapter 11 – Molecule Love

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 11 – Molecule Love

  2. 11.1 Comparison of liquid & Solids • (Table 11.1) • 11.2 • Intermolecular (attractive) Forces • A. ion-ion  ionic (duh.), high MP • (strongest) • B. ion-dipole  salt water • C. dipole-dipole  2 polar molecules

  3. Continued… D. dipole-induced-dipole  1 polar and 1 non-polar molecule E. London Dispersion Forces  2 non-polar molecules (LDF) weakest

  4. F. Hydrogen Bonding  H bonded with N, O, & F • from high electronegativity ( H2O, NH3, HF) • 1. Ice expands when freezes • 2. Ice is less dense than H2O • 3. All snowflakes are 6-sided

  5. G. Sample~> • Arrange in increasing BP • BaCl2, H2, CO, HF, Ne • H2 • Ne • CO • HF • BaCl2

  6. 11.3Properties of Liquids • Viscosity- Ability to “go with the flow” • Surface tension – imbalance of forces at the surface of a liquid • Capillary rise – when a liquid adheres to the walls of a tube • Adhesive forces- stick to something else • Cohesive forces- stick to itself • Meniscus- curve in a liquid

  7. Surface tension

  8. Capillary rise

  9. Water Hg

  10. Meniscus – Greek for crescent

  11. 11.4 Things heat up • Phase Changes • Gas • Liquid • Solid endo exo Solid to Gas: Subliming Gas to Solid: Deposition Solid to Liquid: Melting Gas to Liquid: Condensation Liquid to Gas: Evaporation Liquid to Solid: Freezing

  12. EVAPORATION IS A COOLING PROCESS. • KE = ½ mv2 • Temp αAvg KE of the molecules.

  13. II. Heating Curve 100o Heat of vaporization 0o Heat of fusion time

  14. H20 HEAT OF FUSION : 6.01 kJ/mol (334 J/g) HEAT OF VAPORIZATION : 40.67 kJ/mol (2260 J/g) Sample 11.4 (YES. This will be on the test) q= mCp T = (18.0g)(2.09 J/g-K)(25o) = 940.5 J = (18.0g)(4.18 J/g-K)(100o) = 7524 J = (18.0g)(1.84 J/g-K)(25o) = 828 J 9292.5 J = (1 mol)(6.01 kJ/mol) = 6.01 kJ = (1 mol)(40.67 kJ/mol) = 40.67 kJ 46.68 kJ

  15. 11.5 Vapor Pressure – pressure of a liquid that has evaporated • Dynamic equilibrium – 2 opposite process are occurring simultaneously at equal rates • Volatile – evaporates readily • Normal boiling point – BP at 1 atm ( sea level) • 11.6 Phase Diagrams 1 atm Press. solid liquid gas temp

  16. Vacuum pump

  17. Pressure cooker

  18. Critical temp– highest temp at which a substance can exist as a liquid • Critical pressure– pressure required to bring liquid at this temp • Triple point– all 3 phases in equilibrium

  19. 11.7 • Structure of Solids • A. Crystalline solid– regular repeating pattern • B. Amorphous solid– no repeating patterns

  20. II. Unit Cells– repeating unit of solid • Simple cubic (8 dots) • Body-centered cubic (9 dots) • Face-centered cubic (14 dots)

  21. III. Crystal Lattice– The most confusingly painful thing you’ll learn this year.

  22. 11.8 Bonding in Solids (pg. 464) • Atomic – He • Molecular – Cl2 • Covalent-network – High MP, high MOH’s scale hardness • Ionic – SALT • Metallic -- sea of e-

  23. The End

  24. Allotropes – same element, different arrangement of atoms.graphite

  25. diamond

  26. Buckyball C60

More Related