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