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A-level Physics
[edit | edit source]OCR B (Advancing Physics)
[edit | edit source]- AS
- Optics
- Lenses
- Refraction
- Communications
- Digital Storage
- Digital Processing
- Digitisation
- Signal Frequencies
- Bandwidth
- Electricity
- Charge
- Current
- Voltage
- Power
- Resistance and Conductance
- Internal Resistance
- Potential Dividers
- Sensors
- Resistivity and Conductivity
- Semiconductors
- Material Structure
- Stress, Strain & the Young Modulus
- Metals
- Polymers
- Waves
- What is a wave?
- Phasors
- Standing Waves
- Young's Slits
- Diffraction
- Finding the Distance of a Remote Object
- Quantum Physics
- Light
- Quantum Behaviour
- Electron Behaviour
- Mechanics
- Vectors
- Graphs
- Kinematics
- Forces and Power
- A2
- Decay
- Exponential Relationships
- Capacitors
- Radioactive Decay
- Half-lives
- Gravity
- Force
- Field
- Potential Energy
- Potential
- Mechanics
- Simple Harmonic Motion
- Energy in Simple Harmonic Motion
- Damping
- Resonance
- Conservation of Momentum
- Forces and Impulse in Collisions
- Rockets, Hoses and Machine Guns
- Circular Motion
- Astrophysics
- Radar and Triangulation
- Large Units
- Orbits
- Doppler Effect
- The Big Bang
- Thermodynamics
- Heat and Energy
- Specific Heat Capacity
- Ideal Gases
- Kinetic Theory
- Boltzmann Factor
- Magnetic Fields
- Flux
- Induction
- Force
- Transformers
- Motors
- Generators
- Electric Fields
- Force
- Field
- Potential
- Potential Energy
- Particle Physics
- The Standard Model
- Quarks
- Bosons
- Leptons
- Millikan's Experiment
- Pair Production and Annihilation
- Particle Accelerators
- Cloud Chambers and Mass Spectrometers
- Nuclear Physics
- Quantum Principles
- Radioactive Emissions
- Energy Levels
- Fission
- Fusion
- Binding Energy
- Risks, Doses and Dose Equivalents
- Appendices
- Trigonometry
- Logarithms
- Delta - 'difference in'
- Sigma - 'sum of'
- Derivation of Equations for Simple Harmonic Motion
- Worked Solutions
- Lenses
- Refraction
- Digital Storage
- Digital Processing
- Digitisation
- Signal Frequencies
- Bandwidth
- Charge
- Current
- Voltage
- Power
- Resistance and Conductance
- Internal Resistance
- Potential Dividers
- Sensors
- Resistivity and Conductivity
- Semiconductors
- Stress, Strain & the Young Modulus
- Metals
- Polymers
- What is a wave?
- Phasors
- Standing Waves
- Young's Slits
- Diffraction
- Light
- Electron Behaviour
- Vectors
- Graphs
- Kinematics
- Forces and Power
- Exponential Relationships
- Capacitors
- Radioactive Decay
- Half-lives
- Gravitational Force
- Gravitational Field
- Gravitational Potential Energy
- Gravitational Potential
- Simple Harmonic Motion
- Energy in Simple Harmonic Motion
- Damping
- Conservation of Momentum
- Forces and Impulse in Collisions
- Rockets, Hoses and Machine Guns
- Circular Motion
- Radar and Triangulation
- Large Units
- Orbits
- Doppler Effect
- The Big Bang
- Heat and Energy
- Specific Heat Capacity
- Ideal Gases
- Kinetic Theory
- Boltzmann Factor
- Magnetic Flux
- Induction
- Magnetic Force
- Transformers
- Motors
- Generators
- Electric Force
- Electric Field
- Electric Potential
- Electric Potential Energy
- The Standard Model
- Quarks
- Bosons
- Leptons
- Millikan's Experiment
- Pair Production and Annihilation
- Particle Accelerators
- Cloud Chambers and Mass Spectrometers
- Radioactive Emissions
- Energy Levels
- Fission
- Fusion
- Binding Energy
- Risks, Doses and Dose Equivalents