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Nuclear Chemistry

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Title: Nuclear Chemistry


1
Nuclear Chemistry
  • Some Notes and Thawts

2
A Comparison Between Chemical and Nuclear
Reactions.
3
Where the Action Is
  • In chemical reactions, the electrons do the work
    while the nucleus is idol.
  • In nuclear reactions, the nucleus is changed
    while the orbital electrons are bystanders.

4
What Is Changed?
  • In chemical rxns, substances are changed, but
    atoms never change identity.
  • In nuclear rxns, atoms of an element change to
    atoms of another element.

5
What About Energy and Mass?
  • In chemical rxns, there are small changes in
    energy and no measurable changes in mass.
  • In nuclear rxns, there are large changes in
    energy and often large changes in mass.

6
What Affects the Reactions?
  • Chemical rxns are affected by temperature,
    concentration, nature of substances and catalysis.
  • Nuclear rxns are only affected by number of
    nuclei.

7
Definitions
8
Radioactivity
  • The spontaneous disintegration or decay of an
    unstable nucleus by means of emission of
    radiation.

9
Nuclide
  • An atom with a particular nuclear composition,
    that is, a certain number of two types of
    nucleonsprotons and neutrons. A nuclide is a
    particular isotope.

10
The Nucleus
  • The center of the atom.
  • 1/10,000 of the diameter.
  • One trillionth of its volume.
  • Incredibly dense 1014 g/ml.

11
A Brief History
12
Henri Becquerel
  • Discover that Uranium minerals emit radiation
    that make bright images on photographic plates.

13
Marie Curie
  • Discovered intensity of radiation is proportional
    to concentration of element.
  • Isolated radioactive components and found new
    elements,
  • Isolated radium.

14
Rutherford and Soddy
  • Proposed that when a nuclide decays, it becomes
    the nuclide of another elementthis was
    outrageous at the time.

15
The Three Common Types of Radioactive Emission
16
Alpha Particles
  • These are large particles Helium Nuclei.

17
Beta Particles
  • Negatively charged.
  • Fast electrons.

18
Gamma Rays
  • Very high energy photons.
  • Pure energy.
  • From the excited nucleus.

19
Types of Radioactive Decay
20
Alpha (a) Decay
  • Involves the loss of an alpha particle from the
    nucleus.
  • A decreases by 4 and Z decreases by 2.

21
Beta (b) Decay
  • Involves the ejection of a b particle from the
    nucleus.
  • A stream of electrons.
  • Next higher element is formed.

22
How Do Electrons Emit From the Nucleus?
  • A neutron is converted into a proton and a beta
    particle which is ejected/

23
Positron Decay
  • Emission of positron from the nucleus.
  • Antiparticle of an electron

24
Where Does It Come From?
  • Proton is converted to a neutron and a positron.
  • Next lower element is formed

25
Electron Capture
  • Nucleus of atom draws in a surrounding electron
  • From low energy level

26
What Actually happens?
  • Proton in the nucleus combines with electron to
    form a neutron.

27
Gamma Emission
  • Pure radiation of high energy photons from an
    excited nucleus.
  • Usually in ultraviolet or infrared light
  • Gamma emissions accompany most types of decay.

28
Nuclear Stability
  • N/Z Ratio

29
Neutron to Proton Ratio
  • As atoms get larger, N/Z ratio increases as
    neutrons increase to stabilize the strong force.
  • Competition between strong force and repulsive
    force determines stability.

30
  • Atoms with even Z have more stable nuclides.
  • Nucleon pairing is similar to electron pairing.
  • Unstable nuclei change N/Z to attain stability.

31
What Are the Rules?
  • Few nuclides exist for N/Zlt1
  • No stable nuclides for N/Z1 for Zgt20.
  • All nuclides above Z83 are unstable.

32
Son of Rules
  • Neutron rich nuclides hi N/Z undergo beta
    decay.
  • Proton rich nuclides lo N/Z undergo positron
    decay or electron capture.
  • Heavy nuclides Zgt83 undergo alpha decay.
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