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What is Uranium 235 Fission – Definition

What is uranium 235 fission reaction? When uranium 235 undergoes fission, the nucleus splits into two smaller nuclei, along with a few neutrons. Material Properties

Uranium 235 Fission

Uranium 235 is a fissile isotope and its fission cross-section for thermal neutrons is about 585 barns (for 0.0253 eV neutron). For fast neutrons its fission cross-section is on the order of barns. Most of absorption reactions result in fission reaction, but a minority results in radiative capture forming 236U. The cross-section for radiative capture for thermal neutrons is about 99 barns (for 0.0253 eV neutron). Therefore about 15% of all absorption reactions result in radiative capture of neutron. About 85% of all absorption reactions result in fission.

Uranium absorption reaction

Typically, when uranium 235 nucleus undergoes fission, the nucleus splits into two smaller nuclei (triple fission can also rarely occur), along with a few neutrons (the average is 2.43 neutrons per fission by thermal neutron) and release of energy in the form of heat and gamma rays. The average of the fragment atomic mass is about 118, but very few fragments near that average are found. It is much more probable to break up into unequal fragments, and the most probable fragment masses are around mass 95 (Krypton) and 137 (Barium).

Most of the fission fragments are highly unstable (radioactive) nuclei and undergo further radioactive decays to stabilize itself. Therefore part of the released energy is radiated away from the reactor (See also: Reactor antineutrinos). On the other hand most of the energy released by one fission (~170MeV of total ~200MeV) appears as kinetic energy of these fission fragments. The fission fragments interact strongly with the surrounding atoms or molecules traveling at high speed, causing them to ionize. Creation of ion pairs requires energy, which is lost from the kinetic energy of the charged fission fragment causing it to decelerate. The positive ions and free electrons created by the passage of the charged fission fragment will then reunite, releasing energy in the form of heat (e.g. vibrational energy or rotational energy of atoms). This is the principle how fission fragments heat up fuel in the reactor core.

Source of nuclear data: JANIS (Java-based Nuclear Data Information Software); ENDF/B-VII.1
Fission FragmentsFission fragments after a nucleus fission. Fission fragments interact strongly with the surrounding atoms or molecules traveling at high speed, causing them to ionize.
Uranium 235 decay.Uranium 235 decays via alpha decay into 231Pa.
Fissile / Fertile Material Cross-sectionsUranium 235. Comparison of total fission cross-section and cross-section for radiative capture.
Fission fragment yieldsFission fragment yield for different nuclei. The most probable fragment masses are around mass 95 (Krypton) and 137 (Barium).
Energy from Uranium Fission
Neutron production per one fast fission of uranium 235.Neutron production per one fast fission of uranium 235.

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Uranium 235

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