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Chapters Part 1
Chapter 1
Chapter 2
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2.1 Scientific Notation
2.2 Units
2.3 Measurements of Length, Volume, and Mass
2.4 Uncertainty in Measurement
2.5 Significant Figures
2.6 Problem Solving and Dimensional Analysis
Chapter 3
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3.1 Matter
3.2 Physical and Chemical Properties and Changes
3.3 Elements and Compounds
3.4 Mistures and Pure Substances
3.5 Separation of Mixtures
Chapter 4
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4.1 The Elements
4.2 The Symbols
4.3 Dalton's Atomic Theory
4.4 Formulas of Compounds
4.5 The Structure of The Atom
4.6 Introduction to the Modern Concept of Atomic Structure
4.7 Isotopes
Chapter 11
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11.1 Rutherford's Atom
11.2 Electromagnetic Radiation
11.3 Emission of Energy by Atom
11.4 The Energy Levels of Hydrogen
11.5 The Bohr Model of the Atom
11.6 The Wave Mechanical Model of the Atom
11.7 The Hydrogen Orbitals
11.8 The Wave Mechanical Model: Further Development
11.9 Electron Arrangements in the First Eighteen Atoms on the Periodic Table
11.10 Electron Configuration and the Periodic Table
11.11 Atomic Properties and the Periodic Table
Chapter 12
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12.1 Types of Chemical Bonds
12.2 Electronegativity
12.3 Bond Polarity and Dipole Moments
12.4 Stable Electron Configurations and Charges on Ions
12.5 Ionic Bonding and Structures of Ionic Compounds
12.6 Lewis Structures
12.7 Lewis Structures of Molecules with Multiple Bonds
12.8 Molecular Structure
12.9 Molecular Structure: The VSEPR Model
12.10 Molecular Structure: Molecules with Double Bonds
Chapter 5
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5.1 Naming Compounds
5.2 Naming Binary Compounds That Contain a Metal and a Nonmetal (Types I and II)
5.3 Naming Binary Compounds That Contain Only Nonmetals (Type III)
5.5 Naming Compounds That Contain Polyatomic Ions
5.6 Naming Acids
5.7 Writing Formulas from Names
Chapter 6
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6.1 Evidence for a Chemical Reaction
6.2 Chemical Equations
6.3 Balancing Chemical Equations
Chapter 7
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7.1 Predicting Whether a Reaction Will Occur
7.2 Reactions in Which a Solid Forms
7.3 Describing Reactions in Aqueous Solutions
7.4 Reactions That Form Water: Acids and Bases
7.5 Reactions of Metals with Nonmetals (Oxidation-Reduction)
Chapters Part 2
Chapter 8
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8.1 Counting by Weighing
8.2 Atomic Masses: Counting Atoms by Weighing
8.3 The Mole
8.4 Learning to Solve Problem
8.5 Molar Mass
8.6 Percent Composition of Compound
8.7 Formulas of Compound
8.8 Calculation of Empirical Formulas
8.9 Calculation of Molecular Formulas
Chapter 9
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9.1 Information Given by Chemical Equations
9.2 Mole-Mole Relationships
9.3 Mass Calculations
9.4 The Concept of Limiting Reactants
9.5 Calculations Involving a Limiting Reactant
9.6 Percent Yield
Chapter 13
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13.1 Pressure
13.2 Pressure and Volume: Boyle's Law
13.3 Volume and Temperature: Charles's Law
13.4 Volume and Moles: Avogadro's Law
13.5 The Ideal Gas Law
13.6 Dalton's Law of Partial Pressures
13.8 The Kinetic Molecular Theory of Gases
13.10 Gas Stoichiometry
Chapter 15
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15.1 Solubility
15.2 Solution Composition: An Introduction
15.3 Solution Composition: Mass Percent
15.4 Solution Composition: Molarity
15.5 Dilution
15.6 Stoichiometry of Solution Reactions
15.7 Neutralization Reactions
15.8 Solution Composition: Normality
OBJECTIVE: To learn the signals that show a chemical reaction has occurred.
Table 6.1 summarizes common clues to the occurrence of a chemical reaction, and Figure 6.3 gives some examples of reactions that show these clues.
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