Access to HE Diploma

1. Access to HE Diploma • Pharmacy and Biomedical Science • Introduction to Matter • Lesson 6

2. Hand in homework • Moles, Formulae and Equations workbook.

3. Assessment Criteria • 1.1 Define an element giving examples. • 1.2 Write the names and symbols of the first 20 elements. • 1.3 Describe and explain what some of the general physical properties of metals and non-metals are • 1.4 Describe the relative position of metals, non-metals, groups and periods within the periodic table with examples. • 2.1 Classify substances as elements or compounds from their names giving examples • 2.2 Describe two differences between a compound and a mixture • 3.1 Describe protons, neutrons and electrons in terms of their relative charges and relative masses. • 3.2 Describe the distribution of mass and charge within an atom. • 3.3 Describe the contribution of protons and neutrons to atomic nuclei in terms of atomic number and mass number. • 3.4 Deduce the electronic configurations of atoms up to z = 36 and ions, given the atomic number and charge, limited to s and p blocks up to Z= 36. • 4.1 Describe ionic bonding as the electrostatic attraction between two oppositely charged ions including dot and cross diagrams. • 4.2 Describe a covalent bond as a pair of electrons shared between two atoms • 4.3 Write the formulae for some simple and some complex compounds • 4.4 Describe and interpret and/or predict physical properties in terms of the types motion and arrangement of particles (atoms, molecules and ions) and the forces between them, and the different types of bonding. • 5.1 Describe an acid as a species that can donate a proton. • 5.2 Describe a base as a species that can accept a proton • 5.3 Describe the reaction of an acid typified by hydrochloric acid with metals, carbonates bases and alkalis and interpret them using ionic equations to emphasise the role of H+(aq) • 5.4 Write a balanced equation for the reaction between two elements and between an acid and a base • 6.1 Construct balanced chemical equations, full and ionic

4. Review Activity acid + metal carbonate →

5. Review Activity Write a balanced equation for the reaction between two elements Write a balanced equation for the reaction between an acid and a base

6. Today’s Aim • Understand that chemical reactions can be represented by chemical equations

7. Week 6 • 6.1 Construct balanced chemical equations, full and ionic

8. Week 6 Reading • Access to Chemistry • Alan Jones, Mike Clement, AvrilHigton Elaine Goulding • ISBN 0 -85404-564-3 Inside the atom Pages 83 - 118

9. AgNO3 (aq) + NaCl(aq) AgCl(s) + NaNO3(aq) What happens when you put AgNO3 and NaCl in water?

10. AgNO3 (aq) +NaCl(aq) AgCl(s) + NaNO3(aq) What really happens when you put AgNO3 and NaCl in water?

11. KEY POINT: NaCl(aq) really means: Na +1(aq) + Cl-1(aq) “dissociated ions” or “ions in solution”

12. What is Dissolving ? When an ionic compound (eg salt) dissolves in water, the compound disassociates. (breaks apart into cations and anions) Ex: Ca(NO3)2(s)Ca2+(aq) + 2NO3-(aq) When a covalent compound (eg sugar) dissolves in water, the molecules simply disperse; they do not disassociate. Molecules of the covalent compounds simply disperse due to attraction with polar water molecules.

13. An Ionic Compound Dissolves: A Covalent Compound Dissolves:

14. KEY POINT: Mg(NO3)2(aq) really means: Mg +2(aq) + (NO3) -1(aq) 2 “dissociated ions” or “ions in solution”

15. KEY POINT: AgCl (s) really means: AgCl (s) Solid Silver (I) Chloride.

16. AgNO3 (aq) + NaCl(aq) AgCl(s) + NaNO3(aq) What happens when you put AgNO3 and NaCl in water?

17. AgNO3 NaCl

18. NO3- Na+ Ag+ Cl-

19. Na+ NO3- Ag+ Cl-

20. Na+ NO3- AgCl

21. Na+ NO3- AgCl(s) precipitate AgCl

22. NO3- Na+ NO3- NO3- Na+ Na+ Na+ NO3- NO3- Na+ Na+ Na+ NO3- NO3- Na+ NO3- Na+ AgCl(s)

23. AgNO3 (aq) + NaCl(aq) AgCl(s) + NaNO3(aq) complete ionic equation

24. AgCl Na+ NO3- Reaction

25. No Reaction Na+ NO3- AgCl

26. These ions do not participate in the reaction. They are called SPECTATOR IONS Na+ NO3- AgCl

27. The net ionic equation is constructed from the complete ionic equation:

28. NO3- and Na+ are not participating in the reaction

29. net ionic equation

30. net ionic equation

31. Complete molecular equation- • describes double replacement reaction • Complete ionic equation- • more accurately shows the reacting species as ions and the products either as ions or a precipitate • Net ionic equation- • focuses only on the ions REACTING • Spectator ions are those ions that do NOT participate in the reaction

32. PREDICTING THE FORMATION OF A PRECIPITATE • Consider the possibility that a precipitate may form. • Must use the solubility table. • Possible outcomes • No visible reaction (nvr) • Formation of one ppt. • Formation of two ppt. (rare occurrence)

33. Basic Chemical equation AgNO3(aq) + KCl(aq)AgCl(s) + KNO3(aq) Complete ionic equation shows ions in solution Ag+ (aq)+NO3(aq) + K+ (aq)+Cl-(aq)AgCl(s) + K+ (aq) + NO3-(aq) Net ionic equation shows ions in rxn Ag+ (aq)+Cl-(aq)AgCl(s) (leave out spectator ions) link

34. Review Week 6 6.1 Construct balanced chemical equations, full and ionic

35. Workbook • Complete section

36. Next Week • Exam