General Chemistry I
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Class 1: Introduction to the Central Science
Module 1: Preparation Module
Module 2: Meet Jim Davis
Module 3: Introduction to the Course
Module 4: Elements and Compounds
Module 5: Properties of Matter
Module 6: Classification of Matter; Separations
Module 7: Logan McCarty & Interactive Modules
Module 8: Introducing Properties of Matter
Module 9: Temperature
Module 10: Units
Module 11: Dimensional Analysis
Module 12: Unit Conversions
Module 13: Uncertainty in Measurement
Module 14: Significant Figures
Class 2: Atoms, Molecules, Ions, & Formulas
Module 1: Preparation Module
Module 2: Preview
Module 3: Dalton's Atomic Theory
Module 4: Intro to Modern Atomic Theory
Module 5: The Periodic Table
Module 6: Subatomic Particles
Module 7: Molecular Compounds
Module 8: Ionic Compounds
Module 9: Naming Inorganic Compounds
Module 10: Nomenclature
Class 3: Stoichiometry I
Module 1: Preparation Module
Module 2: Preview
Module 3: Chemical Equations
Module 4: Lab Demo: Types of Reactions
Module 5: Chemical Reactions
Module 6: Atomic Masses
Module 7: Molecular and Molar Masses
Module 8: Formulas and Chemical Equations
Module 9: Percentage Composition
Module 10: The Mole
Module 11: Mole Calculations
Class 4: Stoichiometry II
Module 1: Preparation Module
Module 2: Preview
Module 3: Empirical Formulas from Analyses
Module 4: Combustion Analysis
Module 5: Percent Composition
Module 6: Information from Balanced Equations
Module 7: Stoichiometry
Module 8: Limiting Reactants
Module 9: Limiting Reactant Calculations
Class 5: Aqueous Reactions
Module 1: Preparation Module
Module 2: Preview
Module 3: General Properties of Aqueous Solutions
Module 4: Precipitation Reactions
Module 5: Interpreting Net Ionic Equations
Module 6: Acid/Base Reactions
Module 7: Writing Net Ionic Equations
Module 8: Reduction/Oxidation Reactions (Redox)
Module 9: Oxidation States
Class 6: Concentrations and Molarity
Module 1: Preparation Module
Module 2: Preview
Module 3: Concentrations of Solutions
Module 4: Concentrations
Module 5: Calculations Using Molarity
Module 6: Dilution Calculations
Module 7: Dilutions
Module 8: Molarity in Chemical Reactions
Module 9: Titrations
Module 10: Titration Calculations
Class 7: Thermochemistry I
Module 1: Preparation Module
Module 2: Preview
Module 3: Kinetic and Potential Energy
Module 4: Heat and Work
Module 5: Calculating Heat
Module 6: The First Law of Thermodynamics
Module 7: State Functions and Path Functions
Module 8: Internal Energy, Enthalpy and Heat
Module 9: Units and Variables
Module 10: Measurement of Heat: Calorimetry
Module 11: Calorimetry
Class 8: Thermochemistry II
Module 1: Preparation Module
Module 2: Preview
Module 3: Lab Demo: Enthalpies of Reaction
Module 4: Properties of State Functions
Module 5: Hess's Law
Module 6: Standard Enthalpies of Formation
Module 7: DH of Formation and Hess's Law
Module 8: Energy Values of Foods and Fuels
Module 9: Foods, Fuels, Units
Class 9: Gases I
Module 1: Preparation Module
Module 2: Preview
Module 3: The Atmosphere
Module 4: The Barometer
Module 5: Units Review
Module 6: The Manometer
Module 7: Empirical Gas Laws
Module 8: The Ideal Gas Equation
Module 9: The Ideal Gas Equation Calculations
Module 10: Dalton's Law of Partial Pressures
Module 11: Gas Laws
Module 12: Mole Fractions, Partial Pressures
Class 10: Gases II
Module 1: Preparation Module
Module 2: Preview
Module 3: Kinetic Ideal Gas Law
Module 4: Kinetic Derivation of Pressure
Module 5: Root Mean Square Speed
Module 6: Kinetic Energy
Module 7: Kinetic Theory
Module 8: Graham's Law of Effusion
Module 9: RMS, Kinetic Energy, Effusion
Module 10: Diffusion and Mean Free Path
Module 11: Distribution of Molecular Speeds
Module 12: Deviations from Ideal Behavior
Module 13: Real Gases
Class 11: Electronic Structure of Atoms I
Module 1: Preparation Module
Module 2: Preview
Module 3: The Wave Nature of Light
Module 4: Lab Demo: Flame Tests for Metals
Module 5: The Discovery of the Electron
Module 6: Radioactivity
Module 7: Rutherford and the Nuclear Atom
Module 8: The Photoelectric Effect
Module 9: Wave Nature of Light Applications
Module 10: Bohr's Model of the Hydrogen Atom
Module 11: The Wave Nature of Matter
Module 12: Quantum Mechanics
Module 13: Wave Nature of Matter Applications
Class 12: Electronic Structure of Atoms II
Module 1: Preparation Module
Module 2: Preview
Module 3: The Schrodinger Equation
Module 4: Quantum Numbers
Module 5: Representation of Orbitals
Module 6: Interpreting Quantum Numbers
Module 7: Atomic Orbitals
Module 8: Aufbau and Electron Configurations
Module 9: Electron Configurations
Module 10: Periodic Properties
Class 13: Periodic Properties of the Elements
Module 1: Preparation Module
Module 2: Preview
Module 3: The Periodic Law and Electron Shells
Module 4: Atomic Sizes
Module 5: Ionization Energies
Module 6: Electron Affinities
Module 7: Periodic Trends I
Module 8: Metals, Nonmetals and Metalloids
Module 9: Periodic Trends II
Module 10: Group Trends for the Active Metals
Module 11: Properties of Hydrogen and Oxygen
Module 12: Carbon, Nitrogen, Phosphorus, & Arsenic
Module 13: Oxygen Family, Halogens, & Noble Gases
Module 14: Group Trends
Class 14: Chemical Bonding I
Module 1: Preparation Module
Module 2: Preview
Module 3: Introduction to Chemical Bonding
Module 4: Ionic bonding
Module 5: The Born Haber Cycle
Module 6: Sizes of Ions
Module 7: Electron Configurations of Ions
Module 8: Covalent Bonding; Sharing of Electrons
Module 9: Lewis Structures
Module 10: Bond Polarity and Electronegativity
Module 11: Dipole Moments
Module 12: Polarity and Dipole Moments
Class 15: Chemical Bonding II
Module 1: Prepratory Module
Module 2: Preview
Module 3: Rules for Drawing Lewis Structures
Module 4: Examples of Lewis Structures
Module 5: Octet Lewis Structures
Module 6: Formal Charge
Module 7: Formal Charge Calculations
Module 8: Resonance Structures
Module 9: Some Exceptions to the Octet Rule
Module 10: Non-octet Lewis Structures
Module 11: Bond Dissociation Enthalpies
Module 12: Enthalpies of Reactions
Module 13: Bond Dissociation Enthalpies
Class 16: Molecular Geometry & Bonding I
Module 1: Preparation Module
Module 2: Preview
Module 3: Molecular Shapes & VSEPR I
Module 4: Molecular Shapes & VSEPR II
Module 5: VSEPR for Expanded Octet Molecules
Module 6: Uses of VSEPR
Module 7: Molecular Geometries
Module 8: Polarity of Polyatomic Molecules
Module 9: Molecular Geometries of Ions
Module 10: Covalent Bonding & Orbital Overlap
Module 11: Hybrid Orbitals
Module 12: Hybridization for Expanded Octets
Module 13: Hybridization of Orbitals
Class 17: Molecular Geometry & Bonding II
Module 1: Preparation Module
Module 2: Preview
Module 3: Multiple Bonds
Module 4: s and p Bonds, Hybridization
Module 5: Delocalized p Bonds and Resonance
Module 6: Delocalization and Resonance
Module 7: Bonding and Antibonding Orbitals
Module 8: MO's-First Period Diatomic Molecules
Module 9: MO's-Second Period Diatomic Molecules
Module 10: Molecular Orbitals
Module 11: Lab Demo: Paramagnetism
Module 12: Application of MO Theory
Class 18: Intermolecular Forces I
Module 1: Preparation Module
Module 2: Preview
Module 3: States of Matter
Module 4: Gases, Liquids, Solids
Module 5: Ionic Forces, Ion-Dipole Forces
Module 6: Dipole, Induced Dipole, & London Forces
Module 7: Hydrogen Bonding
Module 8: Boiling Points and Intermolecular Forces
Module 9: Boiling Point Trends
Module 10: Some Properties of Liquids
Module 11: Types of Intermolecular Forces
Class 19: Intermolecular Forces II
Module 1: Preparation Module
Module 2: Preview
Module 3: Phase Changes
Module 4: Heating Curves
Module 5: Equilibrium and Vapor Pressure
Module 6: Interpreting Heating Curves
Module 7: Phase Diagrams
Module 8: Interpreting Phase Diagrams
Module 9: Structures of Solids
Module 10: X-ray Crystallography & Crystal Density
Module 11: Other Unit Cells & Closest Packing
Module 12: Crystal Structures
Module 13: Ionic and Molecular Crystals
Module 14: Covalent Network and Metallic Crystals
Class 20: Solutions
Module 1: Preparation Module
Module 2: Preview
Module 3: The Solution Process
Module 4: Solubility and Saturated Solutions
Module 5: Gas Solubility and Henry's Law
Module 6: Ways of Expressing Concentration
Module 7: Concentration Conversions
Module 8: Introducing Colligative Properties
Module 9: More Colligative Properties
Module 10: Osmotic Pressure
Module 11: Applications of Osmotic Pressure
Module 12: Colligative Property Equations
Module 13: Determination of Molar Mass
Module 14: Colligative Properties
Module 15: Colloids
Module 16: Course Good-bye
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Prep Modules
Lecture Modules
Interactive Modules
