Why uranium 235 is easily fissionable than uranium-238?
Answers
Δ First of all, we must understand what fissile really means, why to use fissile materials, and why not non-fissile materials.
Δ Fissioning any fissionable isotope inherently releases a probabilistic number of neutrons, the average of which ranges from 2-4 per fission (bottom table (v bar)), and this number is not a major criterion for choosing an isotope.Δ But U-238 can fission and nuclear stability is not solely related to high neutron counts.
Δ The key part of the definition of fissile is that a fissile material can sustain fission with neutrons of any energy. This means that any neutron in the local neutron population can cause fission, though, in the case of most isotopes (U-235 included), lower "thermal" energy neutrons are more likely to cause fission. This point is understood with a basic understanding of each isotopes' energy-dependent neutron cross-sections and critical energy.
Δ Critical energy is the excitation energy level of the nucleus above which fission can occur.
Δ In fissile isotopes, like U-235, the critical energy is at or below the excitation of the nucleus when it has absorbed a neutron. So any absorbed neutron can cause fission in these nuclei, though they still have a capture probability (U-235 can absorb a neutron and become U-236 instead of fissioning).Δ In fissionable and non-fissile isotopes, like U-238, critical energy is greater than the excitation of the nucleus when it has absorbed a neutron, so the neutron must bring additional energy to cause fission.
Δ Low critical energy and being fissile is generally linked to odd neutron counts.
Energy dependent neutron cross-sections:
Δ Only the very high energy neutrons can cause fission in U-238 (far right brown line)(note the logarithmic axes), which correlates the critical energy concept; only neutrons above a certain energy are bringing enough to the U-238 nucleus to get it above its critical energy.It also shows that any neutron energy can cause fission in U-235.Answer:
Δ Since too few neutrons are born from fission at the energy required to fission U-238 (and other non-fissile isotopes), a reaction with only U-238 is not sustainable.All neutrons can cause fission in U-235, so its reaction is sustainable.:)
Reaction can be carried out by slow neutrons