particles and radiation

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    Cards (64)

    • Atom
      Formed of protons, neutrons and electrons
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    • Nucleus
      Formed of protons and neutrons, also known as nucleons
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    • Electrons
      Orbit the nucleus in shells or energy levels
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    • Particle properties
      • Charge
      • Mass
      • Specific charge
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    • Proton number
      Number of protons in an atom
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    • Nucleon number
      Number of protons and neutrons in an atom
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    • Isotopes
      Atoms with the same number of protons but different numbers of neutrons
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    • Carbon-14
      Radioactive isotope of carbon used in carbon dating
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    • Strong nuclear force (SNF)
      Keeps nuclei stable by counteracting the electrostatic force of repulsion between protons
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    • Unstable nuclei
      • Have too many protons, neutrons or both, causing the SNF to not be enough to keep them stable
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    • Alpha decay
      1. Occurs in large nuclei with too many protons and neutrons
      2. Proton number decreases by 2
      3. Nucleon number decreases by 4
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    • Beta-minus decay

      1. Occurs in nuclei which are neutron-rich
      2. Proton number increases by 1
      3. Nucleon number stays the same
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    • Neutrinos were hypothesised to account for energy not being conserved in beta-minus decay, and later observed
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    • Antiparticle
      Has the same rest energy and mass but all other properties are opposite the particle
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    • Photon
      Packets of electromagnetic radiation that transfer energy and have no mass
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    • The energy of photons is directly proportional to the frequency of electromagnetic radiation
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    • Annihilation
      Particle and antiparticle collide, their masses are converted into energy released as 2 photons
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    • Pair production
      Photon is converted into an equal amount of matter and antimatter
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    • Fundamental forces
      • Gravity
      • Electromagnetic
      • Weak nuclear
      • Strong nuclear
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    • Exchange particles
      Carry energy and momentum between particles experiencing a force
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    • Exchange particles for each fundamental force
      • Gluon (strong)
      • W boson (weak)
      • Virtual photon (electromagnetic)
      • Graviton (gravity)
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    • Electron capture

      p + e- → n + νe
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    • Beta-plus decay
      p → n + e+ + νe
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    • Beta-minus decay
      n → p + e- + νe
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    • Hadrons
      Particles that experience the strong nuclear force, formed of quarks
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    • Leptons
      Fundamental particles that do not experience the strong nuclear force
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    • Types of hadrons
      • Baryons
      • Antibaryons
      • Mesons
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    • Baryon number
      Shows whether a particle is a baryon (1), antibaryon (-1) or not a baryon (0)
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    • The proton is the only stable baryon, all baryons will eventually decay into a proton
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    • Lepton number
      Shows whether a particle is a lepton (1), antilepton (-1) or not a lepton (0)
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    • Muon
      Heavy electron that decays into an electron
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    • Strange particles
      Produced by the strong nuclear interaction but decay by the weak interaction
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    • Strangeness
      Property of particles, must be conserved in strong interactions but can change in weak interactions
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    • Scientific investigations in particle physics rely on international collaboration due to the high cost and data output of particle accelerators
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    • Types of quarks
      • Up (u)
      • Down (d)
      • Strange (s)
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    • Quark combinations for mesons
      • π⁰ (uu or dd)
      • π⁺ (ud)
      • π⁻ (du)
      • k⁰ (sd)
      • k⁺ (su)
      • k⁻ (su)
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    • Beta Minus decay
      n → p + e- + ve-
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    • Energy, momentum, charge, baryon number and lepton number must always be conserved in particle interactions
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    • Types of quarks and antiquarks
      • Up (u)
      • Down (d)
      • Strange (s)
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    • Quark
      Fundamental particle which makes up hadrons
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