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Published byAlvin Greer Modified over 9 years ago
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Radioactive Decay
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Yesterday we learned that all elements have different isotopes. Example: 1 H (1 proton, 0 neutrons) 2 H (1 proton, 1 neutron) 3 H (1 proton, 2 neutrons) Some isotopes are stable and will last essentially forever. Some aren’t stable.
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A Lesson on Pronunciation Nuclear = NU – clear Nuclear NUK-you-lar
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Radioactive Decay An unstable isotope is said to be radioactive. Radioactive (unstable) isotopes = radioisotopes Radioisotopes eventually decay into more stable forms. A radioisotope releases energy by emitting radiation during the process of radioactive decay.
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Radioactive Decay Carbon-12 and carbon-13 are stable, but carbon- 14 is radioactive. 6 p + and 6 n 0 6 p + and 7 n 0 6 p + and 8 n 0
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What makes a radioisotope unstable? An isotope can be unstable if: it is too heavy (more than 83 protons). its n 0 to p + ratio is too high. its n 0 to p + ratio is too low.
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Band of Stability
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Types of Radiation Alpha radiation Composition: Alpha particle (helium nucleus) Symbol: or 4 He Charge: +2 Mass: 4 amu Penetrating power: Low (0.05 mm body tissue) Shielding: Paper, clothing Effect on nucleus: Z – 2, A – 4
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Alpha Decay alpha
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Types of Radiation Beta radiation Composition: Beta particle (electron) Symbol: or e - Charge: -1 Mass: 1/1837 amu Penetrating Power: Moderate (4 mm body tissue) Shielding: Metal foil Effect on nucleus: Z + 1; A unchanged.
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Beta Decay e-e-
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Types of Radiation Gamma radiation Composition: High-energy EM radiation Symbol: Charge: 0 Mass: 0 Penetrating power: Very high Shielding: Lead, concrete Effect on nucleus: decreases energy
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Ionizing Radiation Warning Symbol
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Hazards of Ionizing Radiation At low levels of exposure, radiation danger is minimal. Radiation may damage cells, but cells can repair themselves. Severely damaged cells can self-destruct and limit damage to tissue. Serious trouble happens when radiation causes a non- lethal (to the cell) mutation that is passed to daughter cells. If the mutation happens in a gene that controls cell division, the cell could give rise to cancer. Large radiation exposures can cause death much more quickly from severe tissue damage.
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Radiation Exposure Measured in milliSieverts (mSv). 0.001 to 0.01 mSv = hourly dose from cosmic rays on a commercial airliner. 0.27 mSv = average yearly exposure to cosmic radiation in USA (slightly higher at high altitudes) 0.66 mSv = average yearly exposure to radiation from manmade sources in USA 50 mSv = yearly limit for adults set by NRC 500 to 1000 mSv = victims of Hiroshima and Nagasaki nuclear bombs 500 to 1000 mSv = dose that will cause most people to get sick from short-term exposure 4500 to 5000 mSv = dose that will kill 50% of people after brief exposure
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Uses of Radiation Radioisotopic labelling – can be used to track the movement of a particular substance through a living organism. Radiometric dating – used to determine the age of ancient objects. Many uses in medicine, from imaging to cancer therapy.
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