- Atomic structure and the periodic table
- 1.1 - A simple model of the atom, symbols, relative atomic mass, electronic charge and isotopes
- 1.2 - The periodic table
- 1.3 - Properties of transition metals
- Bonding, structure, and the properties of matter
- 2.1 - Chemical bonds
- 2.2 - How bonding and structure are related to the properties of substances
- 2.3 - Structure and bonding of carbon
- 2.4 - Bulk and surface properties of matter including nanoparticles
- Quantitative chemistry
- 3.1 - Chemical measurements, conservation of mass and the quantitative interpretation of chemical equations
- 3.2 - Use of amount of substance in relation to masses of pure substances
- 3.3 - Yield and atom economy of chemical reactions
- Chemical changes
- 4.1 - Reactivity of metals
- 4.2 - Reactions of acids
- 4.3 - Electrolysis
- Energy changes
- 5.1 - Exothermic and endothermic reactions
- 5.2 - Chemical cells and fuel cells
- The rate and extent of chemical change
- 6.1 - Rate of reaction
- 6.2 - Reversible reactions and dynamic equilibrium
- Organic chemistry
- 7.1 - Carbon compounds as fuels and feedstock
- 7.2 - Reactions of alkenes and alcohols
- 7.3 - Synthetic and naturally occurring polymers
- Chemical analysis
- 8.1 - Purity, formulations and chromatography
- 8.2 - Identification of common gases
- 8.3 - Identification of ions by chemical and spectroscopic means
- Chemistry of the atmosphere
- 9.1 - The composition and evolution of the Earth's atmosphere
- 9.2 - Carbon dioxide and methane as greenhouse gases
- 9.3 - Common atmospheric pollutants and their sources
- Using resources
- 10.1 - Using the Earth's resources and obtaining potable water
- 10.2 - Life cycle assessment and recycling
- 10.3 - Using materials
- 10.4 - The Haber process and the use of NPK fertilisers
- Atomic structure and the periodic table
- 1.1 - A simple model of the atom, symbols, relative atomic mass, electronic charge and isotopes
- 1.2 - The periodic table
- 1.3 - Properties of transition metals
- Bonding, structure, and the properties of matter
- 2.1 - Chemical bonds
- 2.2 - How bonding and structure are related to the properties of substances
- 2.3 - Structure and bonding of carbon
- 2.4 - Bulk and surface properties of matter including nanoparticles
- Quantitative chemistry
- 3.1 - Chemical measurements, conservation of mass and the quantitative interpretation of chemical equations
- 3.2 - Use of amount of substance in relation to masses of pure substances
- 3.3 - Yield and atom economy of chemical reactions
- Chemical changes
- 4.1 - Reactivity of metals
- 4.2 - Reactions of acids
- 4.3 - Electrolysis
- Energy changes
- 5.1 - Exothermic and endothermic reactions
- 5.2 - Chemical cells and fuel cells
- The rate and extent of chemical change
- 6.1 - Rate of reaction
- 6.2 - Reversible reactions and dynamic equilibrium
- Organic chemistry
- 7.1 - Carbon compounds as fuels and feedstock
- 7.2 - Reactions of alkenes and alcohols
- 7.3 - Synthetic and naturally occurring polymers
- Chemical analysis
- 8.1 - Purity, formulations and chromatography
- 8.2 - Identification of common gases
- 8.3 - Identification of ions by chemical and spectroscopic means
- Chemistry of the atmosphere
- 9.1 - The composition and evolution of the Earth's atmosphere
- 9.2 - Carbon dioxide and methane as greenhouse gases
- 9.3 - Common atmospheric pollutants and their sources
- Using resources
- 10.1 - Using the Earth's resources and obtaining potable water
- 10.2 - Life cycle assessment and recycling
- 10.3 - Using materials
- 10.4 - The Haber process and the use of NPK fertilisers