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(c) McGraw Hill Ryerson 2007 Chemical reactions result in chemical changes. –Chemical changes occur when new substances are created. –The original substance(s),

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Presentation on theme: "(c) McGraw Hill Ryerson 2007 Chemical reactions result in chemical changes. –Chemical changes occur when new substances are created. –The original substance(s),"— Presentation transcript:

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3 (c) McGraw Hill Ryerson 2007 Chemical reactions result in chemical changes. –Chemical changes occur when new substances are created. –The original substance(s), called reactants, change into new substance(s) called products. See pages 202 - 203

4 (c) McGraw Hill Ryerson 2007 See pages 202 - 203

5 (c) McGraw Hill Ryerson 2007 Chemical reactions can be written in different ways. –A word equation: Nitrogen monoxide + oxygen  nitrogen dioxide –A symbolic equation: 2 gg 2 g2NO (g) + O 2(g)  2NO 2(g) STATE OF MATTER - Letters indicate the state of each compound. (aq) = aqueous/dissolved in water (s) = solid ( ) = liquid (g) = gas COEFFICIENTS - Indicates how many of each molecule there is. -Ie: there are 2 molecules of NO.

6 (c) McGraw Hill Ryerson 2007 –No new matter is created or destroyed rearrangedchange partners –No new matter is created or destroyed; atoms are just rearranged as the atoms change partners to form new compounds. 3 –If there are 3 atoms of oxygen in the reactants, there MUST be 3 atoms of oxygen in the products. –Number of each atom in reactants = number of each atom in products. The law of conservation of mass: –Mass of reactants = mass of products

7 The simplest form of chemical equation is a word equation. –Potassium metal + oxygen gas  potassium oxide A skeleton equation shows the formulas of the elements/compounds but NOT in the correct proportions K + O 2  K 2 O

8 balanced chemical equation coefficientsA balanced chemical equation shows all atoms and the coefficients tells us how many molecules (and atoms) there are. ensures number of each atom same on both sides –Balancing ensures that the number of each atom is the same on both sides of the reaction arrow. 42 4K + O 2  2K 2 O K K K K K K K K K K K K K K K K OO O O

9 (c) McGraw Hill Ryerson 2007 count atoms to balanceUsing the law of conservation of mass, we can count atoms to balance the number of atoms in chemical equations. –Word equation: methane + oxygen  water + carbon dioxide –Skeleton equation:CH 4 + O 2  H 2 O + CO 2 To balance the compounds, take note of how many atoms of each element occur on each side of the reaction arrow. See Page 207

10 (c) McGraw Hill Ryerson 2007 Skeleton equation:CH 4 + O 2  H 2 O + CO 2 11 Carbon = 1Carbon = 1 42 Hydrogen = 4Hydrogen = 2 23 Oxygen = 2Oxygen = 3 22 11 Balanced equation:CH 4 + 2O 2  2H 2 O + CO 2 Carbon = 1Carbon = 1 44 Hydrogen = 4Hydrogen = 4 44 Oxygen = 4Oxygen = 4 The same number of atoms must be on each side. See Page 207

11 Balancing Equations ReactantsProducts H22 hydrogen + oxygen  water O 2 O 2  H2OH2OH2OH2O H 2 H 2 +O21

12 Balancing Equations H 2 + O 2  H 2 O 2 ReactantsProducts H22 O22 hydrogen + oxygen  hydrogen peroxide X YOU CANNOT CHANGE THE SUBSCRIPTS

13 Balancing Equations H 2 + O 2  H 2 O ReactantsProducts H22 O21 hydrogen + oxygen  water 2

14 Balancing Equations H 2 + O 2  H 2 O ReactantsProducts H24 O22 hydrogen + oxygen  water 2

15 Balancing Equations 2 2 H 2 + O 2  H 2 O ReactantsProducts H44 O22 hydrogen + oxygen  water 2 (g) (l)

16 (c) McGraw Hill Ryerson 2007 Balance chemical equations by following these steps: –Trial and error will work but can be very inefficient. USE A TABLEUSE A TABLE (write atoms underneath reactants and products) treat polyatomic ions as a groupIf they look the same on both sides of the equation, treat polyatomic ions (such as SO 4 2– ) as a group & balance them as such. write water as HOH.If ‘OH’ and H 2 O are in the equation, write water as HOH. Balance one compound at a time rewrite the # of atoms as things changeBalance one compound at a time & rewrite the # of atoms in the chart as things change. Only add coefficientsOnly add coefficients; NEVER change subscripts!!! H and O LASTIf H and O appear in more than one place, attempt to balance them LAST. –Balance everything that isn’t ‘H’ or ‘O’ 1 st. –Balance the ‘H’s 2 nd to last. –Balance the ‘O’s last. –Always double-check –Always double-check after you think you are finished. –CHECK YOUR ANSWERS!!! See pages 209 - 211

17 Balance the following: –Fe + Br 2  FeBr 3 –Sn(NO 2 ) 4 + K 3 PO 4  KNO 2 + Sn 3 (PO 4 ) 4 –C 2 H 6 + O 2  CO 2 + H 2 O

18 ____Ba + ____H 2 O  ____Ba(OH) 2 + ____H 2 ____CO 2 + ____H 2 O  ____H 2 CO 3 ____Fe 2 O 3 + ____C  ____Fe + ____CO ____Fe + ____H 2 O  ____H 2 + ____Fe 2 O 3

19 (c) McGraw Hill Ryerson 2007 If you don’t transform your word into a skeleton equation properly, you won’t be able to balance the equation correctly. 4 types – Change chemical names into chemical formulas. 4 types: Simple ionic compounds Multivalent ionic compounds Ionic compounds with polyatomic ions Covalent compound special seven Be careful of diatomic elements -- remember the special seven!! H 2, N 2, O 2, F 2, Cl 2, Br 2, I 2 See page 208

20 (c) McGraw Hill Ryerson 2007 See page 208  Several common covalent molecules containing hydrogen have common names that you should know and MEMORIZE!!  methane = CH 4  glucose = C 6 H 12 O 6  ethane = C 2 H 6  ammonia = NH 3

21 (c) McGraw Hill Ryerson 2007 See page 208 Example #1: Word Equation: Solutions of lead nitrate react with potassium iodide to produce solid lead iodide and a solution of potassium nitrate. Skeleton Equation: Pb(NO 3 ) 2(aq) + KI (aq)  PbI 2(s) + KNO 3(aq) Balanced Equation: Pb(NO 3 ) 2(aq) + 2KI (aq)  PbI 2(s) + 2KNO 3(aq) Example #2: Word Equation: Copper reacts with hydrogen nitrate to produce copper (II) nitrate plus hydrogen. Skeleton Equation: Cu + H(NO 3 )  Cu(NO 3 ) 2 + H 2 Balanced Equation: Cu + 2H(NO 3 )  Cu(NO 3 ) 2 + H 2


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