There are many isotopes, especially of the trans-Uranium elements which can undergo nuclear fission.
The isotopes which are used in nuclear reactors are Uranium-233, Uranium-235 and Plutonium-239, because these isotopes are more readily available than other fissionable isotopes. Uranium-235 occurs naturally, Uranium-233 can be made by neutron irradiation of Thorium-232 and Plutonium-239 can be made by neutron irradiation of Uranium-238.
They are many but the most famous three are: uranium-233, Uranium-235, and Plutonium-239.Another answerUranium-235, uranium-238, and plutonium-239 are all capable of undergoing neutron induced fission. Actually there are other isotopes that also do this, but they are not commonly used as fuel.
The three most dangerous fission products are cesium-137, strontium-90, and iodine-131. These isotopes are highly radioactive and can cause serious health effects, such as cancer and radiation sickness, if not properly contained.
Short description: uranium is a heavy metal, a natural chemical element, dense, radioactive, containing three natural isotopes, toxic, atomic number 92, atomic weight 238,02891, used as fuel in nuclear reactors, used in nuclear weapons, chemically reactive, able to support nuclear fission with thermal neutrons, very expensive, a strategic material, etc.
The three main types of nuclear reactions are fission, fusion, and radioactive decay. Fission involves splitting a heavy nucleus into lighter fragments, releasing energy. Fusion involves combining light nuclei to form a heavier nucleus, also releasing energy. Radioactive decay is the spontaneous transformation of an unstable atomic nucleus into a more stable configuration, emitting radiation in the process.
This is the first step of the nuclear fission. Uranium 235 is very unstable but when an extra neutron is added the atom gets aggravated, making the atom burst creating elements and three other neutrons. These three neutrons hit other atoms, starting a very big chain reaction, and finally producing huge amounts of energy.
They are many but the most famous three are: uranium-233, Uranium-235, and Plutonium-239.Another answerUranium-235, uranium-238, and plutonium-239 are all capable of undergoing neutron induced fission. Actually there are other isotopes that also do this, but they are not commonly used as fuel.
That's really two questions, "What are the uses of Nuclear fission reaction?" and "What are potential uses of nuclear fission?". See the "Related questions" below for answers to each question.
Nuclear reactions involve changes in the nucleus of an atom, such as nuclear fission (splitting of a nucleus) and nuclear fusion (combining of nuclei). These reactions release large amounts of energy and are the basis for nuclear power and weapons. The products of these reactions can be different elements and isotopes.
Einsteinium is primarily used for research purposes in nuclear physics due to its high radioactivity and ability to undergo nuclear reactions. It can also be used in certain types of radiation therapy for cancer treatment. Additionally, einsteinium isotopes can be used as radiation sources for industrial radiography.
Types of Nuclear WeaponsThere are at least three types of nuclear weapons: Pure fission, combined fission/fusion, and cobalt. For more information about these types of nuclear weapons, you can click on the link, Nuclear Weapons, on the right and follow the links from that page. purple people eater `;..;`
The Three Mile Island nuclear power plant used nuclear fuel, specifically uranium, to generate electricity through a process called nuclear fission. The fission of uranium atoms produces heat that is used to generate steam, which in turn drives turbines to produce electricity.
- to study the nuclear physics- to prepare new isotopes
The three most dangerous fission products are cesium-137, strontium-90, and iodine-131. These isotopes are highly radioactive and can cause serious health effects, such as cancer and radiation sickness, if not properly contained.
Short description: uranium is a heavy metal, a natural chemical element, dense, radioactive, containing three natural isotopes, toxic, atomic number 92, atomic weight 238,02891, used as fuel in nuclear reactors, used in nuclear weapons, chemically reactive, able to support nuclear fission with thermal neutrons, very expensive, a strategic material, etc.
The three main types of nuclear reactions are fission, fusion, and radioactive decay. Fission involves splitting a heavy nucleus into lighter fragments, releasing energy. Fusion involves combining light nuclei to form a heavier nucleus, also releasing energy. Radioactive decay is the spontaneous transformation of an unstable atomic nucleus into a more stable configuration, emitting radiation in the process.
Stable isotopes do not undergo nuclear decay. Hydrogen has three isotopes, two are stable and the third is unstable. They are ;_ protium; 1 proton , 0 neutrons and 1 electron (Stable) The commonest isotope of hydrogen. deuterium ; 1 proton , 1 neutron and 1 electron (stable). Also known as 'heavy hydrogen - used to make heavy water). tritium ; 1 proton , 2 neutrons, and 1 electron (unstable - undergoes radio-active decay).
This is the first step of the nuclear fission. Uranium 235 is very unstable but when an extra neutron is added the atom gets aggravated, making the atom burst creating elements and three other neutrons. These three neutrons hit other atoms, starting a very big chain reaction, and finally producing huge amounts of energy.