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11/11/15 ll ork Complete all Bell Work for the week on a sheet of paper. Turn it in by Friday!! 2: How many grams of Cu were used in the.

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Presentation on theme: "11/11/15 ll ork Complete all Bell Work for the week on a sheet of paper. Turn it in by Friday!! 2: How many grams of Cu were used in the."— Presentation transcript:

1 11/11/ ll ork Complete all Bell Work for the week on a sheet of paper. Turn it in by Friday!! 2: How many grams of Cu were used in the previous reaction? 3: What do we call it when atoms rearrange? 1: How many moles of O2 are used, if 3 moles of CuO are produced in the following reaction? 2Cu(s)+O2(g) 2CuO(s)

2 The walls of this cave are limestone
The walls of this cave are limestone. When hydrochloric acid is dropped on limestone, a chemical reaction occurs that produces a gas. Geologists use this reaction to determine whether a rock sample contains the mineral calcium carbonate, CaCO3.

3 Classifying Reactions
What are the general types of chemical reactions? Some general types of chemical reactions are synthesis reactions, decomposition reactions, single-replacement reactions, double-replacement reactions, and combustion reactions.

4 Classifying Reactions
Just as you can classify matter into different types, you can classify chemical reactions into different types. Reactions are often classified by the type of reactant or the number of reactants and products.

5 Classifying Reactions
Synthesis A synthesis reaction is a reaction in which two or more substances react to form a single substance. The reactants may be either elements or compounds. The product synthesized is always a compound. The general equation for a synthesis reaction is A + B  AB

6 Classifying Reactions
Sodium metal reacts vigorously with chlorine to form sodium chloride, NaCl. 2Na + Cl2  2NaCl Another synthesis reaction is hydrogen and oxygen reacting to form water. 2H2 + O2  2H2O

7 Classifying Reactions
Decomposition A decomposition reaction is a reaction in which a compound breaks down into two or more simpler substances. The reactant in a decomposition reaction must be a compound. The products may be elements or compounds. The general equation for a decomposition reaction is AB  A + B

8 Classifying Reactions
When electricity passes through water, the water decomposes into hydrogen gas and oxygen gas. 2H2O  2H2 + O2 Cement factories use a giant kiln, or oven, to heat a mixture of clay and limestone. The heat causes the calcium carbonate in the limestone to decompose into lime, CaO, and carbon dioxide. CaCO3  CaO + CO2

9 Classifying Reactions
Single Replacement A single-replacement reaction is a reaction in which one element takes the place of another element in a compound. Single-replacement reactions have the general form A + BC  B + AC

10 Classifying Reactions
As copper replaces silver in the silver nitrate solution in a single-replacement reaction, the solution turns blue, and silver crystals form on the wire. Cu + 2AgNO3  2Ag + Cu(NO3)2

11 Classifying Reactions
Potassium reacts with water in a single-replacement reaction that produces hydrogen gas and potassium hydroxide. 2K + 2H2O  H2 + 2KOH The heat produced by this chemical reaction causes the hydrogen gas to ignite explosively.

12 Classifying Reactions
Double Replacement A double-replacement reaction is one in which two different compounds exchange positive ions and form two new compounds. The general form of a double replacement reaction is AB + CD  AD + CB Two replacements take place in this reaction. A replaces C, and C replaces A.

13 Classifying Reactions
When potassium iodide solution is poured into a solution of lead(II) nitrate, a double-replacement reaction takes place. Lead(II) iodide forms as a yellow precipitate. Potassium nitrate remains in solution. Pb(NO3)2 + 2KI  PbI2 + 2KNO3

14 Classifying Reactions
When geologists test the calcium carbonate content in a rock, they use a double-replacement reaction. CaCO3 + 2HCl  CaCl2 + H2CO3 The product carbonic acid,H2CO3, then decomposes into carbon dioxide gas and water. H2CO3  CO2 + H2O

15 Classifying Reactions
Combustion A combustion reaction is one in which a substance reacts rapidly with oxygen, often producing heat and light. The main component of natural gas is methane. When methane burns in oxygen, a combustion reaction occurs. CH4 + 2O2  CO2 + 2H2O

16 Classifying Reactions
A Bunsen burner generates heat and light by the combustion of natural gas.

17 Classifying Reactions
The reaction of hydrogen and oxygen is a combustion reaction. 2H2 + O2  2H2O You could also classify this reaction as the synthesis of water. The classifications for chemical reactions sometimes overlap.

18 11/12/15 ll ork 2: A+B -> AB is what type of reaction?
Complete all Bell Work for the week on a sheet of paper. Turn it in by Friday!! 2: A+B -> AB is what type of reaction? 3: AB+C -> AC +B is what type of reaction? 1: What are the 5 types of chemical reactions we learned yesterday?

19 Reactions as Electron Transfers
How did the discovery of subatomic particles affect the classification of reactions? The discovery of subatomic particles enabled scientists to classify certain chemical reactions as transfers of electrons between atoms.

20 Reactions as Electron Transfers
A reaction in which electrons are transferred from one reactant to another is called an oxidation-reduction reaction, or redox reaction.

21 Reactions as Electron Transfers
Oxidation For a long time, people have known that metals react with oxygen. Calcium reacts with oxygen and forms calcium oxide (CaO). Iron reacts with oxygen and forms rust, or iron(III) oxide (Fe2O3). These types of synthesis reactions, in which a metal combines with oxygen, have been classified as oxidations.

22 Reactions as Electron Transfers
Calcium oxide, or lime, is produced when calcium burns in the presence of oxygen. In this reaction, the calcium is oxidized and the oxygen is reduced. 2Ca + O2  2CaO

23 Reactions as Electron Transfers
Each neutral calcium atom loses two electrons and becomes a calcium ion with a charge of 2+. Ca  Ca2+ + 2e– Any process in which an element loses electrons during a chemical reaction is called oxidation. Oxygen doesn’t have to be present in order for an element to lose electrons.

24 Reactions as Electron Transfers
Reduction The process in which an element gains electrons during a chemical reaction is called reduction. As calcium atoms lose electrons during the synthesis of calcium oxide, the oxygen atoms gain electrons. As each neutral oxygen atom gains two electrons, it becomes an ion with a charge of 2–. O + 2e–  O2–

25 Reactions as Electron Transfers
Oxidation and reduction always occur together. When one element loses electrons, another element must gain electrons. A reactant is said to be reduced if it gains electrons. A reactant is oxidized if it loses electrons. Oxidation-reduction reactions do not always involve complete transfers of electrons. For example, in the synthesis of water, hydrogen is oxidized, and oxygen is reduced, but the transfer of electrons is only partial.

26 Assessment Questions Which of these statements best describes a double-replacement reaction? Two different compounds exchange positive ions and form two new compounds. An element takes the place of another element in a compound. One compound breaks down into two or more simpler substances. Two or more substances react to form a single substance.

27 Assessment Questions Which of these statements best describes a double-replacement reaction? Two different compounds exchange positive ions and form two new compounds. An element takes the place of another element in a compound. One compound breaks down into two or more simpler substances. Two or more substances react to form a single substance. ANS: A

28 Assessment Questions Which of the following statements about oxidation-reduction reactions is true? Oxidation-reduction reactions always involve a transfer of protons between atoms. Oxidation is the process in which electrons are gained. Oxidation and reduction always occur together. Oxidation-reduction reactions always involve oxygen as one of the reactants.

29 Assessment Questions Which of the following statements about oxidation-reduction reactions is true? Oxidation-reduction reactions always involve a transfer of protons between atoms. Oxidation is the process in which electrons are gained. Oxidation and reduction always occur together. Oxidation-reduction reactions always involve oxygen as one of the reactants. ANS: C


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