Wikibooks:Collections/A-level Physics (Advancing Physics)

OCR B (Advancing Physics)

 * 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