Chapter 14 Liquids & Solids

1. Chapter 14Liquids & Solids 14.1 – Intermolecular Forces

2. 14.1 - Intermolecular Forces Intermolecular forces vs. intramolecular forces

3. 14.1 - Intermolecular Forces Intermolecular forces vs. intramolecular forces Intramolecular forces = bonds that hold molecules together

4. 14.1 - Intermolecular Forces Intermolecular forces vs. intramolecular forces Intramolecular forces = bonds that hold molecules together Intermolecular forces = forces that occur between molecules

5. 14.1 - Intermolecular Forces (3) Types of intermolecular forces discussed in this chapter: • Dipole-dipole attraction

6. 14.1 - Intermolecular Forces Dipole Dipole Attraction Molecules with dipole moments can attract each other by lining up so that their positive and negative ends are close to each other.

7. 14.1 - Intermolecular Forces Dipole-dipole attraction

8. 14.1 - Intermolecular Forces (3) Types of intermolecular forces discussed in this chapter: • Dipole-dipole attraction • Hydrogen bonding

9. 14.1 - Intermolecular Forces Hydrogen bonding • A type of dipole dipole attraction

10. 14.1 - Intermolecular Forces Hydrogen bonding • A type of dipole dipole attraction • Stronger than ordinary dipole dipole attractions

11. 14.1 - Intermolecular Forces Hydrogen bonding • A type of dipole dipole attraction • Stronger than ordinary dipole dipole attractions • Occurs between molecules in which hydrogen is bound to a highly electronegative atome.g. N, O, F

12. 14.1 - Intermolecular Forces Hydrogen bonding Two reasons why so strong:

13. 14.1 - Intermolecular Forces Hydrogen bonding Two reasons why so strong: • High polarity

14. 14.1 - Intermolecular Forces Hydrogen bonding Two reasons why so strong: • High polarity • Close approach of dipoles due to very small size of Hydrogen atom

15. 14.1 - Intermolecular Forces (3) Types of intermolecular forces discussed in this chapter: • Dipole-dipole attraction • Hydrogen bonding • London dispersion forces

16. 14.1 - Intermolecular Forces London dispersion forces • Intermolecular attractions formed from temporary dipolar arrangement

17. 14.1 - Intermolecular Forces London dispersion forces • Intermolecular attractions formed from temporary dipolar arrangement • Form between noble gase and nonpolar moleclese.g. Argon, N2

18. 14.1 - Intermolecular Forces London dispersion forces

19. 14.1 - Intermolecular Forces London dispersion forces

20. 14.1 - Intermolecular Forces London dispersion forces • Weak and short-lived, but can be very significant for large atoms and molecules

21. 14.1 - Intermolecular Forces London dispersion forces • Weak and short-lived, but can be very significant for large atoms and molecules • Attractions stronger with larger sized atoms because more electrons are available to form dipoles

22. 14.1 - Intermolecular Forces London dispersion forces • Weak and short-lived, but can be very significant for large atoms and molecules • Attractions stronger with larger sized atoms because more electrons are available to form dipoles • Motions of atoms must be greatly slowed down before the LDF can lock the atoms into place to produce a solid