1.1 Moles and Molar Mass (Answer Key)
1.2 Mass Spectroscopy of Elements (Answer Key)
1.3 Elemental Composition of a Pure Substance (Answer Key)
1.4 Composition of Mixtures (Answer Key)
1.5 Atomic Structure and Electron Configuration (Answer Key)
1.6 Photoelectron Spectroscopy (PES) (Answer Key)
1.7 Periodic Trends (Answer Key)
1.8 Valence Electrons and Ionic Compounds (Answer Key)
Lab 1: Empirical Formula of a Hydrate
1.2 Mass Spectroscopy of Elements
1.3 Elemental Composition of a Pure Substance
1.4 Composition of Mixtures 🚧
1.5 Atomic Structure and Electron Configuration
1.6 Photoelectron Spectroscopy
1.7 Periodic Trends 🚧
1.8 Valence Electrons and Ionic Compounds
1.2 Mass Spectroscopy of Elements
1.3 Elemental Composition of Pure Substances
1.5 Atomic Structure and Electron Configuration
2.1 Types of Chemical Bonds (Answer Key)
2.2 Intramolecular Forces and Potential Energy (Answer Key)
2.3 Structure of Ionic Solids (Answer Key)
2.4 Structure of Metals and Alloys (Answer Key)
2.5 Lewis Diagrams (Answer Key)
2.6 Formal Charge & Resonance (Answer Key)
2.7 VSEPR Theory and Bond Hybridization (Answer Key)
2.1 Types of Chemical Bonds 🚧
2.2 Intramolecular Forces and Potential Energy 🚧
2.3 Structure of Ionic Solids 🚧
2.4 Structure of Metals and Alloys 🚧
2.5 Lewis Diagrams 🚧
2.6 Formal Charge & Resonance 🚧
2.7 VSEPR Theory and Bond Hybridization 🚧
2.2 Intramolecular Forces and Potential Energy
3.1 Intermolecular Forces (Answer Key)
3.2 Properties of Solids (Answer Key)
3.3 Solids, Liquids, and Gases (Answer Key)
3.4 Ideal Gas Law (Answer Key)
3.5 Kinetic Molecular Theory (Answer Key)
3.6 Deviation from Ideal Gas Law (Answer Key)
Maxwell-Boltzmann Distribution Curves
Lab 2: Experimental Determination of the Gas Constant
3.1 Intermolecular Forces🚧
3.2 Properties of Solids🚧
3.3 Solids, Liquids, and Gases🚧
3.4 Ideal Gas Law🚧
3.5 Kinetic Molecular Theory🚧
3.6 Deviation from Ideal Gas Law🚧
3.7 Solutions and Mixtures (Answer Key)
3.8 Representations of Solutions (Answer Key)
3.9 Separation of Solutions and Mixtures Chromatography (Answer Key)
3.11 Spectroscopy and the Electromagnetic Spectrum (Answer Key)
3.12 Photoelectric Effect (Answer Key)
3.13 Beer-Lambert Law (Answer Key)
Lab 3:
3.7 Solutions and Mixtures🚧
3.8 Representations of Solutions🚧
3.9 Separation of Solutions and Mixtures Chromatography🚧
3.10 Solubility🚧
3.11 Spectroscopy and the Electromagnetic Spectrum🚧
3.12 Photoelectric Effect🚧
3.13 Beer-Lambert Law🚧
3.8 Representations of Solutions
3.9 Separation of Solutions and Mixtures Chromatography
4.1 Reaction Basics (Answer Key)
4.2 Net Ionic Equations (Answer Key)
4.3 Representations of Reactions (Answer Key)
4.4 Physical and Chemical Changes (Answer Key)
4.5 Stoichiometry (Answer Key)
4.6 Basic Titration Calculations (Answer Key)
4.8 Basic Acid-Base Reactions (Answer Key)
4.9 Redox Reactions (Answer Key)
4.1 Reaction Basics🚧
4.2 Net Ionic Equations🚧
4.3 Representations of Reactions🚧
4.4 Physical and Chemical Changes🚧
4.5 Stoichiometry🚧
4.6 Basic Titration Calculations🚧
4.7 Types of Chemical Reactions🚧
4.8 Basic Acid-Base Reactions🚧
4.9 Redox Reactions🚧
4.3 Representations of Reactions
4.4 Physical and Chemical Changes
4.6 Basic Titration Calculations
5.1 Reaction Rates (Answer Key)
5.2 Introduction to Rate Law (Answer Key)
5.3 Concentration Changes Over Time (Answer Key)
5.4 Elementary Reactions (Answer Key)
5.5 Collision Model (Answer Key)
5.6 Reaction Energy Profiles (Answer Key)
5.7 Introduction to Rate Mechanisms (Answer Key)
5.8 Reaction Mechanism and Rate Law (Answer Key)
5.9 Steady-State Approximation (Answer Key)
5.10 Multistep Reaction Energy Profile (Answer Key)
5.1 Reaction Rates🚧
5.2 Introduction to Rate Law🚧
5.3 Concentration Changes Over Time🚧
5.4 Elementary Reactions🚧
5.5 Collision Model🚧
5.6 Reaction Energy Profiles🚧
5.7 Introduction to Rate Mechanisms🚧
5.8 Reaction Mechanism and Rate Law🚧
5.9 Steady-State Approximation🚧
5.10 Multistep Reaction Energy Profile🚧
5.11 Catalysis🚧
5.3 Concentration Changes Over Time
5.4 & 5.7 Elementary Reactions & Introduction to Rate Mechanisms
5.8 Reaction Mechanism and Rate Law
5.9 Steady-State Approximation
Enthalpy of Formation Reference Table
6.1 Endo-/Exothermic Processes (Answer Key)
6.2 Energy Diagrams (Answer Key)
6.3 Heat Transfer and Thermal Equilibrium (Answer Key)
6.4 Heat Capacity and Calorimetry (Answer Key)
6.5 Energy of Phase Changes (Answer Key)
6.6 Introduction to Enthalpy of Reaction (Answer Key)
6.7 Bond Enthalpies (Answer Key)
6.8 Enthalpy of Formation (Answer Key)
6.1 Endo-/Exothermic Processes🚧
6.2 Energy Diagrams🚧
6.3 Heat Transfer and Thermal Equilibrium🚧
6.4 Heat Capacity and Calorimetry🚧
6.5 Energy of Phase Changes🚧
6.6 Introduction to Enthalpy of Reaction🚧
6.7 Bond Enthalpies🚧
6.8 Enthalpy of Formation🚧
6.9 Hess's Law🚧
6.1 Endo-/Exothermic Processes
6.3 Heat Transfer and Thermal Equilibrium
6.4 Heat Capacity and Calorimetry
Unit 7 CED🚧
7.1 Introduction to Equilibrium (Answer Key)
7.2 Direction of Reversible Reactions (Answer Key)
7.3 Reaction Quotient and Equilibrium Constant (Answer Key)
7.4 Calculating the Equilibrium Constant (Answer Key)
7.5 Magnitude of the Equilibrium Constant (Answer Key)
7.6 Properties of the Equilibrium Constant (Answer Key)
7.7 Calculating Equilibrium Concentrations (Answer Key)
7.8 Representations of Equilibrium (Answer Key)
7.9 Introduction to Le Chatelier's Principle (Answer Key)
7.10 Reaction Quotient and Le Chatelier's Principle (Answer Key)
7.11 Introduction to Solubility Equilibria (Answer Key)
7.12 Common-Ion Effect (Answer Key)
7.13 pH and Solubility (Answer Key)
7.14 Free Energy of Dissolution (Answer Key)
7.1 Introduction to Equilibrium🚧
7.2 Direction of Reversible Reactions🚧
7.3 Reaction Quotient and Equilibrium Constant🚧
7.4 Calculating the Equilibrium Constant🚧
7.5 Magnitude of the Equilibrium Constant🚧
7.6 Properties of the Equilibrium Constant🚧
7.7 Calculating Equilibrium Concentrations🚧
7.8 Representations of Equilibrium🚧
7.9 Introduction to Le Chatelier's Principle🚧
7.10 Reaction Quotient and Le Chatelier's Principle🚧
7.11 Introduction to Solubility Equilibria🚧
7.14 Free Energy of Dissolution🚧
7.1 Introduction to Equilibrium
7.2 Direction of Reversible Reactions
7.3 Reaction Quotient and Equilibrium Constant
7.4 Calculating the Equilibrium Constant
7.5 Magnitude of the Equilibrium Constant
7.6 Properties of the Equilibrium Constant
7.7 Calculating Equilibrium Concentrations
7.8 Representations of Equilibrium
7.9 Introduction to Le Chatelier's Principle
7.10 Reaction Quotient and Le Chatelier's Principle
8.1 & 8.2 Introduction to Acids and Bases and pH and pOH of Strong Acids and Bases (Answer Key)
8.3 Weak Acid and Base Equilibria (Answer Key)
8.4 Acid-Base Reactions and Buffers (Answer Key)
8.5 Acid-Base Titrations (Answer Key)
8.6 Molecular Structure of Acids and Bases (Answer Key)
8.7 & 8.9 pH and pKa & Henderson-Hasselbalch Equation (Answer Key)
8.8 & 8.10 Properties of Buffers & Buffer Capacity (Answer Key)
Lab 8 🚧
8.1 Introduction to Acids and Bases🚧
8.2 pH and pOH of Strong Acids and Bases🚧
8.3 Weak Acid and Base Equilibria🚧
8.4 Acid-Base Reactions and Buffers🚧
8.5 Acid-Base Titrations🚧
8.6 Molecular Structure of Acids and Bases🚧
8.7 pH and pKa🚧
8.8 Properties of Buffers🚧
8.9 Henderson-Hasselbalch Equation🚧
8.10 Buffer Capacity🚧
8.1 Introduction to Acids and Bases
8.2 pH and pOH of Strong Acids and Bases
8.3 Weak Acid and Base Equilibria
8.4 Acid-Base Reactions and Buffers Part I
8.4 Acid-Base Reactions and Buffers Part II
8.6 Molecular Structure of Acids and Bases
Enthalpy of Formation Reference Table
9.1 Introduction to Entropy (Answer Key)
9.2 Absolute Entropy and Entropy Change (Answer Key)
9.3 Gibbs Free Energy and Thermodynamic Favorability (Answer Key)
9.4 Thermodynamic and Kinetic Control (Answer Key)
9.5 Free Energy and Equilibrium (Answer Key)
9.6 Coupled Reactions (Answer Key)
9.7 Galvanic (Voltaic) and Electrolytic Cells (Answer Key)
9.8 Cell Potential and Free Energy (Answer Key)
9.9 Cell Potential Under Nonstandard Conditions (Answer Key)
9.10 Electrolysis and Faraday's Law (Answer Key)
Lab 9 🚧
9.1 Introduction to Entropy🚧
9.2 Absolute Entropy and Entropy Change🚧
9.3 Gibbs Free Energy and Thermodynamic Favorability🚧
9.4 Thermodynamic and Kinetic Control🚧
9.5 Free Energy and Equilibrium🚧
9.6 Coupled Reactions🚧
9.7 Galvanic (Voltaic) and Electrolytic Cells🚧
9.8 Cell Potential and Free Energy🚧
9.9 Cell Potential Under Nonstandard Conditions🚧
9.10 Electrolysis and Faraday's Law🚧
9.2 Absolute Entropy and Entropy Change
9.3 Gibbs Free Energy and Thermodynamic Favorability
9.4 Thermodynamic and Kinetic Control
9.5 Free Energy and Equilibrium
9.7 Galvanic (Voltaic) and Electrolytic Cells
9.8 Cell Potential and Free Energy