Nuclear fusion takes place under conditions of extreme temperature and pressure, such as those found in the core of stars like the Sun. These conditions are necessary to overcome the electrostatic repulsion between positively charged atomic nuclei and fuse them together to release energy.
If you are asking where does solar nuclear fusion take place, then that would be at the core of stars.
Nuclear fusion does not currently occur in nuclear plants. Nuclear plants use nuclear fission, where atoms are split to release energy. Fusion reactions, in which atomic nuclei combine to release energy, are not yet used commercially for electricity generation.
Nuclear fusion doesn't take place in a white dwarf because the core temperature and pressure aren't high enough to initiate the fusion of heavier elements such as carbon and oxygen. White dwarfs have already exhausted their nuclear fuel and are essentially the leftover cores of stars that have gone through their fusion stages.
I could answer is the question was more specific.
Fusion takes place in the core, where the temperature and pressure are much higher, which is necessary for fusion.
Nuclear fusion takes place in the core of the sun.
Nuclear fusion in the sun's core occurs when hydrogen atoms combine to form helium under high pressure and temperature, releasing energy in the process. This process is sustained by the sun's immense gravitational force, which creates the necessary conditions for fusion to occur.
If you are asking where does solar nuclear fusion take place, then that would be at the core of stars.
In nuclear fusion reaction two nuclei are combined by providing the energy.
Nuclear fusion does not currently occur in nuclear plants. Nuclear plants use nuclear fission, where atoms are split to release energy. Fusion reactions, in which atomic nuclei combine to release energy, are not yet used commercially for electricity generation.
Nuclear fusion doesn't take place in a white dwarf because the core temperature and pressure aren't high enough to initiate the fusion of heavier elements such as carbon and oxygen. White dwarfs have already exhausted their nuclear fuel and are essentially the leftover cores of stars that have gone through their fusion stages.
Nuclear fusion of hydrogen isotopes take place to form helium.
Nuclear fusion is the type of nuclear reaction that occurs in stars. Older stars with a collapsing center can exceed a temperature of one hundred million Kelvin.
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Fusion
nuclear fusion
Yes, they have accomplished nuclear fusion in a lab in Princeton.