Admin What happens when a neutron is absorbed by a nucleus of an atom of U-235?
4. What happens when a neutron is absorbed by a nucleus of an atom of U235? Explanation: When a neutron is absorbed by a nucleus of an atom U235, a U236 isotope is formed. This isotope is highly unstable which lasts for one millionth of a second and splits into two equal parts releasing energy of 200MeV.
Which particle is most likely to be captured by a 235u nucleus and cause it to undergo fission?
When a U-235 nucleus absorbs an extra neutron, it quickly breaks into two parts. This process is known as fission (see diagram below). Each time a U-235 nucleus splits, it releases two or three neutrons. Hence, the possibility exists for creating a chain reaction.
What happens when a neutron is absorbed?
The neutron absorption reaction other than capture is fission. The neutron absorbed by the target nucleus induces the resulting compound nucleus to split into usually two parts with the simultaneous release of some neutrons and considerable energy, primarily in the form of the kinetic energy of the fission products.
What will happen when a nucleus absorbs neutron during a neutron capture process?
neutron capture, type of nuclear reaction in which a target nucleus absorbs a neutron (uncharged particle), then emits a discrete quantity of electromagnetic energy (gamma-ray photon). Thus phosphorus-31, on undergoing neutron capture, becomes phosphorus-32.
When 235U is bombarded with one neutron fission occurs and the products are three neutrons 94Kr and?
when 235U is bombarded with one neutron,fission occurs and the products are three neutrons,94Kr, and _ AN matches, so you form krypton and barium. You are short one neutron. Because the krypton and three neutrons are given, the missing neutron is from the barium.
What do you mean by artificial nuclear transmutation explain?
Artificial transmutation is the conversion of an element into another element by bombarding it with a fundamental particle. Artificial transmutation was first carried out on Nitrogen whose nucleus was bombarded with an α particle to produce oxygen.