Very large nuclei having mass number greater than 230 tend to be unstable and can split into two or more parts. This is called Fission. Fission process is not a spontaneous one. It occurs when a neutron strikes an unstable nucleus.
In this case, the Uranium 235 will split into two nearly equal nuclei Barium-141 and Krypton-92 and release several free neutrons with huge amounts of energy.
92U235 + 0n1 → 56Ba141 + 36Kr92 + 3 0n1 + Energy
92U235 + 0n1 → 54Xe140 + 38Sr94 + 2 0n1 + Energy
These nuclei are isotopes of more stable elements. If left alone, they decay radioactively by emitting alpha or beta particles. The below figure clearly explain how the chain reaction takes place. Out come neutrons from fission process interact with fissile fuel present in the surrounding. Further this reaction produces totally nine neutrons. This cycle repeats to give a reaction. Moderator like graphite, heavy water and beryllium are used to control the rate of reaction. If the chain reaction is not controlled, a nuclear explosion will occur.
CALCULATING
ENERGY RELEASED BY FISSION
Calculate the energy released in the following
spontaneous fission reaction:
238U → 95Sr + 140Xe + 3n
given the
atomic masses to be m(238U) = 238.050784 u, m(95Sr) = 94.919388 u, m(140Xe) = 139.921610 u, and m(n) =1.008665 u.
Solution
The products have a total mass of
mproducts = 94.919388 u+139.921610 u+3(1.008665 u)
= 237.866993 u
The mass lost is the mass of 238U minus mproducts, or
Δm = 238.050784 u − 237.8669933 u = 0.183791 u
so the energy released is E = (Δm) c2 = 171.2 MeV
Energy released
by 1 Kg of uranium:
Number of
atoms in 1 kg of uranium = (6.023 × 1026)/235
Energy
released in one fission = 200 MeV
Energy
produced by 1 kg of uranium during fission
E = (6.023 ×
1026 × 200)/235 = 5.128 × 1026 MeV
E = (5.128 ×
1026) × (1.6×10-13) J
[1 MeV = 1.6×10-13 J]
E = {(5.128 ×
1026) × (1.6×10-13)}/{3.6× 106} k Wh
E = 2.26 × 107
k Wh [1k
Wh = 3.6×106 J]
Due to this reason, nuclear energy is being used for
the generation of electricity.
Most of the energy that is released during
fission goes into the K.E of the fission fragments. The emitted neutrons, Beta
and gamma rays and neutrinos carry off perhaps 20% of the total energy.
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