topic 4 - atomic structure

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Created by
Holly Haggarty

Cards (38)

  • Atom
    Positively charged nucleus (which contains neutrons and protons) surrounded by negatively charged electrons
  • Subatomic Particles
    • Proton
    • Neutron
    • Electron
  • Electron
    Relative Mass: 0 (0.0005), Relative Charge: -1
  • The radius of the nucleus is 10 000 times smaller than the radius of the atom
  • Most (nearly all) the mass of the atom is concentrated at the nucleus
  • Electron Arrangement

    Electrons lie at different distances from the nucleus (different energy levels). The electron arrangements may change with the interaction with EM radiation
  • Isotopes
    Atoms of the same element, but with different masses, which have the same number of protons but different number of neutrons
  • Elements
    All atoms of the same element have the same number of protons
  • Neutral Atoms
    Have the same number of electrons and protons
  • Atomic Notation
    𝑍𝑍𝑋𝑋±𝑛𝑛𝐴𝐴 , where X is the letter of the element, A is the mass number, Z is the proton number, and N is the charge
  • Atoms and EM Radiation
    1. When electrons change orbit (move closer or further from the nucleus)
    2. When electrons move to a higher orbit (further from the nucleus), the atom has absorbed EM radiation
    3. When the electrons falls to a lower orbit (closer to the nucleus), the atoms has emitted EM radiation
    4. If an electron gains enough energy, it can leave the atom to form a positive ion
  • In 1800, Dalton said everything was made of tiny spheres (atoms) that could not be divided
  • In 1897, JJ Thomson discovered the electron and the Plum Pudding Model was formed
  • In 1911, Rutherford realised most of the atom was empty space
  • In 1913, Rutherford produced the final model of the atom with a positive nucleus at the centre and negative electrons existing in a cloud around the nucleus
  • Later, the positive charge of the nucleus could be subdivided into smaller particles, each with the same amount of charge - the proton
  • 20 years after the 'nucleus' was an accepted scientific idea, James Chadwick provided evidence to prove neutrons existed
  • Radioactive Decay
    Some atomic nuclei are unstable. The nucleus gives out radiation as it changes to become more stable. This is a random process called radioactive decay
  • Activity
    The rate at which a source of unstable nuclei decays, measured in Becquerel (Bq)
  • Count-rate
    The number of decays recorded by a detector per second, e.g. a Geiger-Muller Tube
  • Forms of Radioactive Decay
    • Alpha (a helium nucleus)
    • Beta Minus (electron)
    • Gamma (radiation)
  • Alpha Decay

    Causes both the mass and charge of the nucleus to decrease
  • Beta Decay
    Does not cause the mass of the nucleus to change but does cause the charge of the nucleus to increase
  • Gamma Decay does not cause the mass or charge to change
  • Half-Life
    The time taken for half the nuclei in a sample to decay or the time taken for the activity or count rate of a sample to decay by half
  • The half-life of an isotope is a constant that enables the activity of a very large number of nuclei to be predicted during the decay
  • Short Half-Life
    The source presents less of a risk, as it does not remain strongly radioactive for a long time
  • Long Half-Life
    The source remains weakly radioactive for a long period of time
  • Americium has a half-life of 432 years and is used in smoke alarms
  • Net Decline
    The ratio of the decline of radioactive nuclei after X half-lives, calculated by halving the initial number of nuclei X times
  • Contamination
    The unwanted presence of radioactive atoms on other materials, where the hazard is the decaying of the contaminated atoms releasing radiation
  • Irradiation
    Exposing an object to nuclear radiation, but does not make it radioactive
  • Scientific reports on the effects of radiation on humans need to be peer reviewed to ensure accuracy and safety
  • Background Radiation
    Weak radiation that can be detected from natural / external sources such as cosmic rays, radiation from underground rocks, nuclear fallout, and medical rays
  • Radiation Dose

    Measured in Sieverts (Sv)
  • Uses of Radioactive Isotopes
    • Technetium as a medical tracer
    • Gamma emitters used in chemotherapy
  • Nuclear Fission
    1. The splitting of a large and unstable nucleus (eg uranium or plutonium)
    2. Spontaneous fission is rare, usually the unstable nucleus must first absorb a neutron
    3. When the unstable nuclei absorbs a neutron it splits into two smaller nuclei, roughly equal in size and it then emits two or three neutrons and gamma rays
    4. Energy is released by the fission reaction
    5. This neutron may collide with another radioactive nucleus, causing a chain reaction
  • Nuclear Fusion
    Two small nuclei fuse to form a heavier nucleus, releasing energy