General Chemistry Principles and Modern Applications 10th Edition Petrucci Test Bank

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General Chemistry Principles and Modern Applications 10th Edition Petrucci Test Bank

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  • ISBN-10 ‏ : ‎ 0132064529
  • ISBN-13 ‏ : ‎ 978-0132064521
  • Author:

General Chemistry: Principles and Modern Applications, is the most trusted book on the market recognized for its superior problems, lucid writing, and precision of argument and precise and detailed and treatment of the subject. The 11th edition offers enhanced hallmark features, new innovations and revised discussions that that respond to key market needs for detailed and modern treatment of organic chemistry, embracing the power of visual learning and conquering the challenges of effective problem solving and assessment.

Table contents:

1 Matter: Its Properties and Measurement

1(33)

1-1 The Scientific Method

2(2)

1-2 Properties of Matter

4(1)

1-3 Classification of Matter

5(3)

1-4 Measurement of Matter: SI (Metric) Units

8(5)

1-5 Density and Percent Composition: Their Use in Problem Solving

13(5)

1-6 Uncertainties in Scientific Measurements

18(1)

1-7 Significant Figures

19(15)

Summary

23(1)

Integrative Example

24(2)

Exercises

26(3)

Integrative and Advanced Exercises

29(2)

Feature Problems

31(1)

Self-Assessment Exercises

32(2)

2 Atoms and the Atomic Theory

34(34)

2-1 Early Chemical Discoveries and the Atomic Theory

35(3)

2-2 Electrons and Other Discoveries in Atomic Physics

38(4)

2-3 The Nuclear Atom

42(2)

2-4 Chemical Elements

44(4)

2-5 Atomic Mass

48(3)

2-6 Introduction to the Periodic Table

51(3)

2-7 The Concept of the Mole and the Avogadro Constant

54(2)

2-8 Using the Mole Concept in Calculations

56(12)

Summary

59(1)

Integrative Example

59(1)

Exercises

60(4)

Integrative and Advanced Exercises

64(1)

Feature Problems

65(1)

Self-Assessment Exercises

66(2)

3 Chemical Compounds

68(43)

3-1 Types of Chemical Compounds and Their Formulas

69(4)

3-2 The Mole Concept and Chemical Copmpunds

73(3)

3-3 Composition of Chemical Compounds

76(8)

3-4 Oxidation States: A Useful Tool in Decribing Chemical Compounds

84(2)

3-5 Naming Compounds: Organic and Inorganic Compunds

86(1)

3-6 Names and Formulas of Inorganic Compounds

87(7)

3-7 Names and Formulas of Organic Compunds

94(17)

Summary

100(1)

Integrative Example

101(2)

Exercises

103(4)

Integrative and Advanced Exercises

107(1)

Feature Problems

108(2)

Self-Asessment Exercises

110(1)

4 Chemical Reactions

111(40)

4-1 Chemical Reactions and Chemical Equations

112(4)

4-2 Chemical Equations and Stoichiometry

116(7)

4-3 Chemical Reactions in Solution

123(6)

4-4 Determining the Limiting Reactant

129(3)

4-5 Other Practical Matters in Reaction Stoichiometry

132(19)

Summary

138(1)

Integrative Example

139(1)

Exercises

140(8)

Feature Problems

148(1)

Self-Assessment Exercises

149(2)

5 Introduction the Reactions in Aqueous Solutions

151(41)

5-1 The Nature of Aqueous Solutions

152(4)

5-2 Precipitation Reactions

156(4)

5-3 Acid-Base Reactions

160(5)

5-4 Oxidation-Reduction Reactions: Some General Principles

165(5)

5-5 Balancing Oxidation-Reduction Equations

170(5)

5-6 Oxidizing and Reducing Agents

175(2)

5-7 Stoichiometry of Reactions in Aqueous Solutions: Titrations

177(15)

Summary

181(1)

Integrative Example

182(1)

Exercises

183(4)

Integrative and Advanced Exercises

187(2)

Feature Problems

189(2)

Self-Asessment Exercises

191(1)

6 Gases

192(49)

6-1 Properties of Gases: Gas Pressure

193(5)

6-2 The Simple Gas Laws

198(6)

6-3 Combining the Gas Laws: The Ideal Gas Equation and the General Gas Equation

204(3)

6-4 Applications of the Ideal Gas Equation

207(3)

6-5 Gases in Chemical Reactions

210(2)

6-6 Mixtures of Gases

212(4)

6-7 Kinetic-Molecular Theory of Gases

216(7)

6-8 Gas Properties Relating to the Kinetic-Molecular Theory

223(3)

6-9 Nonideal (Real) Gases

226(15)

Summary

229(1)

Integrative Example

230(1)

Exercise

231(5)

Integrative and Advanced Exercises

236(2)

Feature Problems

238(2)

Self-Assessment Exercises

240(1)

7 Thermochemistry

241(53)

7-1 Getting Started: Some Terminology

242(2)

7-2 Heat

244(4)

7-3 Heats of Reaction and Calorimetry

248(4)

7-4 Work

252(3)

7-5 The First Law of Thermodynamic

255(4)

7-6 Heats of Reaction: &U and &H

259(7)

7-7 Indirect Determination of &H: Hess’s Law

266(2)

7-8 Standard Enthalpies of Formation

268(7)

7-9 Fuels as Sources of Energy

275(19)

Summary

281(1)

Integrative Example

282(1)

Exercises

283(6)

Integrative and Advanced Exercises

289(2)

Feature Problems

291(1)

Self-Assessment Exercises

292(2)

8 Electrons in Atoms

294(66)

8-1 Electromagnetic Radiation

295(5)

8-2 Atomic Spectra

300(2)

8-3 Quantum Theory

302(5)

8-4 The Bohr Atom

307(6)

8-5 Two Ideas Leading to a New Quantum Mechanics

313(2)

8-6 Wave Mechanics

317(7)

8-7 Quantum Numbers and Electron Orbitals

324(3)

8-8 Interpreting and Representing the Orbitals of the Hydrogen Atom

327(6)

8-9 Electron Spin: A Fourth Quantum Number

333(3)

8-10 Multielectron Atoms

336(3)

8-11 Electron Configurations

339(5)

8-12 Electron Configurations and the Periodic Table

344(16)

Summary

348(1)

Integrative Example

349(2)

Exercises

351(6)

Integrative and Advanced Exercises

357(1)

Feature Problems

358(1)

Self-Assessment Exercises

359(1)

9 The Periodic Table and Some Atomic Properties

360(35)

9-1 Classifying the Elements: The Periodic Law and the Periodic Table

361(3)

9-2 Metals and Nonmetals and Their lons

364(3)

9-3 Sizes of Atoms and Ions

367(7)

9-4 Ionization Energy

374(4)

9-5 Electron Affinity

378(1)

9-6 Magnetic Properties

379(2)

9-7 Periodic Properties of the Elements

381(14)

Summary

386(1)

Integrative Example

386(3)

Exercises

389(2)

Integrative and Advanced Exercises

391(1)

Feature Problems

392(1)

Self-Assessment Exercises

393(2)

10 Chemical Bonding I: Basic Concepts

395(54)

10-1 Lewis Theory: An Overview

396(3)

10-2 Covalent Bonding: An Introduction

399(3)

10-3 Polar Covalent Bonds and Electrostatic Potential Maps

402(6)

10-4 Writing Lewis Structures

408(8)

10-5 Resonance

416(2)

10-6 Exceptions to the Octet Rule

418(3)

10-7 Shapes of Molecules

421(12)

10-8 Bond Order and Bond Lengths

433(1)

10-9 Bond Energies

434(15)

Summary

438(1)

Integrative Example

439(1)

Exercises

440(6)

Integrative and Advanced Exercises

446(1)

Feature Problems

447(1)

Self-Assessment Exercises

448(1)

11 Chemical Bonding II: Additional Aspects

449(49)

11-1 What a Bonding Theory Should Do

450(1)

11-2 Introduction to the Valence-Bond Method

451(2)

11-3 Hybridization of Atomic Orbitals

453(8)

11-4 Multiple Covalent Bonds

461(4)

11-5 Molecular Orbital Theory

465(9)

11-6 Delocalized Electrons: Bonding in the Benzene Molecule

474(6)

11-7 Bonding in Metals

480(4)

11-8 Some Unresolved Issues: Can Electron Charge-Density Plots Help?

484(14)

Summary

489(1)

Integrative Example

489(2)

Exercises

491(3)

Integrative and Advanced Exercises

494(1)

Feature Problems

495(2)

Self-Assessment Exercises

497(1)

12 Intermolecular Forces: Liquids and Solids

498(59)

12-1 Intermolecular Forces

499(9)

12-2 Some Properties of Liquids

508(12)

12-3 Some Properties of Solids

520(2)

12-4 Phase Diagrams

522(4)

12-5 Network Covalent Solids and Ionic Solids

526(4)

12-6 Crystal Structures

530(12)

12-7 Energy Changes in the Formation of Ionic Crystals

542(15)

Summary

545(1)

Integrative Example

546(1)

Exercises

547(5)

Integrative and Advanced Exercises

552(2)

Feature Problems

554(2)

Self-Assessment Exercises

556(1)

13 Solutions and Their Physical Properties

557(45)

13-1 Types of Solutions: Some Terminology

558(1)

13-2 Solution Concentration

558(4)

13-3 Intermolecular Forces and the Solution Process

562(5)

13-4 Solution Formation and Equilibrium

567(3)

13-5 Solubilities of Gases

570(3)

13-6 Vapor Pressures of Solutions

573(4)

13-7 Osmotic Pressure

577(4)

13-8 Freezing-Point Depression and Boiling-Point Elevation of Nonelectrolyte Solutions

581(3)

13-9 Solutions of Electrolytes

584(3)

13-10 Colloidal Mixtures

587(15)

Summary

590(1)

Integrative Example

591(1)

Exercises

592(5)

Integrative and Advanced Exercises

597(2)

Feature Problems

599(1)

Self-Assessment Exercises

600(2)

14 Chemical Kinetics

602(63)

14-1 The Rate of a Chemical Reaction

603(2)

14-2 Measuring Reaction Rates

605(3)

14-3 Effect of Concentration on Reaction Rates: The Rate Law

608(3)

14-4 Zero-Order Reactions

611(1)

14-5 First-Order Reactions

612(7)

14-6 Second-Order Reactions

619(1)

14-7 Reaction Kinetics: A Summary

620(2)

14-8 Theoretical Models for Chemical Kinetics

622(4)

14-9 The Effect of Temperature on Reaction Rates

626(3)

14-10 Reaction Mechanisms

629(8)

14-11 Catalysis

637(28)

Summary

642(1)

Integrative Example

643(2)

Exercises

645(5)

Integrative and Advanced Exercises

650(2)

Feature Problems

652(2)

Self-Assessment Exercises

654(11)

15 Principles of Chemical Equilibrium

665(32)

15-1 Dynamic Equilibrium

656(7)

15-2 The Equilibrium Constant Expression

663(6)

15-3 Relationships Involving Equilibrium Constant

669(1)

15-4 The Magnitude of an Equilibrium Constant

669(1)

15-5 The Reaction Quotient, Q: Predicting the Direction of Net Change

670(3)

15-6 Altering Equilibrium Conditions: Le Chatelier’s Principle

673(6)

15-7 Equilibrium Calculations: Some Illustrative Examples

679(18)

Summary

686(1)

Integrative Example

686(2)

Exercises

688(5)

Integrative and Advanced Exercises

693(1)

Feature Problems

694(1)

Self-Assessment Exercises

695(2)

16 Acids and Bases

697(48)

16-1 Arrhenius Theory: A Brief Review

698(1)

16-2 Brønsted-Lowry Theory of Acids and Bases

698(5)

16-3 Self-Ionization of Water and the pH Scale

703(3)

16-4 Strong Acids and Strong Bases

706(2)

16-5 Weak Acids and Weak Bases

708(9)

16-6 Polyprotic Acids

717(6)

16-7 Ions as Acids and Bases

723(4)

16-8 Molecular Structure and Acid-Base Behavior

727(5)

16-9 Lewis Acids and Bases

732(13)

Summary

736(1)

Integrative Example

736(2)

Exercises

738(4)

Integrative and Advanced Exercises

742(1)

Feature Problems

743(1)

Self-Assessment Exercises

744(1)

17 Additional Aspects of Acid-Base Equilibria

745(39)

17-1 Common-Ion Effect in Acid-Base Equilibria

746(4)

17-2 Buffer Solutions

750(9)

17-3 Acid-Base Indicators

759(3)

17-4 Neutralization Reactions and Titration Curves

762(8)

17-5 Solutions of Salts of Polyprotic Acids

770(1)

17-6 Acid-Base Equilibrium Calculations: A Summary

771(13)

Summary

773(1)

Integrative Example

773(2)

Exercises

775(4)

Integrative and Advanced Exercises

779(3)

Feature Problems

782(1)

Self-Assessment Exercises

783(1)

18 Solubility and Complex-Ion Equilibria

784(35)

18-1 Solubility Product Constant, Ksp

785(1)

18-2 Relationship Between Solubility and Ksp

786(2)

18-3 Common-Ion Effect in Solubility Equilibria

788(2)

18-4 Limitations of the Ksp Concept

790(2)

18-5 Criteria for Precipitation and Its’ Comleteness

792(3)

18-6 Fractional Precipitation

795(2)

18-7 Solubility and pH

797(2)

18-8 Equilibria Involving Complex Ions

799(6)

18-9 Qualitative Cation Analysis

805(14)

Summary

810(1)

Integrative Example

810(2)

Exercises

812(3)

Integrative and Advanced Exercises

815(1)

Feature Problems

816(1)

Self-Assessment Exercises

817(2)

19 Spontaneous Change: Entropy and Gibbs Energy

819(44)

19-1 Spontaneity: The Meaning of Spontaneous Change

820(1)

19-2 The Copncept of Etropy

821(6)

19-3 Evaluating Entropy and Entropy Changes

827(5)

19-4 Criteria for Spontaneous Change: the Second Law of Thermodynamics

832(4)

19-5 Standard Gibbs Energy Change, &G°

836(1)

19-6 Gibbs Energy Change and Equilibrium

837(11)

19-7 &G° and K as Functions of Temperature

848(3)

19-8 Coupled Ractions

851(12)

Summary

852(1)

Integrative Example

853(1)

Exercises

854(4)

Integrative and Advanced Exercises

858(2)

Feature Problems

860(1)

Self-Assessment Exercises

861(2)

20 Electrochemistry

863(54)

20-1 Electrode Potentials and Their Measurement

864(5)

20-2 Standard Electrode Potentials

869(5)

20-3 Ecell. DeltaG, and K

874(6)

20-4 Ecell as a Function of Concentrations

880(8)

20-5 Batteries: Producing Electricity Through Chemical Reactions

888(6)

20-6 Corrosion: Unwanted Voltaic Cell

894(2)

20-7 Electrolysis: Causing Nonspontaneous Reactions to Occur

896(4)

20-8 Industrial Electrolysis Processes

900(17)

Summary

904(1)

Integrative Example

905(2)

Exercises

907(5)

Integrative and Advanced Exercises

912(2)

Feature Problems

914(1)

Self-Assessment Exercises

915(2)

21 Chemistry of the Main-Group Elements I: Groups 1, 2, 13, and 14

917(59)

21-1 Periodic Trends and Charge Density

918(2)

21-2 Group 1: The Alkali Metals

920(13)

21-3 Group 2: The Alkaline Earth Metals

933(8)

21-4 Group 13: The Boron Family

941(10)

21-5 Group 14: The Carbon Family

951(25)

Summary

968(1)

Integrative Example

969(1)

Exercises

970(2)

Integrative and Advanced Exercises

972(2)

Feature Problems

974(1)

Self-Assessment Exercises

974(2)

22 Chemistry of the Main-Group Elements II: Groups 18, 17, 16, 15, and Hydrogen

976(55)

22-1 Periodic Trends in Bonding

977(2)

22-2 Group 18: The Noble Gases

979(6)

22-3 Group 17: The Halogens

985(9)

22-4 Group 16: The Oxygen Family

994(10)

22-5 Group 15: The Nitrogen Family

1004(13)

22-6 Hydrogen: A Unique Element

1017(14)

Summary

1021(1)

Integrative Example

1022(1)

Exercises

1023(3)

Integrative and Advanced Exercises

1026(2)

Feature Problems

1028(1)

Self-Assessment Exercises

1029(2)

23 The Transition Elements

1031(38)

23-1 General Properties

1032(5)

23-2 Principles of Extractive Metallurgy

1037(7)

23-3 Metallurgy of Iron and Steel

1044(2)

23-4 First-Row Transition Metal Elements: Scandium to Manganese

1046(6)

23-5 The Iron Triad: Iron, Cobalt, and Nickel

1052(2)

23-6 Grup 11: Copper, Silver, and Gold

1054(2)

23-7 Group 12: Zinc, Cadmium, and Mercury

1056(3)

23-8 Lanthanides

1059(1)

23-9 High-Temperature Superconductors

1059(10)

Summary

1062(1)

Integrative Example

1062(1)

Exercises

1063(3)

Integrative and Advanced Exercises

1066(1)

Feature Problems

1067(1)

Self-Assessment Exercises

1068(1)

24 Complex Ions and Coordination Compounds

1069(42)

24-1 Werner’s Theory of Coordination Compounds: An Overview

1070(2)

24-2 Ligands

1072(3)

24-3 Nomenclature

1075(1)

24-4 Isomerism

1076(7)

24-5 Bonding in Complex Ions: Crystal Field Theory

1083(5)

24-6 Magnetic Properties of Coordination Compounds and Crystal Field Theory

1088(2)

24-7 Color and the Colors of Complexes

1090(3)

24-8 Aspects of Complex-Ion Equilibria

1093(2)

24-9 Acid-Base Reactions of Complex Ions

1095(1)

24-10 Some Kinetic Considerations

1096(1)

24-11 Applications of Coordination Chemistry

1097(14)

Summary

1102(1)

Integrative Example

1103(1)

Exercises

1104(2)

Integrative and Advanced Exercises

1106(2)

Feature Problems

1108(1)

Self-Assessment Exercises

1109(2)

25 Nuclear Chemistry

1111(36)

25-1 Radioactivity

1112(3)

25-2 Naturally Occuring Radioactive Isotopes

1115(2)

25-3 Nuclear Reactions and Artificially Induced Radioactivity

1117(1)

25-4 Transuranium Elements

1118(1)

25-5 Rate of Radioactive Decay

1119(6)

25-6 Energetics of Nuclear Reactions

1125(3)

25-7 Nuclear Stability

1128(2)

25-8 Nuclear Fission

1130(3)

25-9 Nuclear Fusion

1133(1)

25-10 Effect of Radiation on Matter

1134(3)

25-11 Applications of Radioisotopes

1137(2)

Summary

1139(1)

Integrative Example

1140(1)

Exercises

1141(3)

Integrative and Advanced Exercises

1144(1)

Feature Problems

1145(1)

Self-Assessment Exercises

1146(1)

26 Structures of Organic Compounds

1147(61)

26-1 Organic Compounds and Structures: An Overview

1148(7)

26-2 Alkanes

1155(6)

26-3 Cycloalkanes

1161(7)

26-4 Stereoisomerism in Organic compounds

1168(7)

26-5 Alkenes and Alkynes

1175(4)

26-6 Aromatic Hydrocarbons

1179(2)

26-7 Organic Compound Containing Functional Groups

1181(11)

26-8 From Molecular Formula to Molecular Structure

1192(16)

Summary

1195(2)

Integrative Example

1197(1)

Exercises

1198(6)

Integrative and Advanced Exercises

1204(1)

Feature Problem

1205(2)

Self-Assessment Exercises

1207(1)

27 Reactions of Organic Compounds

1208(58)

27-1 Organic Reactions: An Introduction

1209(2)

27-2 Introduction to Nucleophilic Substitution Reactions

1211(14)

27-3 Introduction to Elimination Reactions

1225(9)

27-4 Reactions of Alcohols

1234(5)

27-5 Introduction to Addition Reactions: Reactions of Alkenes

1239(5)

27-6 Electrophilic Aromatic Substitution

1244(4)

27-7 Reactions of Alkanes

1248(2)

27-8 Polymers and Polymerization Reactions

1250(4)

27-9 Synthesis of Organic Compounds

1254(12)

Summary

1256(1)

Integrative Example

1257(2)

Exercises

1259(4)

Integrative and Advanced Exercises

1263(1)

Feature Problem

1264(1)

Self-Assessment Exercises

1265(1)

28 Chemistry of the Living State

1266(1)

28-1 Chemical Structure of Living Matter: An Overview

1267(1)

28-2 Lipids

1268(3)

28-3 Carbohydrates

1271(8)

28-4 Proteins

1279(7)

28-5 Aspects of Metabolism

1286(6)

28-6 Nucleic Acids

1292(3)

Summary

1295(1)

Integrative Example

1296(1)

Exercises

1297(3)

Integrative and Advanced Exercises

1300(1)

Feature Problems

1301(1)

Self-Assessment Exercises

1302

Appendices

A Mathematical Operations

1(10)

B Some Basic Physical Concepts

11(4)

C SI Units

15(2)

D Data Tables

17(20)

E Concept Maps

37(2)

F Glossary

39(16)

G Answers to Concept Assessment Questions

55

Photo Credits

1(1)

Index

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