The isotopes 233U, 235U, 239Pu, 241Pu for a fission with low energy neutrons.
Uranium
No, uranium is not the only element that can be used in nuclear fission. Other elements like plutonium and thorium can also undergo nuclear fission reactions. Uranium-235 is the most commonly used isotope, but plutonium-239 and thorium-232 can also sustain fission reactions in certain nuclear reactors.
all you need in nuclear fission is a large element (235Uranium) and a neutron, the neutron goes into the Uranium causeing it to split into smaller parts grapes.
Uranium is the only naturally occurring element used for nuclear fission in commercial nuclear reactors. It is typically found in two isotopes, uranium-235 and uranium-238, with uranium-235 being the primary isotope used for nuclear fission reactions.
The element first used for fission in an atomic bomb is uranium.
We can use plutonium in nuclear fission devices.
The Sun gets its energy from fusion, not from fission. Ocassionaly an atom of a heavier element might go through fission, but that's hardly relevant for the working of the Sun.The Sun gets its energy from fusion, not from fission. Ocassionaly an atom of a heavier element might go through fission, but that's hardly relevant for the working of the Sun.The Sun gets its energy from fusion, not from fission. Ocassionaly an atom of a heavier element might go through fission, but that's hardly relevant for the working of the Sun.The Sun gets its energy from fusion, not from fission. Ocassionaly an atom of a heavier element might go through fission, but that's hardly relevant for the working of the Sun.
The isotopes 233U, 235U, 239Pu, 241Pu for a fission with low energy neutrons.
Uranium
Uranium
Fusion or fission.
Fission is the process of taking a heavy element and splitting it into two or more smaller elements. Whereas fusion is the process of forming a heavier element by fusing two or more smaller elements.
No, uranium is not the only element that can be used in nuclear fission. Other elements like plutonium and thorium can also undergo nuclear fission reactions. Uranium-235 is the most commonly used isotope, but plutonium-239 and thorium-232 can also sustain fission reactions in certain nuclear reactors.
Nuclear fission splits an atom of one element into two atoms of two different elements. This is not usually called transmutation. However, fission is accompanied by subsequent steps, which usually include transmutation.
Technetium is an artificial chemical element and is extracted from fission products, prepared by neutron activation or by irradiation in particles accelerators.
A parent element splits into two daughter elements. (APEX)