Doesn't fission of heavy nuclides use roughly (same order of magnitude) MeV to split?mfb said:possible in terms of energy
The main limitation of fission decay paths is that they can only occur in heavy nuclei with atomic numbers above 90, also known as actinides. This means that fission reactions cannot be sustained in lighter elements, such as hydrogen or helium.
Yes, fission reactions can be controlled by using control rods to absorb neutrons and regulate the rate of the reaction. This is important in nuclear power plants to prevent the reaction from becoming uncontrollable and causing a meltdown.
Yes, fission reactions can be dangerous if not properly controlled. If the reaction is allowed to proceed too quickly, it can release a large amount of energy in a short period of time, leading to a nuclear explosion. Additionally, the radioactive byproducts of fission can be harmful to human health if not handled and disposed of properly.
Yes, fission reactions can also be used to create nuclear weapons. Additionally, fission can be harnessed for medical purposes, such as in cancer treatment using radiation therapy.
Scientists are currently researching alternative nuclear reactions, such as fusion, which does not have the same limitations as fission. However, fusion reactions are still in the early stages of development and have not yet been successfully harnessed for practical use.