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15 Cards in this Set
- Front
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1.Conversion between eV and J (including keV, MeV and GeV)
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1eV = 1.69*10^-19 J, 1keV = 1.69*10^-16 J, 1MeV = 1.69*10^13 J, 1 Gev = 1.69*10^10 J
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2.Application of mass energy equivalce relation
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E=mc2
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3.Understanding of the binding energy of the nucleus contributing to its mass, along with the "unbound" rest mass energy of the nucleons
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The binding energy is the strong force that is required to disassemble a nucleus into the same number of free unbound neutrons and protons it is composed of.
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4.Define Nuclear Fission
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Splitting a large nucleus into two smaller nuclei
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5. Define Fissile nuclides
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Fissile nuclides are nucleus that can absorb a nucleus and undergo fission.
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1.Conversion between eV and J (including keV, MeV and GeV)
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1eV = 1.69*10^-19 J, 1keV = 1.69*10^-16 J, 1MeV = 1.69*10^13 J, 1 Gev = 1.69*10^10 J
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2.Application of mass energy equivalce relation
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E=mc2
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3.Understanding of the binding energy of the nucleus contributing to its mass, along with the "unbound" rest mass energy of the nucleons
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The binding energy is the strong force that is required to disassemble a nucleus into the same number of free unbound neutrons and protons it is composed of.
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4.Define Nuclear Fission
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Splitting a large nucleus into two smaller nuclei
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5. Define Fissile nuclides
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Fissile nuclides are nucleus that can absorb a nucleus and undergo fission.
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6. Define Fission fragments
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Fission fragments are nuclides that gets released after fission
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7. Fission reaction nuclear equations.
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1 nucleus + fissile nuclide -> fission fragments + Nucleus'
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8. Energy release during fission reaction equating to mass differrence between reactants and products, according to mass nergy equivalence relation.
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Energy relaese= (mass difference)*(speed of light)^2
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9. Release of multiple neutron
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When nuclear fission happens, the nucleus splits into fission fragments and also releases stray neutrons.
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10. Multiple fission fragments are possible, so average number of neutrons possible
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The average number is 2 or 3 neutrons.
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