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Chemistry Chemistry The Molecular Nature of Matter

Chemistry The Molecular Nature of Matter Jespersen • 6th Edition • 978-0-470-57771-4

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Ch.1 - Chemistry and the Atomic/Molecular View of Matter

Classification of Matter Law of Conservation of Mass Law of Definite Proportions Atomic Theory Law of Multiple Proportions

Ch.2 - Scientific Measurements

Physical & Chemical Changes Chemical Properties Physical Properties Intensive vs. Extensive Properties SI Units Scientific Notation Metric Prefixes Temperature Significant Figures Significant Figures: Precision in Measurements Significant Figures: In Calculations Conversion Factors Dimensional Analysis Density Density of Geometric Objects Density of Non-Geometric Objects

Ch.3 - Elements, Compounds, and the Periodic Table

The Atom Millikan Oil Drop Experiment Rutherford Gold Foil Experiment Subatomic Particles Isotopes Ions Atomic Mass Periodic Table: Classifications Periodic Table: Group Names Periodic Table: Representative Elements & Transition Metals Periodic Table: Element Symbols Periodic Table: Elemental Forms Periodic Table: Phases Periodic Table: Charges Polyatomic Ions Naming Ionic Compounds Writing Ionic Compounds Naming Ionic Hydrates Naming Molecular Compounds

Ch.4 - The Mole and Stoichiometry

Calculating Molar Mass Mole Concept Mass Percent Empirical Formula Molecular Formula Combustion Analysis Combustion Apparatus Balancing Chemical Equations Stoichiometry Limiting Reagent Percent Yield

BONUS: Lab Techniques and Procedures

Laboratory Materials Experimental Error Distillation & Floatation Chromatography Filtration and Evaporation Extraction Test for Ions and Gases

BONUS: Mathematical Operations and Functions

Multiplication and Division Operations Addition and Subtraction Operations Power and Root Functions Power and Root Functions The Quadratic Formula

Ch.5 - Molecular View of Reactions in Aqueous Solutions

Solutions Electrolytes Naming Acids Solubility Rules Molecular Equations Gas Evolution Equations Complete Ionic Equations Molarity Dilutions Osmolarity Solution Stoichiometry

Ch.6 - Oxidation-Reduction Reactions

Calculate Oxidation Numbers Redox Reactions Balancing Redox Reactions: Acidic Solutions Balancing Redox Reactions: Basic Solutions Activity Series

Ch.7 - Energy and Chemical Change

Nature of Energy Kinetic & Potential Energy First Law of Thermodynamics Internal Energy Endothermic & Exothermic Reactions Heat Capacity Constant-Pressure Calorimetry Constant-Volume Calorimetry Thermal Equilibrium Thermochemical Equations Formation Equations Enthalpy of Formation Hess's Law

Ch.8 - The Quantum Mechanical Atom

Wavelength and Frequency Speed of Light The Energy of Light Electromagnetic Spectrum Photoelectric Effect Bohr Model Emission Spectrum Bohr Equation De Broglie Wavelength Heisenberg Uncertainty Principle Introduction to Quantum Mechanics Quantum Numbers: Principal Quantum Number Quantum Numbers: Angular Momentum Quantum Number Quantum Numbers: Magnetic Quantum Number Quantum Numbers: Spin Quantum Number Quantum Numbers: Number of Electrons Quantum Numbers: Nodes The Electron Configuration The Electron Configuration: Condensed The Electron Configurations: Exceptions Paramagnetism and Diamagnetism The Electron Configuration: Quantum Numbers Valence Electrons of Elements Periodic Trend: Effective Nuclear Charge Periodic Trend: Atomic Radius Periodic Trend: Ionic Radius Periodic Trend: Ionization Energy Periodic Trend: Successive Ionization Energies Periodic Trend: Electron Affinity

Ch.9 - The Basics of Chemical Bonding

Lattice Energy Born Haber Cycle Coulomb's Law The Electron Configuration: Ions Lewis Dot Symbols Chemical Bonds Dipole Moment Periodic Trend: Electronegativity Octet Rule Formal Charge Lewis Dot Structures: Neutral Compounds Lewis Dot Structures: Ions Lewis Dot Structures: Sigma & Pi Bonds Lewis Dot Structures: Exceptions Lewis Dot Structures: Acids Resonance Structures Average Bond Order Bond Energy

Ch.10 - Theories of Bonding and Structure

Valence Shell Electron Pair Repulsion Theory Equatorial and Axial Positions Electron Geometry Molecular Geometry Molecular Polarity Bond Angles Hybridization Molecular Orbital Theory MO Theory: Homonuclear Diatomic Molecules MO Theory: Heteronuclear Diatomic Molecules MO Theory: Bond Order

Ch.11 - Properties of Gases

Pressure Units The Ideal Gas Law The Ideal Gas Law Derivations The Ideal Gas Law Applications Chemistry Gas Laws Chemistry Gas Laws: Combined Gas Law Mole Fraction Partial Pressure The Ideal Gas Law: Molar Mass The Ideal Gas Law: Density Gas Stoichiometry Standard Temperature and Pressure Effusion Kinetic Molecular Theory Root Mean Square Speed Kinetic Energy of Gases Van der Waals Equation

Ch.12 - Intermolecular Attractions and the Properties of Liquids and Solids

Intermolecular Forces Intermolecular Forces and Physical Properties Clausius-Clapeyron Equation Phase Diagrams Heating and Cooling Curves Atomic, Ionic, and Molecular Solids Crystalline Solids Simple Cubic Unit Cell Body Centered Cubic Unit Cell Face Centered Cubic Unit Cell

Ch.13 - Mixtures at the Molecular Level: Properties of Solutions

Solutions: Solubility and Intermolecular Forces Molality Parts per Million (ppm) Mole Fraction Solutions: Mass Percent Types of Aqueous Solutions Intro to Henry's Law Henry's Law Calculations The Colligative Properties Boiling Point Elevation Freezing Point Depression Osmosis Osmotic Pressure Vapor Pressure Lowering (Raoult's Law)

Ch.14 - Chemical Kinetics

Intro to Chemical Kinetics Energy Diagrams Catalyst Factors Influencing Rates Average Rate of Reaction Stoichiometric Rate Calculations Instantaneous Rate Collision Theory Arrhenius Equation Rate Law Reaction Mechanism Integrated Rate Law Half-Life

Ch.15 - Chemical Equilibrium

Intro to Chemical Equilibrium Equilibrium Constant (K) Equilibrium Constant Calculations Kp and Kc Using Hess's Law To Determine K Calculating K For Overall Reaction Le Chatelier's Principle ICE Charts Reaction Quotient

Ch.16 - Acids and Bases, A Molecular Look

Acids Introduction Bases Introduction Binary Acids Oxyacids Bases Amphoteric Species Arrhenius Acids and Bases Bronsted-Lowry Acids and Bases Conjugate Acids and Bases Lewis Acids and Bases

Ch.17 - Acid-Base Equilibria in Aqueous Solutions

The pH Scale Auto-Ionization Ka and Kb pH of Strong Acids and Bases Ionic Salts pH of Weak Acids pH of Weak Bases Diprotic Acids and Bases Diprotic Acids and Bases Calculations Triprotic Acids and Bases Triprotic Acids and Bases Calculations Intro to Buffers Henderson-Hasselbalch Equation Intro to Acid-Base Titration Curves Strong Titrate-Strong Titrant Curves Weak Titrate-Strong Titrant Curves Acid-Base Indicators Titrations: Weak Acid-Strong Base Titrations: Weak Base-Strong Acid Titrations: Strong Acid-Strong Base Titrations: Diprotic & Polyprotic Buffers

Ch.18 - Solubility and Simultaneous Equilibria

Solubility Product Constant: Ksp Ksp: Common Ion Effect Precipitation: Ksp vs Q Selective Precipitation Complex Ions: Formation Constant

Ch.20 - Electrochemistry

Standard Reduction Potentials Intro to Electrochemical Cells Galvanic Cell Electrolytic Cell Cell Potential: Standard Cell Potential: The Nernst Equation Cell Potential and Gibbs Free Energy Cell Potential and Equilibrium Cell Potential: G and K Cell Notation Electroplating

Ch. 19 - Thermodynamics

Bond Energy Spontaneous vs Nonspontaneous Reactions Entropy Entropy Calculations Entropy Calculations: Phase Changes Third Law of Thermodynamics Gibbs Free Energy Gibbs Free Energy Calculations Gibbs Free Energy And Equilibrium

Ch.21 - Nuclear Reactions and Their Role in Chemistry

Radioactive Decay Band of Stability First Order Half Life Magic Numbers

Ch.22 - Metal Complexes

Coordination Complexes Naming Coordination Compounds Coordination Isomers

Ch.23 - Organic Compounds, Polymers, and Biochemicals

Introduction to Organic Chemistry Structural Formula Chirality Optical Isomers Hydrocarbon The Alkyl Group Naming Alkanes Naming Alkenes Naming Alkynes Alkane Reactions Alkenes and Alkynes Benzene Reactions Functional Groups Alcohol Reactions Carboxylic Acid Derivative Reactions