Chemical Reactions UNIT 2 Chapter 4: Developing Chemical Equations

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Chemical Reactions UNIT 2 Chapter 4: Developing Chemical Equations

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Chemical Reactions UNIT 2 Chapter 4: Developing Chemical Equations Chapter 5:Classifying Chemical Reactions Chapter 6:Acids and Bases

Introductory Activity 5.1 : Foiled Again! (Page 177) With a reaction such as the one shown on page 177, answer the following questions. What changes do you observe? Why is this a chemical change? What were the reactants and products? What happens to the mass of reactants and products during the reaction? Copyright © 2010 McGraw-Hill Ryerson Ltd.

5.1 Synthesis and Decomposition Reactions (Page 179) Metal corrosion led to the damage shown in the picture below. The chemical reaction that occurred is illustrated by the following balanced chemical equation. 4Fe(s) + 3O2(g) 2Fe2O3(s) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Evidence of Chemical Change (Page 180) The following images illustrate some examples of evidence that a chemical change has occurred. Gas formation - usually observed as bubbles Precipitate formation – an insoluble solid formed during a reaction Odour change – a new smell being produced Energy production – the production of light or heat by a reaction, or observing cooling by a reaction Copyright © 2010 McGraw-Hill Ryerson Ltd.

Synthesis Reactions (Pages 181-183) A synthesis reaction is a chemical reaction in which two or more reactants combine to produce a new product. Examples of synthesis reactions The production of “smog” N2(g) + O2(g) 2NO2(g) and 2NO(g) + O2(g) 2NO2(g) The “Haber” process to produce ammonia N2(g) + 3H2(g) 2NH3(g) The shuttle “blast off” 2H2(l) + O2(l) 2H2O(g) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Precipitation Reactions Copyright © 2010 McGraw-Hill Ryerson Ltd.

Review your understanding of synthesis reactions. (Page 181) Review your understanding of synthesis reactions. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Decomposition Reactions (Pages 185-186) A decomposition reaction is a chemical reaction in which a compound breaks down (decomposes) into two or more simpler compounds or elements. Examples of decomposition reactions Decomposition of sodium azide 2NaN3(s) 3N2(g) + 2Na(s) The electrolysis of water 2H2O(l) 2H2(g) + O2(g) A TNT Explosion 2C7H5N3O6 (s) 3N2(g) + 5H2O(g) + 7CO(g) + 7C(s) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Decomposition Reactions (Pages 185-186) Review your understanding of decomposition reactions. Copyright © 2010 McGraw-Hill Ryerson Ltd.

5.2 Displacement Reactions (Page 190) Many industrial processes, such as the one used to isolate nickel from the deposits found around Sudbury, rely on a series of chemical reactions that include the displacement of one element by another to form a new compound. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Single Displacement Reactions (Page 191) A single displacement reaction is a chemical reaction in which one element (a reactive metal or non-metal) takes the place of an element in a compound to produce another element and another compound. A + BC AC + B Where A is a metal A + BC BA + C Where A is a non-metal Examples of single displacement reactions Producing zinc chloride (ZnCl2) and hydrogen gas (H2) Zn(s) + 2HCl(aq) ZnCl2 (aq) + H2(g) Producing copper (Cu) metal Mg(s) + CuSO4(aq) MgSO4 (aq) + Cu (s) Displacing silver (Ag) from silver nitrate (AgNO3) Cu(s) + 2AgNO3(aq) Cu(NO3)2(aq) + 2Ag(s) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Activity Series (Page 192) The activity series is a list of elements organized according to their chemical reactivity. The most reactive element appears on the top, and the least reactive appears at the bottom. Remember! Metals can only replace other metals in a reaction, and non-metals can only replace other non-metals. Metals higher up on the activity series list will replace metals lower on the list during a single displacement reaction. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Single Displacement Reactions (Pages 191-194) Review your understanding of single displacement reactions. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Double Displacement Reactions (Pages 195-196) A double displacement reaction is a chemical reaction in which the positive ions of two different compounds exchange places, resulting in the formation of two new compounds – one of which may be a precipitate. Producing silver chromate (AgCrO4(s) ) (the red precipitate) and potassium nitrate (2KNO3(aq)) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Double Displacement Reactions (Pages 195-196) Review your understanding of double displacement reactions. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Na2SO3(aq) + 2HCl(aq) 2NaCl (aq) + H2SO3(aq) Chemical Reactions and Food Preservation (Page 197) Sulfur dioxide (SO2) is used to preserve the colour of dried fruit. A double displacement reaction followed by a decomposition reaction releases the sulfur dioxide gas required for the process. The double replacement reaction Na2SO3(aq) + 2HCl(aq) 2NaCl (aq) + H2SO3(aq) The decomposition reaction H2SO3(aq) H2O(l) + SO2(g) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Summary of Reaction Types (Page 197) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Summary of Reaction Types (Page 197) One additional type of chemical reaction that you will learn about in future studies is a combustion reaction. These reactions always involve a “fuel” reacting with oxygen to release energy. Carbon dioxide and water are also produced by the reaction. Copyright © 2010 McGraw-Hill Ryerson Ltd.

5.3 Reactions and Environmental Issues (Page 199) Although chemical reactions can cause environmental issues, they can also be used to help solve environmental challenges. Copyright © 2010 McGraw-Hill Ryerson Ltd.

2C8H18(l) + 25O2(g) 16CO2(g) + 18H2O(g) Treating Car Exhaust (Pages 200-201) The complete combustion of gasoline in a car’s engine is represented by the following chemical equation. 2C8H18(l) + 25O2(g) 16CO2(g) + 18H2O(g) Incomplete combustion can result in carbon (C) (soot), carbon monoxide (CO), and nitrogen oxides (NO2 and NO3) entering the air. A catalytic converter installed in a vehicle’s exhaust system can help reduce the amounts of these pollutants in the atmosphere. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Recovering Gold using Cyanide and Zinc (Pages 202-203) Cyanide ions (CN-) are used to extract gold from rock or ore. 4Au(s) + 8NaCN(aq) + O2(g) + 2H2O (l) 4Na[Au(CN)2](aq) + 4NaOH(aq) Leaching, a technique that removes gold by dissolving it in an aqueous solution, is used to drain the gold away from the ore. Zinc (Zn) can then be used in a single displacement reaction to displace the gold from the solution. 2Na[Au(CN)2](aq) + Zn(s) 2NaCN(aq) + Zn(CN)2(aq) + 2Au(s) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Cleaning and Disinfecting Pools (Page 203) A variety of compounds containing chlorine (Cl) are used to prevent the growth of bacteria and other organisms in the water in swimming pools and hot tubs. Care must be taken when using these chemicals to ensure that they are effective in disinfecting the water but remain safe for the users. Copyright © 2010 McGraw-Hill Ryerson Ltd.

Hazards in the Home (Pages 204-205) Precautions must be taken when using household chemicals. When mixed, reactions could occur that might be detrimental to the user’s health. Copyright © 2010 McGraw-Hill Ryerson Ltd.

+ = Bleach and Ammonia – A Toxic Combination (Page 205) The mixing of bleach (NaClO) (a compound containing chlorine), and ammonia (NH3) can have dire consequences. 2NH3(aq) + 2NaClO(aq) 2NaONH3 (aq) + Cl2(g) Toxic chlorine gas (Cl2) is produced in this reaction. Two other ammonia and bleach reactions produce toxic compounds called chloramines (NCl3(g) and NH2Cl(g)). NH3(aq) + 3NaClO(aq) 3NaOH(aq) + NCl3(g) NH3(aq) + NaClO(aq) NaOH(aq) + NH2Cl(g) + = TROUBLE Ammonia Copyright © 2010 McGraw-Hill Ryerson Ltd.

Chemical Safety (Page 204) Be familiar with the WHMIS and HHPS symbols that identify the hazards associated with the handling and use of chemicals at home and in the workplace. Hazardous Household Product Symbols (HHPS) Workplace Hazardous Materials Information System (WHMIS) Copyright © 2010 McGraw-Hill Ryerson Ltd.

Concepts to be reviewed: Section 5.3 Review (Page 206) Concepts to be reviewed: the use of catalytic converters to help combat exhaust pollutants the chemical reactions involved in gold extraction the hazards involved in the use and handling of household chemicals safe practices for the handling and use of chemicals familiarity with WHMIS and HPPS symbols and warnings Copyright © 2010 McGraw-Hill Ryerson Ltd.