Particles and radiation

Created by

Elias Abdelkader

Cards (86)

Atom 
Formed of 3 constituents: 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
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Particle properties 
Charge (C)
Relative Charge
Mass (kg)
Relative Mass
Specific Charge (C/kg)
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Proton 
Charge: +1.6 x 10^-19 C, Relative Charge: +1, Mass: 1.67 x 10^-27 kg, Relative Mass: 1, Specific Charge: 9.58 x 10^7 C/kg
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Neutron 
Charge: 0, Relative Charge: 0, Mass: 1.67 x 10^-27 kg, Relative Mass: 1, Specific Charge: 0 C/kg
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Electron 
Charge: -1.6 x 10^-19 C, Relative Charge: -1, Mass: 9.11 x 10^-31 kg, Relative Mass: 0.0005, Specific Charge: 1.76 x 10^11 C/kg
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Specific charge 
Charge-mass ratio of a particle
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Proton number (Z) 
Number of protons in an atom
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Nucleon number (A) 
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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Carbon dating 
Calculating the approximate age of an object containing organic material by measuring the percentage of carbon-14 remaining
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Strong nuclear force (SNF) 
Keeps nuclei stable by counteracting the electrostatic force of repulsion between protons
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The SNF is attractive up to separations of 3 fm, but repulsive below separations of 0.5 fm
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Unstable nuclei 
Have too many of either protons, neutrons or both, causing the SNF to not be enough to keep them stable
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Alpha decay 
1. Proton number decreases by 2
2. Nucleon number decreases by 4
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Beta-minus decay 
1. Proton number increases by 1
2. Nucleon number stays the same
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Energy was not conserved in beta-minus decay, leading to the discovery of neutrinos
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Antiparticle 
Has the same rest energy and mass but all other properties are opposite the particle
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Particle properties 
Mass (kg)
Rest energy (MeV)
Charge (C)
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Electron neutrino 
Mass: 0 kg, Rest energy: 0 MeV, Charge: 0 C
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Electron antineutrino 
Mass: 0 kg, Rest energy: 0 MeV, Charge: 0 C
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Photon 
Electromagnetic radiation that travels in packets and transfers energy, has no mass
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Energy of photons 
Directly proportional to the frequency of electromagnetic radiation, E = hf
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Annihilation 
A particle and its corresponding antiparticle collide, their masses are converted into energy released as 2 photons
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PET scanner 
Uses annihilation of positrons and electrons to produce 3D images of the inside of the body
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Pair production 
A 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 force 
Gravity: Graviton (not on specification)
Electromagnetic: Virtual photon (γ)
Weak: W boson (W+ or W-)
Strong: Gluon
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Electron capture 
p + e- → n + νe
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Electron-proton collision 
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 formed of quarks that experience the strong nuclear force
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Leptons 
Fundamental particles that do not experience the strong nuclear force
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Types of hadrons 
Baryons (formed of 3 quarks)
Antibaryons (formed of 3 antiquarks)
Mesons (formed of a quark and antiquark)
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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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Baryon number is always conserved in particle interactions
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