The breakup of large nuclei into two nearly equal fragments is called nuclear fission. It sometimes produces neutrons, protons or other nuclei. This is important in nuclear reactor and bombs, where neutrons emitted from one fission event cause other nuclei to fission, releasing more neutrons and so causing chain reaction. If this chain is controlled then you have a nuclear reactor whose heat can be used to boil water and generate electricity. If the chain is uncontrolled it causes a nuclear explosion.
Fission occurs by allowing slowing neutrons to impact the nucleus of a fissionable material, such as U-235. In its natural state Uranium consists almost entirely of U-238 which has three more neutrons than U-235.
In nuclear physics and nuclear chemistry, nuclear fission is a nuclear reaction in which the nucleus of an atom splits into smaller parts, often producing free neutrons and lighter nuclei, which may eventually produce photons (in the form of gamma rays). Fission of heavy elements is an exothermic reaction which can release large amounts of energy both as electromagnetic radiation and as kinetic energy of the fragments (heating the bulk material where fission takes place). For fission to produce energy, the total binding energy of the resulting elements has to be higher than that of the starting element. Fission is a form of nuclear transmutation because the resulting fragments are not the same element as the original atom. Nuclear fission produces energy for nuclear power and to drive the explosion of nuclear weapons. Both uses are made possible because certain substances called nuclear fuels undergo fission when struck by free neutrons and in turn generate neutrons when they break apart. This makes possible a self-sustaining chain reaction that releases energy at a controlled rate in a nuclear reactor or at a very rapid uncontrolled rate in a nuclear weapon. The amount of free energy contained in nuclear fuel is millions of times the amount of free energy contained in a similar mass of chemical fuel such as gasoline, making nuclear fission a very tempting source of energy; however, the products of nuclear fission are radioactive and remain so for significant amounts of time, giving rise to a nuclear waste problem. Concerns over nuclear waste accumulation and over the destructive potential of nuclear weapons may counterbalance the desirable qualities of fission as an energy source, and give rise to ongoing political debate over nuclear power.
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Nuclear fission is the working principle under which the nuclear reactors operate.
nuclear fission
FISSION. nobody on this website knows the answer..... SHAME
Nuclear fission
nuclear fission is the process of splitting atoms.
Nuclear fission is the working principle under which the nuclear reactors operate.
You get nuclear fission in:nuclear fission reactorsatomic fission bombs
nuclear fission
nuclear fission
Nuclear fission
The absorption of a free moving neutron by the atom's nucleus
all nuclear explosives use some fission. even now.
FISSION. nobody on this website knows the answer..... SHAME
The energy released in nuclear fission, mainly of uranium-235
Nuclear fission.
Nuclear fission
The Sun get it power by nuclear FUSION not by nuclear fission.