physics

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Created by
Abiya Thangamuthu

Cards (218)

  • Particle groups
    • Hadrons
    • Leptons
  • Leptons
    Fundamental particles including electron, muon (heavy electron), and neutrino
  • Lepton number
    Leptons have a lepton number of 1, their antiparticles have a lepton number of -1
  • Neutrinos
    Can be electron neutrinos or muon neutrinos, their lepton numbers must be treated separately
  • Quark flavours

    • Up
    • Down
    • Strange
  • Strangeness
    Strange quarks have strangeness -1, antistrange quarks have strangeness +1
  • Baryon number
    Baryons have a baryon number of +1 or -1 if they contain antiquarks
  • Neutrons are up-down-down, protons are up-up-down
  • Electromagnetic force
    Affects any charged particle, exchange particle is the photon
  • Particle groups
    • Hadrons
    • Leptons
  • Leptons
    Fundamental particles including electron, muon (heavy electron), and neutrino
  • Lepton number
    Leptons have a lepton number of 1, their antiparticles have a lepton number of -1
  • Types of neutrinos
    • Electron neutrinos
    • Muon neutrinos
  • Quark flavours

    • Up
    • Down
    • Strange
  • Strangeness
    Strange quarks have strangeness -1, antistrange quarks have strangeness +1
  • Baryon number
    Baryons have a baryon number of +1 or -1 depending on presence of antiquarks
  • Electromagnetic force
    Affects any charged particle, exchange particle is the photon
  • Gravity
    Exchange particle is the graviton
  • Weak force
    Affects any particle, exchange particles are W+, W-, Z0 bosons
  • Strong force
    Affects hadrons only, exchange particle is the gluon
  • Electrostatic repulsion between protons

    Pushes outwards
  • Strong force
    Pulls inwards
  • When the forces are balanced, a nucleus is stable
  • Range of strong force
    1. 4 fm, switches from attractive to repulsive at 0.5 fm
  • In any interaction, charge, baryon number and lepton numbers must be conserved
  • Beta minus decay
    Down quark in neutron decays to up quark, emitting electron and antineutrino
  • Feynman diagrams
    Used to represent weak interactions involving W+ or W- bosons
  • Interactions involving leptons must be weak, regardless of strangeness
  • Interactions involving only hadrons and conserving strangeness must be strong
  • Interactions involving hadrons and not conserving strangeness must be weak
  • Specific charge
    Charge to mass ratio of a particle, unit is C/kg
  • Types of radiation
    • Electromagnetic (emitted by electrons)
    • Gamma (emitted by nucleus)
    • Alpha (emitted in radioactive decay)
    • Beta (emitted in radioactive decay)
  • Gamma radiation can ionize atoms and cause cell/DNA damage
  • Alpha decay

    1. Nucleus emits alpha particle (2 protons, 2 neutrons)
    2. Daughter nucleus has lower atomic number
  • Beta decay
    1. Neutron in nucleus decays to proton, electron and antineutrino
    2. Atomic number increases by 1
  • Annihilation of particle-antiparticle pair produces 2 photons
  • Photon energy
    Equals 2mc^2 (rest energy of particles)
  • Photon energy
    Equals hf (Planck's constant times frequency)
  • Pair production
    High energy photon converts to particle-antiparticle pair
  • Electron energy levels
    Discrete, with ground state (n=1) and higher excited states (n=2, 3, etc.)