1.1 Physical Quantities and Measurement techniques
1.2 Motion
1.3 Mass and weight
1.4 Density
1.5.1 Balanced and unbalanced forces
1.5.2 Friction
1.5.4 Circular motion
1.5.3 Elastic deformation
1.5.5 Turning effect of forces
1.5.6 Centre of gravity
1.6 Momentum
1.7.1 Energy
1.7.2 Work
1.7.3 Energy resources
1.7.4 Efficiency
1.7.5 Power
1.8 Pressure
2.1.1 States of matter
2.1.2 Particle model
2.2.1 Thermal expansion of solids, liquids and gases
2.2.2 Specific heat capacity
2.2.3 Melting, boiling and evaporation
2.3.1 Conduction
2.3.2 Convection
2.3.3 Radiation
2.3.4 Consequences of thermal energy transfer
3.1 General properties of waves
3.2.1 Reflection of light
3.2.2 Refraction of light
3.2.3 Thin lenses
3.2.4 Dispersion of light
3.3 Electromagnetic spectrum
3.4 Sound
4.2.1 Electric charge
4.2.2 Electric current
4.2.3 Electromotive force and potential difference
4.2.4 Resistance
4.3.1 Circuit diagrams and circuit components
4.3.2 Series and parallel circuits
4.3.3 Action and use of circuit components
4.1.1 Uses of electricity
4.12 Electrical safety
4.1 Simple magnetism and magnetic fields
4.5.3 Magnetic effect of a current
4.5.4Forces on a current-carrying conductor
4.5.6 The transformer
4.5.1 Electromagnetic induction
4.5.2 The a.c. generator
4.6 Uses of Oscilloscope
5.1.1 The atom
5.1.2 The nucleus
5.2.1 Detection of radioactivity
5.2.2 The three types of emission
5.2.3 Radioactivity decay
5.2.4 Fission and fusion
5.2.5 Half-life
5.2.6 Safety precautions
6.1.1 The Earth
6.1.2 The Solar System
6.2.1 The sun as a star
6.2.2 Stars
6.2.3 The Universe
