Chemistry! – Reactions!

1. Chemistry! – Reactions!

2. Forming Compounds • When two atoms get close together, their valence electrons interact. • Each atom in the compound attempts to have the stable number of valence electrons as the nearest noble gas. Metals may lose electrons and non-metals may gain electrons to form an IONIC BOND (IONIC BONDS ONLY OCCUR BETWEEN METALS AND NON-METALS)

3. Ionic bonds are formed between positive ions and negative ions. • Generally, this is a metal (+) and a non-metal (-) ion. • For example, lithium and oxygen form an ionic bond in the compound Li2O. + Electrons are transferred from the positive ions to negative ions Li+ O2- Li+ lithium oxide, Li2O oxygen lithium See pages 176 - 177 (c) McGraw Hill Ryerson 2007

4. The Chemical Name and Formula of an Ionic Compound (continued) • Writing formulas for ionic compounds: • In an ionic compound, the positive charges balance out the negative charges. • ***ELECTRONS ARE TRANSFERRED FROM ATOMS. THEY CAN’T BE CREATED OR DESTROYED!**** • The ratio of positive:negative charges gives the proper formula. • The ratio is always written in reduced form.

5. The Chemical Name and Formula of an Ionic Compound (continued) • For example, what is the formula for magnesium phosphide? • magnesium is Mg2+ phosphorous is P3– • Lowest common multiple of 2 and 3 is 6 • 3 Mg2+ ions and 2 P3– ions • Mg3P2 See page 188 (c) McGraw Hill Ryerson 2007

6. Formula of an Ionic Compound with a Multivalent Metal For example, what is the formula manganese (III) sulphide? • This manganese is Mn3+. sulfur is S2– See pages 189 - 191 (c) McGraw Hill Ryerson 2007

7. Formula of an Ionic Compound with a Multivalent Metal For example, what is the formula manganese (III) sulphide? • This manganese is Mn3+. sulfur is S2– • Lowest common multiple of 3 and 2 is 6 • 2 Mn3+ ions and 3 S2– ions (6 electrons) Mn3+ S2– Mn2S3 • Mn2S3 See pages 189 - 191 (c) McGraw Hill Ryerson 2007

8. Polyatomic Ions • Some ions, called polyatomic ions, are made up of several atoms joined together with bonds. THEY ARE LIKE ONE PACKAGE THAT ALL SHARES THE CHARGE. See pages 192 - 193 (c) McGraw Hill Ryerson 2007

9. Polyatomic Ions • What is the formula of sodium sulphate? See pages 192 - 193 (c) McGraw Hill Ryerson 2007

10. Polyatomic Ions • What is the formula of sodium sulphate? Na+ and SO42– Na2SO4 See pages 192 - 193 (c) McGraw Hill Ryerson 2007

11. Covalent bonds are formed between two or more non-metals. • Electrons are shared between atoms. + Hydrogen fluoride hydrogen electrons are shared fluorine See pages 176 - 177 (c) McGraw Hill Ryerson 2007

12. Writing and Balancing Chemical Equations • The simplest form of chemical equation is a word equation. • Potassium metal + oxygen gas  potassium oxide See page 206 (c) McGraw Hill Ryerson 2007

13. Writing and Balancing Chemical Equations • A skeleton equation shows the formulas of the elements/compounds. • A skeleton equation shows atoms, but not quantities of atoms. • K + O2 K2O See page 206 (c) McGraw Hill Ryerson 2007

14. Writing and Balancing Chemical Equations • A balanced chemical equation shows all atoms and their quantities • Balancing ensures that the number of each atom is the same on both sides of the reaction arrow. • Always use the smallest whole-number ratio. See page 206 (c) McGraw Hill Ryerson 2007

15. Writing and Balancing Chemical Equations • A balanced chemical equation shows all atoms and their quantities • Balancing ensures that the number of each atom is the same on both sides of the reaction arrow. • Always use the smallest whole-number ratio. Skeleton: K + O2 K2O 4K + O2 2K2O See page 206 (c) McGraw Hill Ryerson 2007

16. Types of Chemical Reactions:

17. Factors Affecting the Rate of Chemical Reactions • To make a reaction happen quickly: • Increase the temperature where the reaction occurs • Increase the concentration of reactants • Increase the amount of surface area that reacts • Add a catalyst, or remove an inhibitor