CoreChem:Admonishment

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Introduction (Original)

• What Chemists Do
• Measurement
• Numbers, Units, Quantities
• Handling Large and Small Numbers with Units
• The International System of Units (SI)
• SI Prefixes
• Volume
• Density
• Conversion Factors
• Impact

Atoms, Molecules and Chemical Reactions (Original)

• Macroscopic Properties and Microscopic Models
• Historical Development of the Atomic Theory
• The Atomic Theory
  • The Postulates of Dalton's Atomic Theory
• Macroscopic and Microscopic Views of a Chemical Reaction
• Testing the Atomic Theory
  • 2.6 Atomic Weights
  • 2.7 The Amount of Substance: Moles
  • 2.8 The Molar Mass
  • 2.9 Formulas and Composition
  • 2.10 Balancing Chemical Equations
  • Summary 2

• Chapter 3 - USING CHEMICAL EQUATIONS IN CALCULATIONS
  • 3.1 Equations and Mass Relationships
  • 3.2 Analysis of Compounds
  • 3.3 Thermo-chemistry
  • 3.4 Standard Enthalpies of Formation
  • 3.5 Solutions
  • Summary 3

• Chapter 4 - THE STRUCTURE OF ATOMS
  • 4.1 Descriptive Chemistry of Some Groups of Related Elements
  • 4.2 The Periodic Classification of the Elements
  • 4.3 The Nuclear Atom
  • 4.4 Atomic Structure and Isotopes
  • 4.5 Measurement of Atomic Weights
  • Summary 4

• Chapter 5 - THE ELECTRONIC STRUCTURE OF ATOMS
  • 5.1 Electrons and Valence
  • 5.2 The Wave Nature of the Electron
  • 5.3 Electron Waves in the Hydrogen Atom
  • 5.4 The Potential Energy of Electrons
  • 5.5 Atoms Having More Than One Electron
  • 5.6 Electron Configurations
  • 5.7 Electron Configurations and the Periodic Table
  • Summary 5

• Chapter 6 - CHEMICAL BONDING—ELECTRON PAIRS AND OCTETS
  • 6.1 Ionic Bonding
  • 6.2 Periodic Variation of ionization Energy and Electron Affinity
  • 6.3 Binary Ionic Compounds and Their Properties
  • 6.4 The Covalent Bond
  • 6.5 Covalent Molecules and the Octet Rule
  • 6.6 Writing Lewis Structures for Molecules
  • 6.7 Ionic Compounds Containing Polyatomic Ions
  • 6.8 The Sizes of Atoms and Ions
  • Summary 6

• Chapter 7 - FURTHER ASPECTS OF COVALENT BONDING
  • 7.1 Exceptions to the Octet Rule
  • 7.2 The Shapes of Molecules
  • 7.3 Orbitals Consistent with Molecular Shapes
  • 7.4 Orbital Descriptions of Multiple Bonds
  • 7.5 Polarity of Bonds: Electronegativity
  • 7.6 Oxidation Numbers
  • 7.7 Some Difficulties with Electron-Pair Bonds
  • Summary 7

• Chapter 8 - PROPERTIES OF ORGANIC COMPOUNDS AND OTHER COVALENT SUBSTANCES
  • 8.1 Covalent Compounds and Intermolecular Forces
  • 8.2 Organic Compounds: Hydrocarbons
  • 8.3 Hydrogen Bonding: Water
  • 8.4 Organic Compounds-Some Additional Classes
  • 8.5 Macromolecular Substances
  • 8.6 Synthetic Macromolecules: Some Applied Organic Chemistry
  • Summary 8

• Chapter 9 - GASES
  • 9.1 Properties of Gases
  • 9.2 Gas Laws
  • 9.3 Gas Volumes and Moles
  • 9.4 Kinetic Theory of Gases
  • 9.5 Deviations from the Ideal Gas Law
  • Summary 9

• Chapter 10 - SOLIDS, LIQUIDS, AND SOLUTIONS
  • 10.1 Solids
  • 10.2 Liquids
  • 10.3 Phase Transitions
  • 10.4 Phase Diagrams
  • 10.5 Solutions
  • 10.6 The Separation of Mixtures
  • 10.7 Colligative Properties of Solutions
  • Summary 10

• 11 - REACTIONS IN AQUEOUS SOLUTIONS
  • 11.1 Ions in Solution
  • 11.2 Acid-Base Reactions
  • 11.3 Acid and Base Strength
  • 11.4 Lewis Acids and Bases
  • 11.5 Redox Reactions
  • 11.6 Some Common Oxidizing and Reducing Agents
  • 11.7 Redox Couples
  • Summary 11

• Chapter 12 - CHEMISTRY OF THE REPRESENTATIVE ELEMENTS
  • 12.1 Group IA: Alkali Metals
  • 12.2 Group IIA: Alkaline Earths
  • 12.3 Group IIIA
  • 12.4 Group IVA
  • 12.5 Group VA
  • 12.6 Group VIA: Chalcogens
  • 12.7 Group VIIA: Halogens
  • 12.8 Group VIIIA: Noble Gases
  • Summary 12

• Chapter 13 - CHEMICAL EQUILIBRIUM
  • 13.1 The Equilibrium State
  • 13.2 The Equilibrium Constant
  • 13.3 Calculating the Extent of a Reaction
  • 13.4 Le Chatelier’s Principle
  • 13.5 The Molecular View of Equilibrium
  • Summary 13

• Chapter 14 - IONIC EQUILIBRIA IN AQUEOUS SOLUTIONS
  • 14.1 Ionization of Water
  • 14.2 The pH of Solutions of Weak Acids and Weak Bases
  • 14.3 Conjugate Acid-Base Pairs
  • 14.4 Buffer Solutions
  • 14.5 Acid-Base Titrations
  • 14.6 The Solubility Product
  • Summary 14

• Chapter 15 - THERMODYNAMICS: ATOMS, MOLECULES, AND ENERGY

• Chapter 16 - ENTROPY AND SPONTANEOUS REACTIONS

16.1 Spontaneous Processes and Molecular Probability

16.2 Thermodynamic Probability and Entropy

16.3 Getting Acquainted with Entropy

16.4 Including the Surroundings

16.5 The Free Energy

16.6 Equilibrium Constants Revisited

Summary 16

• Chapter 17 - ELECTROCHEMICAL CELLS

17.1 Electrolysis

17.2 Commercial Applications of Electrolysis

17.3 Quantitative Aspects of Electrolysis

17.4 Galvanic Cells

17.5 Electromotive Force of Galvanic Cells

17.6 Commercial Galvanic Cells

17.7 Galvanic Cells and Free Energy

Summary 17

• Chapter 18 - CHEMICAL KINETICS

18.1 Experimental Measurement of Rates

18.2 Microscopic View of Chemical Reactions

18.3 Reaction Mechanisms

18.4 Increasing the Rate of a Reaction

18.5 Some Important Types of Catalysts

Summary 18

• Chapter 19 - NUCLEAR CHEMISTRY

19.1 Naturally Occurring Nuclear Reactions

19.2 Artificially Induced Nuclear Reactions

19.3 Nuclear Stability

19.4 The Rate of Radioactive Decay

19.5 Detection and Measurement of Radiation

19.6 Uses of Artificial Isotopes in Chemistry

19.7 Mass-Energy Relationships

19.8 Nuclear Fission

19.9 Nuclear Fusion

Summary 19

• Chapter 20 - MOLECULES IN LIVING SYSTEMS

20.1 The Elements of Life

20.2 The Building Blocks of Biochemistry

20.3 Fats and Lipids

20.4 Carbohydrates

20.5 Proteins

20.6 Nucleic Acids

Summary 20

• Chapter 21 - SPECTRA AND STRUCTURE OF ATOMS AND MOLECULES

21.1 The Nature of Electromagnetic Radiation

21.2 Atomic Spectra and the Bohr Theory

21.3 The Spectra of Molecules: Infrared

21.4 The Visible and Ultraviolet Spectra of Molecules: Molecular Orbitals

Summary 21

• CoreChem:Chapter 22 – METALS

22.1 Metallic Bonding

22.2 Metallurgy

22.3 Coordination Compounds

22.4 Transitional Metal Ions in Aqueous Solutions

Summary 22