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Nuclear Fission & Fusion
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History: Hahn & Strassman (1939) Bombarded Uranium-235 samples with neutrons expecting the Uranium-235 to capture neutrons Instead, the products showed different chemical properties that they could not explain
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Explained Hahn & Strassman results. Instead of heavier Uranium, it had split into smaller elements = Nuclear Fission Meitner & Frisch
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Nuclear Forces 1.Electric repulsion – ________ charge particles repel each other same 2.Strong Nuclear Force – causes protons and neutrons to ________ each other attract Stable Nuclei = strong nuclear force is ________ than repulsion force greater Unstable Nuclei = strong nuclear force is ________ than repulsion force oHave too many or too few neutrons in nucleus oHave more than 83 protons in nucleus oWill decay into a more stable nucleus less
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Uranium Enrichment Uranium is found as uranium oxide which when purified has a rich yellow color and is called "yellowcake". After reduction, the uranium must go through an isotope enrichment process. Even with the necessity of enrichment, it still takes only about 3 kg of natural uranium to supply the energy needs of one American for a year. uranium oxide
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Nuclear Fission – splitting of heavier nuclei into lighter nuclei. energy + + 15 + + How much energy? E=mc 2 _______= _______ x (_____ _ _____) 2 c=3.0x10 8 Energymassspeed of light E=mc 2 explains _____ _____ (total mass of nucleus is less than sum of individual particles) mass defect
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Nuclear Chain Reactions: Nuclear fission releases more neutrons which trigger more fission reactions The number of ________ released determines the success of a chain reaction neutrons
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Applications of Controlling Chain Reactions Must have a minimum amount of radioactive isotope to sustain a chain reaction =_________ _______ 1.Atomic Bomb (fission bomb) – Triggering a chain reaction in U-235 or Pu-239 CRITICAL MASS 2.Nuclear Power Plants – Convert heat energy from fission chain reaction into __________. electricity Control chain reaction with ________ _____ that absorb ________ emitted after fission reaction. control rods neutrons
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Nuclear Reactor – Images
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Fukushima – March 2011 Video on Fukushima
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The Atomic Bomb
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Nuclear Fission
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Nuclear Fusion - Energy released when two light nuclei combine or fuse However, a large amount of energy is required to start a fusion reaction: o Need this energy to overcome ________ forces of protons. o Extremely high temperatures can provide start-up energy. repulsion More energy in fusing hydrogen that fission of uranium
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energy + + + Example of Nuclear Fusion (Like that found in the sun)
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Nuclear Fusion
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Stars energy is produced through fusion reactions Fusion occurs until Fe is produced because less energy is released than required to fuse Fe nuclei = _____ ____ ____ Star burns out
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Cold Fusion : Efforts are being made to start and sustain a fusion reaction at lower temperatures, in other words with a lower amount of input energy
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Hydrogen Bomb (H-Bomb) Ivy Mike -- 1952
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