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Applications of Nuclear Physics

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Applications of Nuclear Physics Chp 43.5 43.7 Biological Effects of Radiation Applications to Astrophysics Nuclear Power Medical Applications of Nuclear Energy ... – PowerPoint PPT presentation

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Title: Applications of Nuclear Physics


1
Applications of Nuclear Physics
  • Chp 43.5 43.7

2
  • Biological Effects of Radiation
  • Applications to Astrophysics
  • Nuclear Power

3
Medical Applications of Nuclear Energy
4
The Strange Tale of Alexander Litvenenko
  • Former KGB agent and political whistle blower
    became suddenly ill on November 1, 2006 following
    a restaurant meeting with a Russian agent
  • Died three weeks later. He is believed to be the
    first confirmed case of deliberate 210Po
    radiation poisoning
  • It has been suggested that as little as 10 mg of
    Polonium was put in his tea this would be a
    fatal dose!

Alexander Litvenenko (1962-2006)
5
The perfect assassin
  • Po is readily available and essentially
    un-regulated in small amounts
  • Po half-life is 138.4 d EK 5.41 MeV
  • Is an alpha-emitter Easy to transport safely and
    lethal if ingested
  • Does NOT emit gamma rays!
  • Completely tasteless in quantities that would be
    lethal
  • It is estimate that 1 g of Po introduced to an
    urban water supply could poison 20 million people
    with 10 million fatalities.

6
Back of the envelope
  • Assume it concentrates in the liver
  • Calculate the radiation exposure this represents
  • Ideas we need
  • Units of radiation exposure
  • Activity Bq
  • Absorbed dose Gray Gy 1.00 J/kg (100 rad)
  • Relative biological effectiveness RBE
  • REM rad X RBE
  • Dose equivalent absorbed dose X RBE in Sieverts
    Sv (an older unit is the REM 0.010 Sv)

Dose (REM) Effect
gt 1000 Death in a few days
100 - 1000 Death in a few weeks
50 High probability of cancer in next 30 years
Type RBE
a 10-20
b 1-2
g 1
7
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8
Older terms
  • The Roentgen amount of ionizing radiation
    producing 0.3 nC in 1 cc of air
  • 1 rad amount of radiation which would deposit
    0.01J/kg in any material
  • SI unit is the GRAY 100 rad
  • When considering biological effects the REM is
    often used rad X RBE

9
Fukushima
  • Major radio nuclides being released are 137Cs
    (t1/2 30 a) and 131I (t1/2 8 d)
  • A core breach exposes fuel rods
  • Iodine concentrates in thyroid, Cs concentrates
    in muscle throughout body

10
Positron Emission Tomography
  • fluorodeoxyglucose (FDG), C6H11FO5 is a sugar
    that is commonly used in nuclear medicine
  • The fluorine atom is labeled instead of
    normal F, it is
  • This decays via a b process write the equation
    for this and predict the final product
  • The positron emitted doesnt get far!

11
Conservation Laws make this all possible!
12
Stellar Structure and Evolution
  • Hydrogen fusion in Solar Mass stars the
    proton-proton cycle
  • 4 1H ? 4He
  • CNO cycle in higher mass stars
  • (link to astronomy notes)

13
Back of the envelope
  • Sun emits 3.99 x 1026 J/s
  • PP-chain fusion reaction releases about 25 MeV
  • Solar Mass is 1.99 x 1030 kg
  • From this we can estimate the life expectancy of
    the Sun!

14
Supernovae and Nucleosynthesis
  • Recall the binding energy curve

(link to astronomy notes)
15
  • Questions to work on
  • You are 1m from a 1 kg lump of pure radium!
  • What kind of radiation are you likely going to be
    exposed to?
  • Estimate the exposure you will receive in REM
    over 1 hour
  • What is your prognosis?
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