SINGLE AND DOUBLE REPLACEMENT REACTIONS EXPERIMENT 10

Similar documents
Experiment 8 - Double Displacement Reactions

EXPERIMENT 8: Activity Series (Single Displacement Reactions)

General Chemistry Lab Experiment 6 Types of Chemical Reaction

Experiment 5. Chemical Reactions A + X AX AX A + X A + BX AX + B AZ + BX AX + BZ

Balancing Chemical Equations Worksheet

Tutorial 4 SOLUTION STOICHIOMETRY. Solution stoichiometry calculations involve chemical reactions taking place in solution.

Santa Monica College Chemistry 11

Experiment 1 Chemical Reactions and Net Ionic Equations

Chapter 8: Chemical Equations and Reactions

6 Reactions in Aqueous Solutions

2. DECOMPOSITION REACTION ( A couple have a heated argument and break up )

Molarity of Ions in Solution

Lab #13: Qualitative Analysis of Cations and Anions

Chemistry Themed. Types of Reactions

Stoichiometry Review

1. Read P , P & P ; P. 375 # 1-11 & P. 389 # 1,7,9,12,15; P. 436 #1, 7, 8, 11

Chapter 6 Notes Science 10 Name:

NAMING QUIZ 3 - Part A Name: 1. Zinc (II) Nitrate. 5. Silver (I) carbonate. 6. Aluminum acetate. 8. Iron (III) hydroxide

Chapter 16: Tests for ions and gases

Writing and Balancing Chemical Equations

David A. Katz Chemist, Educator, Science Communicator, and Consultant Department of Chemistry, Pima Community College

CHEMICAL DETERMINATION OF EVERYDAY HOUSEHOLD CHEMICALS

Chemical Equations. Chemical Equations. Chemical reactions describe processes involving chemical change

Steps for balancing a chemical equation

Solution a homogeneous mixture = A solvent + solute(s) Aqueous solution water is the solvent

Unit 10A Stoichiometry Notes

Chemistry Ch 15 (Solutions) Study Guide Introduction

Chapter 7: Chemical Reactions

Chemistry: Chemical Equations

Decomposition. Composition

Types of Reactions. CHM 130LL: Chemical Reactions. Introduction. General Information

H 2 + O 2 H 2 O. - Note there is not enough hydrogen to react with oxygen - It is necessary to balance equation.

Solution. Practice Exercise. Concept Exercise

1. Qualitative Analysis of Chromium, Iron, and Copper

Chapter 8 - Chemical Equations and Reactions

Balancing Chemical Equations Practice

Name: Class: Date: 2 4 (aq)

Department of Chemical Engineering Review Sheet Chemical Reactions Prepared by Dr. Timothy D. Placek from various sources

CHEMICAL REACTIONS. Chemistry 51 Chapter 6

Moles. Moles. Moles. Moles. Balancing Eqns. Balancing. Balancing Eqns. Symbols Yields or Produces. Like a recipe:

SCH 4C1 Unit 2 Problem Set Questions taken from Frank Mustoe et all, "Chemistry 11", McGraw-Hill Ryerson, 2001

Experiment 16-Acids, Bases and ph

Physical Changes and Chemical Reactions

GCSE Chemistry. Making Salts Instructions and answers for teachers

Redox and Electrochemistry

UNIT (4) CALCULATIONS AND CHEMICAL REACTIONS

Formulae, stoichiometry and the mole concept

NET IONIC EQUATIONS. A balanced chemical equation can describe all chemical reactions, an example of such an equation is:

Chapter 5. Chemical Reactions and Equations. Introduction. Chapter 5 Topics. 5.1 What is a Chemical Reaction

CHEMICAL REACTIONS AND REACTING MASSES AND VOLUMES

Writing Chemical Equations

Aqueous Solutions. Water is the dissolving medium, or solvent. Some Properties of Water. A Solute. Types of Chemical Reactions.

Aqueous Chemical Reactions

1. When the following equation is balanced, the coefficient of Al is. Al (s) + H 2 O (l)? Al(OH) 3 (s) + H 2 (g)

Aqueous Ions and Reactions

Balancing chemical equations

Chemical Equations and Chemical Reactions. Chapter 8.1

Number of moles of solute = Concentration (mol. L ) x Volume of solution (litres) or n = C x V

EDULABZ. Na 2 + H 2 CO 3. O + CO 2 (b) CaO + H 2. + NaCl AgCl + NaNO 3 3. Which of the following reactions does not take place?

Chemistry 51 Chapter 8 TYPES OF SOLUTIONS. A solution is a homogeneous mixture of two substances: a solute and a solvent.

Figure 1. A voltaic cell Cu,Cu 2+ Ag +, Ag. gas is, by convention, assigned a reduction potential of 0.00 V.

80. Testing salts for anions and cations

Periodic Table, Valency and Formula

Chapter 4 Chemical Reactions

General Chemistry II Chapter 20

Reactions in Aqueous Solution

Atomic Structure. Name Mass Charge Location Protons 1 +1 Nucleus Neutrons 1 0 Nucleus Electrons 1/ Orbit nucleus in outer shells

Solubility Product Constant

Balancing Chemical Equations

Chapter 11. Electrochemistry Oxidation and Reduction Reactions. Oxidation-Reduction Reactions. Oxidation-Reduction Reactions

The Empirical Formula of a Compound

W1 WORKSHOP ON STOICHIOMETRY

neutrons are present?

2. Write the chemical formula(s) of the product(s) and balance the following spontaneous reactions.

Monatomic Ions. A. Monatomic Ions In order to determine the charge of monatomic ions, you can use the periodic table as a guide:

PART I: MULTIPLE CHOICE (30 multiple choice questions. Each multiple choice question is worth 2 points)

Complexometric Titrations

Moles. Balanced chemical equations Molar ratios Mass Composition Empirical and Molecular Mass Predicting Quantities Equations

ELECTROCHEMICAL CELLS LAB

MOLARITY = (moles solute) / (vol.solution in liter units)

Appendix D. Reaction Stoichiometry D.1 INTRODUCTION

Writing, Balancing and Predicting Products of Chemical Reactions.

Chem 1100 Chapter Three Study Guide Answers Outline I. Molar Mass and Moles A. Calculations of Molar Masses

EXPERIMENT 7 Reaction Stoichiometry and Percent Yield

Properties of Acids and Bases

stoichiometry = the numerical relationships between chemical amounts in a reaction.

IB Chemistry. DP Chemistry Review

Instructions Answer all questions in the spaces provided. Do all rough work in this book. Cross through any work you do not want to be marked.

CHM1 Review for Exam 12

Molar Mass Worksheet Answer Key

MOLES AND MOLE CALCULATIONS

Chapter 6: Writing and Balancing Chemical Equations. AB A + B. CaCO3 CaO + CO2 A + B C. AB + C AC + B (or AB + C CB + A)

ATOMS. Multiple Choice Questions

Experiment 12- Classification of Matter Experiment

Name period AP chemistry Unit 2 worksheet Practice problems

HOMEWORK 4A. Definitions. Oxidation-Reduction Reactions. Questions

Electrochemistry - ANSWERS

Limiting Reagent Worksheet #1

Unit 9 Stoichiometry Notes (The Mole Continues)

Transcription:

SINGLE AND DOUBLE REPLACEMENT REACTIONS EXPERIMENT 10 OBJECTIVE The objective of this experiment is to observe double and single replacement reactions and to predict the activity of metals using experimental results. EQUIPMENT AND CHEMICALS Zinc, Copper and Lead metal strips 0.1 M Sodium carbonate [Na 2 CO 3 ] 0.1 M Barium chloride [BaCl 2 ] 0.1 M Sodium sulfate [Na 2 SO 4 ] 0.1 M Silver nitrate [AgNO 3 ] 0.1 M Lead (ll) nitrate [Pb(NO 3 ) 2 ] 0.1 M Copper (ll) nitrate [Cu(NO 3 ) 2 ] 0.1 M Magnesium nitrate [Mg(NO 3 ) 2 ] 0.1 M Zinc nitrate [Zn(NO 3 ) 2 ] 0.1 M Sodium chloride [NaCl] 0.1 M Potassium chromate [K 2 CrO 4 ] 0.1 M Calcium chloride [CaCl 2 ] 6 M Hydrochloric acid [HCl] 6 M Sodium hydroxide [NaOH] 6 M Sulfuric acid [H 2 SO 4 ] 5% Acetic acid [HC 2 H 3 O 2 ] 5% Sodium bicarbonate [NaHCO 3 ] Emory cloth Small test tubes [8] Graduated cylinder [10 ml] Eyedroppers Unknowns DISCUSSION Chemical equations represent chemical changes (reactions) that actually occur. A chemical equation consists of two parts: 1) the reactants (starting materials), and 2) products (the resulting materials). Reactant A + Reactant B Product A + Product B + etc... The major problem in writing a chemical equation is predicting what products will be produced in the reaction. To determine what reactions will take place, we carry out experimental work (experiments). Using the experimental data (information) obtained from the experiments, we can predict, to some extent, what chemical compounds will react with other compounds to produce products. Types of chemical equations can be classified in five types of reactions of which we will only cover three: single replacement, double replacement, and neutralization reactions. The five types of reactions are: decomposition (C A + B) combination (A + B C) single replacement (A + BX double replacement (ZA + BX oxidation reduction B + AX) BA + ZX) 99

SINGLE REPLACEMENT REACTIONS In a single replacement reaction, one element reacts with a compound to produce a new compound, and displaces an element in the original compound. A + BX B + AX (single replacement reaction) If A is a metal, it will replace the element B in the compound BS to form a new compound AX. The element B is now a free metal. The reaction will occur if A is more active than the element B. We can experimentally establish this "pecking" order. By knowing which elements are at the top of the list, we can predict whether or not a reaction will occur. The elements on the top of the list (left side) will replace any element underneath it (right side) on the list. increasing reactivity K Ca Al Fe Sn Hg Pt For example, if Ca metal was placed in a solution of tin (ll) nitrate, the Ca would dissolve and the tin metal would come out of solution. This is a typical single replacement reaction. Ca + Sn(NO 3 ) 2 Sn + Ca(NO 3 ) 2 If the free metal is lower on the list (less reactive) than the metal attached to the anion, no reaction would occur (NR). Pt + FeCl 2 By setting up numerous reactions of the type, an activity series can be determined. DOUBLE REPLACEMENT REACTIONS In a double replacement reaction, two compounds react with each other to produce two new compounds. In this type of reaction, the metals just exchange positions. NR AX + BZ BX + AZ (double replacement reaction) The metal is on A replaces the metal ion B and vice versa. To determine whether a reaction takes places, some form of physical change must be observed. The most typical types of changes are: 100

precipitate (solid comes out of solution) gas evolved (bubbles) change in temperature (hot or cold) change in colour Sometimes reactions take place very slowly and no physical changes are rapidly observed. In this case more complicated techniques, which are out of the scope of this experiment, must be employed. Typical examples of double replacement reactions are: BaCl 2 + 2AgNO 3 Ba(NO 3 ) 2 + AgCl HCl + ZnS CaO + 2HCl ZnCl 2 + H 2 S CaCl 2 + H 2 O + heat NEUTRALIZATION REACTIONS KSCN + FeCl 3 FeSCN + KCl (unbalanced) (changes from yellow to deep red) Neutralization reactions are really double replacement reactions but are unique. Neutralization occurs when an acidic compound (contains H + ) reacts with a basic compound (OH - ) to produce a salt and water. Normally these types of reactions proceed with a change in temperature. HX + BOH BX + HOH A typical example of this is the addition of HCl with NaOH. HCl + NaOH NaCl + HOH + heat The salt formed is sodium chloride (NaCl) and water (HOH). PROCEDURE PART A - SINGLE REPLACEMENT REACTIONS In a single replacement reaction, an element replaces another element in a compound. Evidence of reaction is a gas being evolved, a change in colour of the solution, metals being deposited on the elemental metal, or precipitates. 1. Obtain six pieces of an unknown metal from your instructor and record the unknown number on your Report Sheet. 2. Obtain six pieces of Zn metal, six pieces of Pb metal, six pieces of Cu metal, and six pieces of unknown from the chemical bench. 101

3. Polish each piece (including your unknown) with a piece of emory cloth. This will remove any oxides and expose the metal surfaces. 4. Label four (4) small tubes as (1) Zn (2) Pb (3) Cu (4) UNK 5. Add 5 ml of 0.1M AgNO 3 to each tube. Add a piece of metal to each test tube that corresponds to the label on the test tube. Allow ten minutes for each reaction. Record results on Report Sheet. 6. Label a second set of small test tubes (1) Zn (2) Pb (3) Cu (4) Unknown 7. Add 5 ml of 0.1M Cu(NO 3 ) 2 to each tube and add the metal pieces to the corresponding test tubes. Report any reactions on your Report Sheet. 8. Clean and rinse the first set of test tubes that were used in Step 4. Repeat the experiment using 5 ml of 0.1M Pb(NO 3 ) 2. Report any reactions on your Report Sheet. 9. Clean and rinse the second set of test tubes that were used in Step 6. Repeat the experiment using 5 ml of 0.1 Mg(NO 3 ) 2. Report any reactions on your Report Sheet. 10. Clean and rinse the set of test tubes used in Step 8. Repeat the experiment using 5 ml of 6M H 2 SO 4. Report any reactions on your Report Sheet. 11. Clean and rinse the set of test tubes used in Step 9. Repeat the experiment using 5 ml of 0.1M Zn(NO 3 ) 2. 12. Using the data obtained from Steps 1-11, write a balanced equation for each reaction that showed evidence of a single replacement reaction. Use NR for any non-reactions. 13. Based on the data, assign an activity order to each of the metals and solutions tested. PART B - DOUBLE REPLACEMENT REACTIONS Double replacement reactions involve two compounds with the positive cation of one compound exchanging positions with the cation of the other compound. In order to recognize whether or not a reaction takes place, a precipitate, a change in temperature, or gas evolution must be observed. 102

1. Add 3 ml of 0.1M NaCl to a small test tube. Add an additional 3 ml of 0.1M AgNO 3 to the test tube. Observe any changes that occur and record on your Report Sheet. Remember to feel the test tube for any change in temperature. 2. Add 3 ml of 0.1M Pb(NO 3 ) 2 to a small test tube. Add an additional 3 ml of 0.1M K 2 CrO 4 solution. Observe any changes and record on your Report Sheet. 3 Add 3 ml of 0.1M CaCl 2 to a small test tube. Add an additional 3 ml of 0.1M Na 2 CO 3. Record any observations on your Report Sheet. 4. Add 3 ml of 0.1M BaCl 2 to the small test tube. Add an additional 3 ml of 0.1M Na 2 SO 4 and record any observations on your Report Sheet. 5. Add 3 ml of 5% NaHCO 3 to the small test tube. Add 3 ml of 5% acetic acid, and record any observations on your Report Sheet. 6. Add 3 ml of 6M HCl to a small test tube, and, dropwise, add an additional 3 ml of 6M NaOH. Record any observations of your Report Sheet. 7. What types of reactions did you observe in Part B? 103

104 This page left intentionally blank.

NAME DATE SECTION SINGLE AND DOUBLE REPLACEMENT REACTIONS REPORT SHEET EXPERIMENT 10 SINGLE REPLACEMENT REACTIONS 1. If any evidence of a reaction occurs, place an "R" in the appropriate box. If no evidence of reaction was observed, place a "NR" in the appropriate box. Metal Compound Zn Pb Cu Unk Ag NO 3 Cu(NO 3 ) 2 Pb(NO 3 ) 2 Mg(NO 3 ) 2 H 2 SO 4 Zn(NO 3 ) 2 2. Using the above information write and balance an equation for each reaction that took place. If no reaction occurred, write "NR". Refer to Appendix l for valences and charges. a) Zn + AgNO 3 b) Pb + AgNO 3 c) Cu + AgNO 3 d) Zn + Cu(NO 3 ) 2 e) Pb + Cu(NO 3 ) 2 f) Zn + Pb(NO 3 ) 2 105

g) Cu + Pb(NO 3 ) 2 h) Zn + Mg(NO 3 ) 2 i) Pb + Mg(NO 3 ) 2 j) Cu + Mg(NO 3 ) 2 k) Zn + H 2 SO 4 l) Pb + H 2 SO 4 m) Cu + H 2 SO 4 n) Pb + Zn(NO 3 ) 2 o) Cu + Zn(NO 3 ) 2 3. Based on the above information, assign an activity order to each of the metals with the most active metal as number 1. 1 2 3 4 5 6 4. Where would your unknown be located in the above activity series? DOUBLE REPLACEMENT REACTION 1. a) Describe what happens when the AgNO 3 solution was added to the NaCl solution? 106

2. a) Describe what happens when the Pb(NO 3 ) 2 solution was added to the K 2 CrO 4 solution. 3. a) Describe what happens when the CaCl 2 solution is added to the Na 2 CO 3 solution. 4. a) Describe what happens when the BaCl 2 solution is added to the Na 2 SO 4 solution. 107

5. a) Describe what happens when the acetic acid solution is added to the sodium bicarbonate solution. 6. a) Describe what happens when sodium hydroxide solution is added to the hydrochloric acid solution. 7. What three types of observations indicate a reaction has taken place in Part B? a) b) c) 108

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information