find the amount of energy released when...

find the amount of energy released when 1atom of uranium `""._(92)U^(235)` (235.0439 amu) undergoes fission by slow neutron (1.0087amu ) and is splitted into Krypton `""._(36)Kr ^(92)`(91.8973 amu ) and Barium `""._(56)b^(141)` (140.9139 amu ) assuming no energy islost ,hence , find the energy in kWh, when 1g of it undergoes fission .

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Verified by Experts

The correct Answer is:

`2.28 xx 10^(4)kWh`

The nuclear fission reaction in the above process is
`._(92)^(235)U +._(0) + ._(0)^(1)n rarr._(56)^(141)Ba +._(36)^(92)Kr+3 (._(0)^(1)n`
Thesum of the mass before reaction is
`235.0439 +1.007=236.0526 a.m. u.`
The sum of the masses after reaction is
`140.9139 +91.8973 +(1.0087) =235.8375 a.m.u.`
Mass defect,
`Delta m =236.0526 -235. 8373 =0.2175 a.m.n`
Energy released in the fission of `.^(235)U` nulceus is given by
`DeltaE=Deltam xx 931.2 MeV`
`=0.2153 xx 931.2 =200 MeV`
Number of atoms in `1 g` of `.^(235)U`
`N=(6.02 xx10^(23))/(235)=2.56 xx10^(21)`
Energy released in fission of `1g` of `.^(235)U`,
`E=200 xx 2.56 xx 10^(21) MeV`
`=5.12 xx10^(23) MeV =(5.12 xx 10^(23)) xx (1.6 xx10^(-13))`
`=8.2 xx 10^(10)J`
`(8.2 xx 10^(10))/(3.6 xx 10^(6) kWh =2.28 xx10^(4) kWh`

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