Stoichiometric relationships
1.1 – Introduction to the particulate nature of matter
1.2 – The mole concept
1.3 – Reacting masses and volumes
Atomic theory
2.1 – The nuclear atom
2.2 – Electron configuration
12.1 – Electrons in atoms
Periodicity
3.1 – Periodic table
3.2 – Periodic trends
13.1 – First-row d-block elements
13.2 – Coloured complexes
Chemical bonding and structure
4.1 – Ionic bonding and structure
4.2 – Covalent bonding
4.3 – Covalent structures
4.4 – Intermolecular forces
4.5 – Metallic bonding
14.1 – Electron domain and molecular geometry
14.2 – Hybridization
Energetics/ Thermodynamics
5.1 – Measuring energy changes
5.2 – Hess’s Law
5.3 – Bond enthalpies
15.1 – Energy cycles
15.2 – Entropy and spontaneity
Chemical kinetics
6.1 – Collision theory and rates of reaction
16.1 – Rate expression and reaction mechanism
16.2 – Activation energy
Equilibrium
7.1 – Equilibrium
17.1 – The equilibrium law
Acids and bases
8.1 – Theories of acids and bases
8.2 – Properties of acids and bases
8.3 – The pH scale
8.4 – Strong and weak acids and bases
8.5 – Acid deposition
18.1 – Lewis acids and bases
18.2 – Calculations involving acids and bases
18.3 – pH curves
Redox processes
9.1 – Oxidation and reduction
9.2 – Electrochemical cells (core)
19.1 – Electrochemical cells (AHL)
Organic chemistry
10.1 – Fundamentals of organic chemistry
10.2 – Functional group chemistry
20.1 – Types of organic reactions
20.2 – Synthetic routes
20.3 – Stereoisomerism
Measurement and data processing
11.1 – Uncertainties and errors in measurement
11.2 – Graphical techniques
11.3 – Spectroscopic identification of organic compounds (core)
21.1 – Spectroscopic identification of organic compounds (AHL)