The high level waste, which is the dangerous part, is contained in the spent fuel, so it has the same volume as the fuel rods, unless they are processed. The actual amount is manageable, it is the high activity that is the problem for disposal.
Radioactive fuel is a substance, such as uranium or plutonium, that undergoes nuclear fission in a reactor to produce energy. This process releases large amounts of heat that can be converted into electricity.
Radioactive substances, such as uranium or plutonium, are used in fission bombs because they can undergo nuclear fission, releasing a large amount of energy in a chain reaction. This energy release is what creates the explosive power of the bomb.
The radioactive metal used in nuclear reactors is uranium. It is commonly used as fuel in nuclear reactors due to its ability to undergo nuclear fission, releasing large amounts of energy in the process.
Nobelium is a highly radioactive element, and its isotopes are not found in nature. Due to its radioactivity, it poses health risks if handled or ingested. Additionally, it can undergo spontaneous fission, releasing large amounts of energy.
Atomic fission is the process in which large atoms break apart, releasing large amounts of energy and smaller atoms. The smaller atoms are called fission products. The Oak Ridge scientists proved that element 61 was present in fission products of uranium. They named it promethium, after the Greek god Prometheus.
True
Splitting the atom of a radioactive material produces energy in the form of heat and radiation. This process, called nuclear fission, results in the release of large amounts of energy, which can be harnessed for various applications such as electricity generation in nuclear power plants.
Binary fission does not produce an excess of energy, it simply divides a single organism into two identical daughter cells. Additionally, binary fission does not create new species, as the process typically occurs within a single species reproducing asexually.
There are two main types of nuclear reactions: fission and fusion. Fission is the process where a heavy nucleus splits into two or more lighter nuclei, releasing a large amount of energy. Fusion is the process where two light nuclei combine to form a heavier nucleus, also releasing large amounts of energy.
Fission weapons use either uranium or plutonium. Both of these elements are radioactive, though the radiation is not what precipitates the nuclear reaction. So to answer the question, very little.
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
Nuclear processes that can release large amounts of energy.