In: Physics
Calculate the well potential for the fission decay channel resulting in 140Ba and 98Kr.
Answer:
235U + 1n 140Ba + 98Kr + 2n
atomic mass of 235U = 235.0439299 u
atomic mass of 1n = 1.008665 u
atomic mass of 140Ba = 139.910581 u
atomic mass of 98Kr = 97.95191 u
atomic mass of 2n = 2.01733 u
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The total mass of a product which will be given as:
mproducts = m(140Ba) + m(98Kr) + m(2n)
mproducts = [(139.910581 u) + (97.95191 u) + (2.01733 u)]
mproducts = 239.879821 u
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The total mass of a reactants which will be given as:
mreactants = m(235U) + m(1n)
mreactants = [(235.0439299 u) + (1.008665 u)]
mreactants = 236.0525949 u
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The mass defect will be given by:
m = mreactants - mproducts
m = [(236.0525949 u) - (239.879821 u)]
m = 3.8272261 u
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Therefore, the total energy released during thermal fission which will be given by =
E = m c2
E = (3.8272261 u) [(931.5 MeV/c2) / (1 u)] c2
E = 3565.06 MeV
Converting MeV to GeV :
E = 3.56 GeV
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