Wiki User
∙ 6y agoa neutron is absorbed by an atom’s nucleus. (apex)
anon
Sol G
Wiki User
∙ 6y agoA few different things may happen, but what we hope happens next is that the neutron is captured by the nucleus of a fuel atom. That atomic nucleus becomes unstable, then it splits in a fission reaction.
Anonymous
a neutron is absorbed by an atom’s nucleus. APEX USERS
Neutrons released during a fission reaction trigger other fission reactions.
No, fission does not naturally occur in the human body. Fission is a nuclear reaction that involves the splitting of atomic nuclei, which is not a process that happens in biological organisms.
The 235U fuel releases neutrons, which will continue the chain reaction. It also releases heat, which is carried off in the coolant and (usually) used to generate steam to spin turbines to generate electricity.
One large nucleus, typically uranium, undergoes fission and releases several neutrons along with the major fission products. These neutrons strike more uranium atoms and are absorbed by the nucleus causing it to become unstable. It undergoes fission releasing more neutrons and more fission products. These neutrons strike more uranium atoms etc.
Nuclear fission is a chain reaction where the neutrons released from one fission event can trigger more fission events in neighboring atoms, leading to a self-sustaining cascade. This happens because the neutrons produced in each fission event can then cause additional fission reactions in nearby nuclei, creating a continuous release of energy.
A neutron is absorbed by an atoms nucleus
Neutrons released during a fission reaction trigger other fission reactions.
Nuclear fission
No, fission does not naturally occur in the human body. Fission is a nuclear reaction that involves the splitting of atomic nuclei, which is not a process that happens in biological organisms.
A nuclear fission reaction occurs in a nuclear power plant. This is the process where the nucleus of an atom is split, releasing large amounts of energy in the form of heat, which is used to generate electricity.
A chain reaction is a type of reaction that keeps going on its own once it starts due to the products of the reaction continuing to fuel the reaction. Nuclear fission reactions in nuclear power plants and explosions are examples of chain reactions that continue on their own once initiated.
This reaction is called nuclear fission; a extremely great quantity of energy is also released. The two fragments are called fission products.
When a freely moving neutron is introduced to a nuclear fuel like uranium, it can be absorbed by the nucleus of the fuel atom, causing it to become unstable and split into two or more smaller atoms, releasing energy and more neutrons in the process. This is known as nuclear fission, and it can lead to a chain reaction if the released neutrons go on to collide with other fuel atoms and cause them to undergo fission as well.
In a continuous chain reaction at a steady rate, which gives a steady power output from a fission reactor, every fission gives rise to another fission. This happens because in every fission 2 or 3 neutrons are produced, some are absorbed or lost, but if just one is captured by another fissionable nucleus, the chain reaction will continue. Apex answer = 1
What you look for in a NPP is a self-sustaining chain reaction, where the original fission releases enough neutrons to cause the rest of the fuel to undergo fission without continuously having to bombard it with more neutrons. But, you don't want the reaction to be uncontrolled - to happen too fast to be able to harness the energy. That is what happens with atomic bombs.
The 235U fuel releases neutrons, which will continue the chain reaction. It also releases heat, which is carried off in the coolant and (usually) used to generate steam to spin turbines to generate electricity.
A nuclear chain reaction nuclear fission