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fission
Nuclear power plants use fission reactions to generate electricity by splitting uranium atoms. Nuclear weapons also use fission reactions to release a large amount of energy in the form of an explosion.
Nuclear fusion reactions can generate the most energy compared to other types of nuclear reactions. Fusion involves combining light nuclei to form heavier nuclei, releasing large amounts of energy in the process. This is the same process that powers the sun and other stars.
Uranium is processed into energy through a series of steps: mining and milling to extract uranium from the ground, conversion into uranium hexafluoride gas, enrichment to increase the concentration of fissile isotopes, fabrication into fuel pellets, and finally, nuclear fission in a reactor to generate heat and produce electricity. The heat produced by the fission reactions is then used to generate steam, which drives turbines to generate electricity.
Nuclear energy is produced in the core of a nuclear reactor, where controlled nuclear fission reactions occur. These reactions release heat energy, which is then used to generate electricity through steam turbines.
Nuclear energy is stored inside atoms, specifically within the nucleus. This energy is harnessed in nuclear reactions such as fission and fusion to generate power.
A fission nuclear power plant uses nuclear fission reactions to generate heat. In this process, the nucleus of an atom is split into smaller nuclei, releasing a large amount of energy in the form of heat. This heat is then used to produce steam, which drives turbines to generate electricity.
Nuclear power plants use nuclear energy as their source of power. They harness the energy released from nuclear reactions (such as fission) to generate electricity. The heat produced by these reactions is used to create steam, which drives turbines to generate electricity.
Nuclear fission reactions are used to create power in nuclear power plants. In a fission reaction, the nucleus of an atom is split into smaller parts, releasing a large amount of energy in the process. This energy is used to generate heat, which in turn produces steam to drive turbines and generate electricity.
The key difference between fission and fusion reactions in terms of energy release is that fission reactions involve the splitting of heavy atomic nuclei, releasing energy, while fusion reactions involve the combining of light atomic nuclei, also releasing energy.
the splitting of a nucleus
Nuclear energy is the energy released during nuclear reactions either by fusion or fission of atomic nuclei. In nuclear fission, atoms are split releasing a large amount of energy, while in nuclear fusion, atoms are combined to release energy. This energy can be harnessed to generate electricity in nuclear power plants.