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Early Pioneers in Radioactivity _________: Discoverer of X-rays 1895 _________: Discoverer of Radioactivity 1896 __________: Discoverers of Radium and Polonium 1900- 1908 _________: Discoverer Alpha and Beta rays 1897 Burt, 2011
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Isotopes….a review -mass of the atom depends on the number of _______and ________in the element -isotopes have different #s of ________ but same # of ____________(atomic #) ex. 12 C, 13 C, 14 C 6 6 6 -many isotopes have unstable nuclei and they release radiation (are radioactive)
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Where are the Sources of Radioactivity? Naturally Occurring Sources: –Radon from the decay of _________ and Thorium –Potassium -40 – found in minerals and in plants –____________ – Found in Plants and Animal tissue Manmade Sources: –____________ use of Radioactive Isotopes –Certain Consumer products –(eg Smoke detectors) –Fallout from ___________ testing –Emissions from ___________ Power plants
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Radioactivity- spontaneous decay of an unstable atomic nucleus accompanied by the emission of radiation. ________________ –An isotope of an element that undergoes radioactive decay ___________ nuclide (element)- unstable, higher energy element that decays into another nuclide ___________nuclide- stable product that results from this decay Ex. K 40 (parent) decays into Ar 40 (daughter element)
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http://web.stteresa.edu.hk/~kfyuen/lesson09034.jpg
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Types of radiation ________rays (α) - nuclear decay by emission of an alpha particle ( 4 He nucleus ). Click -easily blocked by clothing, paper, etc. _______rays (β)- Nuclear decay by emission of an electron click -can be stopped by thick wood; used in radiation therapy to kill cancer cells ________rays (γ)- emission of a high energy photon from the nucleus (like an X-ray) click -produced by radioactive decay; are a health hazard; maybe blocked by 6 in of cement
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Three Common Types of Radioactive Emissions - Penetrability Alpha particles may be completely stopped by a sheet of _____________ Beta particles by ___________ shielding. Gamma rays can only be reduced by something such as a very thick piece of __________.
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Half-life- time it takes for half of the atoms in a radioactive isotope to decay Each isotope has its own HL -half-life of 238 U is 4.5 billion years -half-life of 14 C is ______ years Decay continues until a ________, non-radioactive product is formed Decay of an individual atom is ___________
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Half life - a geologic clock Half life - a geologic clock
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Exponential Decay Decay of 226 Ra
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___________Dating When a plant dies, it stops the intake of carbon Since the 14 C decays, after 5730 years, half of it will be gone We can just weigh a piece of dead wood, calculate how much 14 C it originally had and measure to how much it has now to get the age
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__________ Dating We know the half -life of 238 U and 235 U They have series that end in 206 Pb and 207 Pb Compare how much U vs. special lead and calculate the age of the rock!! Carbon dating only good for about 50,000 years Uranium rock dating good for millions of years
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Transmutations The changing of one element to another is called ________________________ This occurs whenever there is an alpha decay or a beta decay
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Two Main Types of Nuclear Reactions ________ - two light nuclei are combined to form a heavier, more stable nucleus –This occurs in stars to produce energy (electromagnetic radiation) ______ - a heavy nucleus is split into 2 nuclei with smaller mass numbers –This occurs in nuclear power plants Burt, 2011
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Nuclear Fusion Stars fuse __________________________ –Mass converts to energy Burt, 2011
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Nuclear Fission Burt, 2011
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