Simulations

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Chapter 1: Essential ideas: Exercise: Physical Properties of Matter; Exercise: Identifying Pure Substances and Mixtures; Tutor: Metric System Prefixes; Tutor: Unit Conversion; Significant Figures; Tutor: Scientific Notation 1, Multiplication and Division; Tutor: Scientific Notation 2, Raising to a Power; Tutor: Scientific Notation 3, Square Roots; Tutor: Density 1; Tutor: Density 2; Tutor: Temperature; Plotter

Chapter 2 Part 1: Atoms, Molecules and Ions: Exercise: Periodic Table Organization; The Periodic Table 1; The Periodic Table 2; Exercise: Electric Charge; Exercise: Radiation and Charge; Exercise: Cathode Rays; Exercise: Millikan Oil Drop Experiment; Exercise: Canal Ray Experiment; Exercise: The Rutherford Experiment; Tutor: Summary of Atomic Composition; Tutor: Average Atomic Mass from Isotopic Abundance

Chapter 2 Part 2: Atoms, Molecules and Ions: Tutor: Representing Compounds; Exercise: Isomers; Tutor: Naming Compounds of the Nonmetals; Phases of the Elements; Ionic Compounds; Coulomb's Law; Tutor: Ions Predicting Charge 1; Tutor: Ions Predicting Charge 2; Tutor: Polyatomic Ions; Simulation: Ionic Compound Formulas; Nomenclature Tutorial; Tutor: Naming Ionic Compound Formulas; Tutor: Moles and Atoms Conversion; Tutor: Molar Mass Conversion 1; Tutor: Molar Mass Conversion 2; Simulation: Compounds and Moles; Tutor: Determining Molar Mass; Tutor: Using Molar Mass; Tutor: Using Molar Mass; Molecular Weight and Weight Percent; Formulas and Percent Composition; Compound Builder; Tutor: Percent Composition; Tutor: Empirical Formulas; Tutor: Molecular Formulas; Tutor: Hydrated Compounds; Exercise: Analysis of a Mixture

Chapter 4: Stoichiometry of Chemical Reactions: Exercise: The Law of Conservation of Matter 1; Exercise: The Law of Conservation of Matter 2; Tutor: Balancing Chemical Equations; Balancing Equations; Limiting Reagents (Stoichiometry); Exercise: Weight Relations in Chemical Reactions; Exercise: Limiting Reactants Redox Reactions; Simulation: Limiting Reactants; Tutor: Theoretical Yield; Tutor: Stoichiometry Theoretical Yield; Tutor: Percent Yield; Tutor: Chemical Analysis

Chapter 4: Stoichiometry of Chemical Reactions: Exercise: Dissolving Ionic Compounds; Molarity Calculations; Tutor: Solution Concentration; Tutor: Ion Concentration; Tutor: Direct Addition; Exercise: Direct Addition Method; Tutor: Dilution; Exercise: Dilution Method; Tutor: Solution Stoichiometry 1; Exercise: Solution Stoichiometry; Tutor: Solution Stoichiometry 2; Tutor: Titration mL Titrant Used; Tutor: Concentration of Unknown via Titration; Tutor: Concentration of Unknown via Titration; Simulation: Acid Ionization; Simulation: Solubility of Ionic Compounds; Tutor: Solubility of Ionic Compounds; Tutor: Net Ionic Equations; Tutor: Assigning Oxidation Numbers; Exercise: Exploring Chemical Reactions 1; Exercise: Exploring Chemical Reactions 2; Oxidation Numbers Tutorial; Exercise: Redox Reactions; Tutor: Precipitation Reactions; Tutor: Recognizing Reactions

Chapter 5: Thermochemistry: Calorimetry; Using Heat of Formation Enthalpies; Hess's Law Tutorial; Tutor: Specific Heat Capacity

Chapter 6: Electronic Structure and Periodic Properties of Elements: Tutor: Determining Frequency; Tutor: Determining Wavelength; Simulation: The Electromagnetic Spectrum; Electromagnetic Spectrum; Orbital Energies; Atomic Absorption and Emission; UV-Vis Absorbance Spectroscopy; Simulation: Planck's Equation; Tutor: Energy of Light; Exercise: Atomic Line Spectra; Simulation: Atomic Absorption and Emission; Tutor: The Hydrogen Atom; Tutor: Matter Waves; Tutor: Quantum Numbers; Exercise: Shapes of Atomic Orbitals; Exercise: Node

Chapter 6: Electronic Structure and Periodic Properties of Elements: Atomic Electronic Configurations; Tutor: Electron Configurations of Ions; Simulation: Electron Configurations of Ions; Simulation: Orbital Energies; Simulation: Effective Nuclear Charge; Tutor: Electron Configurations 2; Tutor: Electron Configurations and Magnetism; Tutor: Electron Configurations 1; Simulation: Electron Configurations of Ions; Simulation: Atomic Size; Simulation: Ion Charge; Simulation: Ion Size; Simulation: Ionization Energy; Simulation: Electron Affinity