Course curriculum

  • 1
    1a. Atomic Theory
  • 2
    1b. Electron Configuration
    • Electron Configuration Summary
    • 1. Bohr's Model - Hydrogen Emission Spectra Experiment (4:41)
    • 2. Bohr's Model - Electron Shells (3:52)
    • 3. Schrodinger's Model - Subshells, Orbitals (6:55)
    • 4. Filling Subshells (6:59)
    • 5. Exceptions to Subshell Order Filling, Orbital Shapes (1:48)
    • 6. Periodic Table Subshell Blocks (2:15)
    • Multiple Choice Questions
  • 3
    1c. Periodic Table
    • Periodic Table Summary
    • 1. Groups, Periods (3:26)
    • 2. Subshell Blocks, Group Names (4:41)
    • 3. Trends, Core Change: Atomic Radius (3:29)
    • 4. Trends: Ionisations Energy, Reactivity of Metals (4:04)
    • 5. Trends: Electronegativity (2:26)
    • Multiple Choice Questions
  • 4
    1d. Metals
    • Metals Summary
    • 1. Metals: Ionisation Energy, Electronegativity, Reactivity (3:33)
    • 2. Metallic Bonding Model (1:49)
    • 3. Properties of Metals (5:39)
    • 4. Transition Metals (1:30)
    • 5. Metal Crystals (3:50)
    • 6. Work Hardening, Heat Treatment: Annealing, Quenching, Tempering (2:41)
    • 7. Alloys: Metal Coatings (4:02)
    • 8. Extraction of Iron from Iron Ore (3:07)
    • 9. Metallic Nanoparticles (2:48)
    • Multiple Choice Questions
  • 5
    1e. Ionic Bonding
    • Ionic Bonding Summary
    • 1. Ion formation (4:47)
    • 2. Anions, Cations, Polyatomic Ions , Naming Ionic Compounds (3:43)
    • 3. Electron Transfer Diagrams (2:23)
    • 4. Writing Ionic Formula (7:11)
    • 5. Ionic Bonding Model (2:07)
    • Multiple Choice Questions
  • 6
    1f. The Mole
    • Mole Summary
    • 1. Relative Isotopic Mass (4:39)
    • 2. Relative Atomic Mass (5:04)
    • 3. Relative Molecular Mass, Relative Formula Mass (2:20)
    • 4. The Mole (10:25)
    • 5. Molar Mass (7:31)
    • 6. Percentage Composition (3:27)
    • 7. Empirical, Molecular Formula (2:40)
    • 8. Calculating Empirical Formala (5:48)
    • 9. Calculating Molecular Formula (5:09)
    • Multiple Choice Questions
  • 7
    1g. Covalent Bonding
    • Covalent Bonding Summary
    • 1. Covalent Bonding Model, Single, Double, Triple Bonds (4:26)
    • 2. Determining Number of Covalent Bonds Formed (3:02)
    • 3. Electron Dot Diagrams and Valence Structures (6:58)
    • 4. Shapes of Molecules (4:23)
    • 5. Intra/Inter-Molecular Forces, Polarity (5:23)
    • 6. Polar and Non-Polar Molecules (3:42)
    • 7. Properties of Covalent Molecules (4:31)
    • 8. Dipole-Dipole Bonds (2:44)
    • 9. Hydrogen Bonding (3:54)
    • 10. Dispersion Forces, Van der Waals (4:13)
    • Multiple Choice Questions
  • 8
    1h. Carbon Lattices & Nanomaterials
    • Carbon Lattices and Carbon Nanomaterials Summary
    • 1. Covalent Network Lattices (3:12)
    • 2. Layer Lattices (3:29)
    • 3. Carbon Nanomaterials - Fullerenes, Graphene, Nanotubes (2:08)
    • Multiple Choice Questions
  • 9
    1i. Organic Compounds
    • Organic Compounds (11) Summary
    • 1. Alkanes, Alkenes, Alkynes (9:22)
    • 2. Naming Hydrocarbons and Numbering Functional Groups (5:21)
    • 3. Properties of Hydrocarbons (3:46)
    • 4. Structural Isomers (2:42)
    • 5. Haloalkanes (3:23)
    • 6. Alcohols (3:38)
    • 7. Carboxylic acids (2:54)
    • 8. Esters (3:29)
    • Multiple Choice Questions
  • 10
    1j. Polymers
    • Polymers Summary
    • 1. Polymer structure, Monomers (1:52)
    • 2. Addition Polymerisation (4:37)
    • 3. Branching, High, Low Density Polymers, Plasticisers (3:26)
    • 4. Thermosetting, Linear, Thermoplastic, Cross-linked, Polymers (3:03)
    • Multiple Choice Questions