if the fission was of uranium, then yes. but many transuranic elements (e.g. plutonium, americium) also fission.
It is true that a uranium nucleus splits in the nuclear fission of uranium.
During nuclear fission, the nucleus of an atom splits into two or more smaller nuclei, along with the release of a significant amount of energy. This process also produces free neutrons and gamma radiation. The released neutrons can further induce fission in nearby nuclei, leading to a chain reaction. Commonly, uranium-235 and plutonium-239 are used as fuel in fission reactions.
Uranium, particularly the isotope uranium-235, is a heavy atom commonly used in nuclear fission reactions to produce thermal energy. When uranium-235 nuclei absorb neutrons, they undergo fission, splitting into smaller nuclei and releasing a significant amount of energy in the form of heat. This heat is then harnessed to produce steam, which drives turbines for electricity generation in nuclear power plants.
nuclear fission
Usually a small subatomic particle such as a neutron, since it does not contain any charge and thus is not repelled by the positively charged nucleus, and it is massive enough to give enough energy to split the uranium nucleus.
It is true that a uranium nucleus splits in the nuclear fission of uranium.
This nuclear process is called nuclear fission. During nuclear fission, the uranium-235 atom absorbs a neutron, becomes unstable, and splits into two smaller nuclei (fission fragments) and releases energy and more neutrons.
From heat released when nuclei of uranium 235 undergo fission
By the fission of uranium nuclei, which releases energy
The fission of uranium-235 nuclei
The process is called nuclear fission. When uranium-235 splits, it releases a large amount of energy along with smaller nuclei and multiple neutrons. This chain reaction continues as these neutrons can cause additional uranium-235 atoms to undergo fission.
The process is called nuclear fission, where the nucleus of a uranium atom is split into smaller nuclei, releasing a large amount of energy in the form of heat and radiation.
fission. In this process, a large atom, such as Uranium-235, splits into smaller nuclei, releasing a large amount of energy in the form of heat and gamma radiation. This is the principle behind nuclear reactors and atomic bombs.
The process is called nuclear fission. It involves the splitting of heavy nuclei, such as uranium or plutonium, into two or more lighter nuclei, along with the release of energy and additional neutrons. This process is the basis for generating energy in nuclear power plants and nuclear weapons.
During nuclear fission, the nucleus of an atom splits into two or more smaller nuclei, along with the release of a significant amount of energy. This process also produces free neutrons and gamma radiation. The released neutrons can further induce fission in nearby nuclei, leading to a chain reaction. Commonly, uranium-235 and plutonium-239 are used as fuel in fission reactions.
During nuclear fission the atomic nucleus is splitted.
In fission reactors, which is the only practicable source of energy at present, it is the fission of the nuclei of uranium and plutonium which produces the energy