neutrons
Yes, fusion reactions occur in a hydrogen bomb, which is a type of nuclear bomb. The high temperatures and pressures generated by the fission reaction in the bomb can trigger fusion reactions between hydrogen isotopes. This fusion reaction releases a large amount of energy, contributing to the destructive power of the bomb.
A neutron trigger is used in nuclear fission reactions to initiate the splitting of atomic nuclei. By emitting neutrons, the trigger can start a chain reaction in which other nuclei are split, releasing more neutrons and energy. This process is fundamental to the operation of nuclear reactors and nuclear weapons.
Nuclear fission reactions in certain atoms can be initiated through processes such as bombarding the atoms with neutrons or by using controlled conditions that allow for the splitting of atomic nuclei. These processes can trigger a chain reaction leading to the release of energy, which can be harnessed for various applications, including nuclear power generation.
A hydrogen bomb is actually a fission-fusion-fission reaction. The primary fission trigger (plutonium) supplies the energy to induce fusion, but then the fusion energy is used to initiate the secondary fission, which is a large amount of uranium. (in a "clean" H bomb, the uranium is replaced with lead, making it much weaker) also, the radiation will affect the surrounding area, creating a large number of isotopes, dramatically increasing the radioactive fallout.-Akilae
No, the tsunami did not trigger a nuclear blast. The nuclear blast at Fukushima Daiichi Nuclear Power Plant in Japan was caused by a loss of cooling functionality due to the earthquake which occurred before the tsunami.
Neutrons are typically shot at an isotope's nucleus to trigger a nuclear chain reaction. When a neutron collides with a nucleus, it can cause the nucleus to split, releasing more neutrons that can trigger additional fission reactions in nearby nuclei, leading to a chain reaction.
In a chain reaction, neutrons released during the splitting of an initial nucleus trigger a series of nuclear fissions.
The splitting of a nucleus by a slow-moving neutron is known as nuclear fission. This process releases a large amount of energy in the form of heat and additional neutrons, which can then trigger a chain reaction in other nearby nuclei, leading to a self-sustaining release of energy. Nuclear fission is the principle behind nuclear power plants and nuclear weapons.
Yes, fusion reactions occur in a hydrogen bomb, which is a type of nuclear bomb. The high temperatures and pressures generated by the fission reaction in the bomb can trigger fusion reactions between hydrogen isotopes. This fusion reaction releases a large amount of energy, contributing to the destructive power of the bomb.
TNT (trinitrotoluene) is a conventional explosive used to trigger the beginning of a nuclear reaction in some nuclear weapons. When the TNT detonates, it generates the high temperatures and pressures needed to initiate the fission process in the nuclear material, causing a chain reaction to occur.
A neutron trigger is used in nuclear fission reactions to initiate the splitting of atomic nuclei. By emitting neutrons, the trigger can start a chain reaction in which other nuclei are split, releasing more neutrons and energy. This process is fundamental to the operation of nuclear reactors and nuclear weapons.
Nuclear fission reactions in certain atoms can be initiated through processes such as bombarding the atoms with neutrons or by using controlled conditions that allow for the splitting of atomic nuclei. These processes can trigger a chain reaction leading to the release of energy, which can be harnessed for various applications, including nuclear power generation.
It's a problem of nuclear physics - the stability of a nucleus, depending on the number of protons and neutrons.
A nuclear weapon requires enriched uranium or plutonium as the fissile material to sustain a chain reaction and create a nuclear explosion. Additionally, a conventional chemical explosive is needed to trigger the nuclear reaction.
Basically a chain reaction (nuclear or chemical) is a self sustaining auto-catalytic reaction.In a nuclear reactor it is a neutron chain reaction, where each neutron released in every fission event can trigger another fission event. In a nuclear reactor the excess neutrons must be disposed of, which is the purpose of the control rods so that the reaction can be kept at some desired constant rate.
fusion reactions, where lighter elements combine to release tremendous amounts of energy. In stars, the fusion of hydrogen into helium powers their luminosity and heat. Hydrogen bombs use isotopes of hydrogen to trigger a controlled fusion reaction, releasing a massive amount of explosive energy.
Electrical energy, in the triggering and fuzing mechanisms. Chemical energy, in the form of conventional explosives used to trigger the chain reaction. Nuclear energy, in the form of fissionable or fusable nuclear materials.