List of A-level worksheets
1 Measurements and their errors
1.1 Use of SI units and their prefixes
1.2.1 Limitations of physical measurements
1.2.2 Uncertainties - graphical methods
1.3 Estimation of physical values
1.2.1 Limitations of physical measurements
1.2.2 Uncertainties - graphical methods
1.3 Estimation of physical values
2 Particles and radiation
2.1 Constituents of the atom
2.2 Stable and unstable nuclei (Google Form version available)
2.3.1 Particles and antiparticles (Google Form version available)
2.3.2 Photons (Google Form version available)
2.4 Particle interactions
2.5.1 Classification of particles
2.5.2 Lepton number, baryon number and strangeness
2.6 Quarks and antiquarks
2.7 Conservation rules
2.8.1 The photoelectric effect (Google Form version available)
2.8.2 More on the photoelectric effect (Google Form version available)
2.9 Collisions of electrons with atoms (Google Form version available)
2.10.1 Energy levels and spectra (Google Form version available)
2.10.2 Energy levels and photon emission (Google Form version available)
2.11 Wave particle duality (Google Form version available)
2.2 Stable and unstable nuclei (Google Form version available)
2.3.1 Particles and antiparticles (Google Form version available)
2.3.2 Photons (Google Form version available)
2.4 Particle interactions
2.5.1 Classification of particles
2.5.2 Lepton number, baryon number and strangeness
2.6 Quarks and antiquarks
2.7 Conservation rules
2.8.1 The photoelectric effect (Google Form version available)
2.8.2 More on the photoelectric effect (Google Form version available)
2.9 Collisions of electrons with atoms (Google Form version available)
2.10.1 Energy levels and spectra (Google Form version available)
2.10.2 Energy levels and photon emission (Google Form version available)
2.11 Wave particle duality (Google Form version available)
3 Waves
3.1 Progressive waves (Google Form version available)
3.2 Longitudinal and transverse waves (Google Form version available)
3.3.1 Superposition of waves
3.3.2 Standing waves (Google Form version available)
3.4.1 Interference
3.4.2 Coherence and Young's double slits (Google Form version available)
3.5.1 Single slit diffraction (Google Form version available)
3.5.2 More on single slit diffraction
3.5.3 Diffraction gratings (Google Form version available)
3.6.1 Refraction
3.6.2 Ray diagrams
3.2 Longitudinal and transverse waves (Google Form version available)
3.3.1 Superposition of waves
3.3.2 Standing waves (Google Form version available)
3.4.1 Interference
3.4.2 Coherence and Young's double slits (Google Form version available)
3.5.1 Single slit diffraction (Google Form version available)
3.5.2 More on single slit diffraction
3.5.3 Diffraction gratings (Google Form version available)
3.6.1 Refraction
3.6.2 Ray diagrams
4 Mechanics and materials
4.1.1 Scalars and vectors
4.1.2 Balanced forces
4.2.1 The principle of moments (Google Form version available)
4.2.2 More on moments (Google Form version available)
4.3.1 Speed and velocity
4.3.2 Acceleration (Google Form version available)
4.3.3 Uniform acceleration
4.3.4 Acceleration due to gravity
4.4 Projectile motion
4.5.1 Drawing free body diagrams and F=ma
4.5.2 Using F=ma
4.5.3 Terminal velocity (Google Form version available)
4.5.4 Newton's third law (Google Form version available)
4.6.1 Force and change of momentum (Google Form version available)
4.6.2 Explosions and collisions (Google Form version available)
4.6.3 Passenger Safety (Google Form version available)
4.7.1 Kinetic and potential energy (Google Form version available)
4.7.2 Work and energy (Google Form version available)
4.8.1 Work and energy (Google Form version available)
4.8.2 Power
4.8.3 Efficiency
4.9.1 Density (Google Form version available)
4.9.2 Stretching springs
4.9.3 Energy stored in springs (Google Form version available)
4.10.1 The Young modulus (Google Form version available)
4.10.2 Area under the stress
4.10.3 Stretching materials (Google Form version available)
4.1.2 Balanced forces
4.2.1 The principle of moments (Google Form version available)
4.2.2 More on moments (Google Form version available)
4.3.1 Speed and velocity
4.3.2 Acceleration (Google Form version available)
4.3.3 Uniform acceleration
4.3.4 Acceleration due to gravity
4.4 Projectile motion
4.5.1 Drawing free body diagrams and F=ma
4.5.2 Using F=ma
4.5.3 Terminal velocity (Google Form version available)
4.5.4 Newton's third law (Google Form version available)
4.6.1 Force and change of momentum (Google Form version available)
4.6.2 Explosions and collisions (Google Form version available)
4.6.3 Passenger Safety (Google Form version available)
4.7.1 Kinetic and potential energy (Google Form version available)
4.7.2 Work and energy (Google Form version available)
4.8.1 Work and energy (Google Form version available)
4.8.2 Power
4.8.3 Efficiency
4.9.1 Density (Google Form version available)
4.9.2 Stretching springs
4.9.3 Energy stored in springs (Google Form version available)
4.10.1 The Young modulus (Google Form version available)
4.10.2 Area under the stress
4.10.3 Stretching materials (Google Form version available)
5 Electricity
5.1.1 Electrical charge and current (Google Form version available)
5.1.2 Potential difference and power (Google Form version available)
5.1.3 Resistance (Google Form version available)
5.1.4 Drift velocity (Google Form version available)
5.2 Circuit components and their characteristics
5.3 Resistivity (Google Form version available)
5.4.1 More about resistance (Google Form version available)
5.4.2 Circuit rules (Google Form version available)
5.5 Potential dividers (Google Form version available)
5.6 Emf and internal resistance (Google Form version available)
5.1.2 Potential difference and power (Google Form version available)
5.1.3 Resistance (Google Form version available)
5.1.4 Drift velocity (Google Form version available)
5.2 Circuit components and their characteristics
5.3 Resistivity (Google Form version available)
5.4.1 More about resistance (Google Form version available)
5.4.2 Circuit rules (Google Form version available)
5.5 Potential dividers (Google Form version available)
5.6 Emf and internal resistance (Google Form version available)
6 Further mechanics and thermal physics
6.1.1 Circular Motion (Google Form version available)
6.1.2 Centripetal acceleration (Google Form version available)
6.1.3 On the road
6.1.4 At the fairground
6.2.1 Oscillations
6.2.2 The principles of simple harmonic motion
6.2.3 More about sine waves
6.3.1 Applications of simple harmonic motion
6.3.2 Energy and simple harmonic motion
6.4 Forced vibrations and resonance
6.5.1 Internal energy
6.5.2 Temperature scales (Google Form version available)
6.5.3 Specific heat capacity
6.6.1 Gas laws (Google Form version available)
6.6.2 The Ideal Gas Law
6.7 Kinetic theory model of gases
6.1.2 Centripetal acceleration (Google Form version available)
6.1.3 On the road
6.1.4 At the fairground
6.2.1 Oscillations
6.2.2 The principles of simple harmonic motion
6.2.3 More about sine waves
6.3.1 Applications of simple harmonic motion
6.3.2 Energy and simple harmonic motion
6.4 Forced vibrations and resonance
6.5.1 Internal energy
6.5.2 Temperature scales (Google Form version available)
6.5.3 Specific heat capacity
6.6.1 Gas laws (Google Form version available)
6.6.2 The Ideal Gas Law
6.7 Kinetic theory model of gases
7 Fields and their consequences
7.1 Newton's law of gravitation
7.2 Gravitational field strength
7.3.1 Gravitational potential energy
7.3.2 Gravitational potential
7.4 Orbits
7.5 Coulomb's law (Google Form version available)
7.6 Electric field strength (Google Form version available)
7.7.1 Electric potential energy (Google Form version available)
7.7.2 Electric potential (Google Form version available)
7.8.1 The parallel plate capacitor (Google Form version available)
7.8.2 Anatomy of a capacitor and dielectrics (Google Form version available)
7.9 Energy stored by a capacitor (Google Form version available)
7.10 Capacitor charge and discharge (Google Form version available)
7.11 Magnetic flux density (Google Form version available)
7.12 Moving charges in a magnetic field (Google Form version available)
7.13 Magnetic flux (Google Form version available)
7.14 Electromagnetic induction
7.15 Alternating current
7.16 The operation of a transformer
7.2 Gravitational field strength
7.3.1 Gravitational potential energy
7.3.2 Gravitational potential
7.4 Orbits
7.5 Coulomb's law (Google Form version available)
7.6 Electric field strength (Google Form version available)
7.7.1 Electric potential energy (Google Form version available)
7.7.2 Electric potential (Google Form version available)
7.8.1 The parallel plate capacitor (Google Form version available)
7.8.2 Anatomy of a capacitor and dielectrics (Google Form version available)
7.9 Energy stored by a capacitor (Google Form version available)
7.10 Capacitor charge and discharge (Google Form version available)
7.11 Magnetic flux density (Google Form version available)
7.12 Moving charges in a magnetic field (Google Form version available)
7.13 Magnetic flux (Google Form version available)
7.14 Electromagnetic induction
7.15 Alternating current
7.16 The operation of a transformer
8 Nuclear physics
8.1 Rutherford scattering (Google Form version available)
8.2 Radioactive emissions (Google Form version available)
8.3.1 Radioactive decay
8.3.2 Carbon dating
8.4 Nuclear instability
8.5 Nuclear radius
8.6 Mass and energy
8.7 Induced fission
8.8 Safety aspects
8.2 Radioactive emissions (Google Form version available)
8.3.1 Radioactive decay
8.3.2 Carbon dating
8.4 Nuclear instability
8.5 Nuclear radius
8.6 Mass and energy
8.7 Induced fission
8.8 Safety aspects
9 Astrophysics (option)