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Modern Physics

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Modern Physics Model of the atom Radioactivity Introduction - Today we expand our discussion of explaining what happens at the nuclear level atoms. – PowerPoint PPT presentation

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Title: Modern Physics


1
Modern Physics
  • Model of the atom
  • Radioactivity

2
Introduction - Today we expand our discussion of
explaining what happens at the nuclear level
atoms.
  • Radioactivity (substances that give of invisible
    radiations) and the types of radiations.
  • What happens when an atom undergoes radioactivity
    decay
  • Uses for radiation
  • The types of reactions that cause nuclear
    reactions
  • The affects of nuclear reactions on energy

3
Nucleons
  • Are particles occupying the nucleus
  • Consist of charged protons and neutral neutrons
  • Have almost 2000 time the mass of electrons
  • Are made of quarks and leptons (building blocks
    of matter, elementary particles)

4
Atom
Atomic mass protons neutrons (number
of nucleons)
Atomic number number of protons
5
Isotopes
  • Atoms of the same element with different numbers
    of neutrons (different masses)

6
Radioactive Isotopes
  • Has an unstable nucleus
  • Spontaneously emits a particle and decay into
    another element.

7
Marie Curie Nobel prize winner
  • The word radioactivity was first used by Marie
    Curie in 1898.
  • She used the word radioactivity to describe the
    property of certain substances to give off
    invisible radiations that could be detected by
    films.

8
Radioactive Decay
  • Three different kinds of radiation given off by
    radioactive materials
  • Alpha rays
  • Beta rays
  • Gamma rays
  • called rays because the radiation carried
    energy and moved in straight lines, like light
    rays.

9
  • Radioactivity comes from the nucleus of the atom.
  • If the nucleus has too many neutrons, or is
    unstable the atom undergoes radioactive decay.
  • decay - to "break down."

10
Atomic Decay
  • Alpha decay the nucleus ejects two protons and
    two neutrons.
  • Beta decay a neutron in the nucleus splits into
    a proton and an electron.
  • Gamma decay occurs because the nucleus is at too
    high an energy. The nucleus falls down to a lower
    energy state and, in the process, emits a high
    energy photon.

11
  • Radioactive decay gives off energy.
  • The energy comes from the conversion of mass into
    energy.
  • Because the speed of light (c) is such a large
    number, a tiny bit of mass generates a huge
    amount of energy.
  • Radioactivity occurs because everything in nature
    tends to move toward lower energy.

12
Radiation
  • The flow of energy through space.
  • Forms of radiation
  • Light
  • Radio
  • Microwaves
  • X-rays
  • Many people mistakenly think of radiation as only
    associated with nuclear reactions.

13
X-ray machines
  • X-rays are photons
  • Used to produce images of bones and teeth on
    x-ray film.
  • X-ray film turns black when exposed to x-rays.

14
X-Rays Uses
  • High level therapeutic x-rays are used to
    destroy diseased tissue, such as cancer cells.
  • The beams are made to overlap at the place where
    the doctor wants to destroy diseased cells.

15
CAT scan
  • Computerized Axial Tomography
  • Produced by a computer that controls an x-ray
    machine as it takes pictures of the body from
    different angles.
  • Produces three-dimensional images of bones and
    other structures within the body.

16
Radiation Detection
  • The Geiger counter is a type of radiation
    detector invented to tell when radiation is
    present and to measure its intensity.

17
Half-life
  • The time it takes for half the mass of a
    radioactive sample to decay.
  • Ranges from a fraction of a second to billions of
    years.
  • Is not affected by external conditions.

18
Fusion reactions
  • Nuclear reaction that combines, or fuses, two
    smaller nuclei into a larger nucleus.
  • It is difficult to make fusion reactions occur
    because positively charged nuclei repel each
    other.

19
Fission reactions
  • A fission reaction splits up a large nucleus into
    smaller pieces.
  • A fission reaction typically happens when a
    neutron hits a nucleus with enough energy to make
    the nucleus unstable.

20
Nuclear Reactions and Energy
  • A nuclear reaction is any process that changes
    the nucleus of an atom.
  • Radioactive decay is one form of nuclear reaction.

21
Nuclear Reactions and Energy
  • If you could take apart a nucleus and separate
    all of its protons and neutrons, the separated
    protons and neutrons would have more mass than
    the nucleus did.
  • The mass of a nucleus is reduced by the energy
    that is released when the nucleus comes together.
  • Nuclear reactions can convert mass into energy.

22
Nuclear Reactions and Energy
  • Both these nuclear reactions release a small
    portion of the mass as large amounts of energy.
  • Nuclear fusion is what powers a modern nuclear
    warhead (hydrogen bomb)
  • Nuclear fission (less powerful) occurs in an
    atomic bomb (like the ones used against Japan in
    WWII), or in a nuclear power plant.
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