Nuclear fusion is caused by a huge amount of energy being absorbed by two atoms that are close to each other and they fuse, or under go fusion to give of that energy. The byproduct of the process is roughly equivalent to the amount of energy that was absorbed by the original two or more atoms.
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 in the sun occurs when hydrogen atoms combine to form helium atoms. This process releases large amounts of energy in the form of photons. The intense pressure and temperature in the sun's core create the conditions necessary for nuclear fusion to occur.
Nuclear fusion reactions occur in the core of stars, including the Sun, where high pressure and temperature conditions allow hydrogen atoms to combine and release a tremendous amount of energy. Scientists are also working on creating controlled nuclear fusion in experimental reactors on Earth as a potential source of sustainable energy.
No, nuclear fusion does not occur in the convection zone of a star. Fusion reactions primarily take place in the core region of a star, where the temperature and pressure are high enough to sustain the nuclear reactions that power the star. The convection zone is a region of the star where heat is transported through the movement of gas, but fusion does not occur there.
Yes, but on earth we are limited in size
Because the conditions of temperature and pressure that occur in stars do not occur on earth
The temperature required for nuclear fusion to occur is around 100 million degrees Celsius.
nuclear fusion is not a natural occurrence, it is when two atoms are fused together
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 in the sun occurs when hydrogen atoms combine to form helium atoms. This process releases large amounts of energy in the form of photons. The intense pressure and temperature in the sun's core create the conditions necessary for nuclear fusion to occur.
in the djfafkjkvn
Nuclear fusion reactions occur in the core of stars, including the Sun, where high pressure and temperature conditions allow hydrogen atoms to combine and release a tremendous amount of energy. Scientists are also working on creating controlled nuclear fusion in experimental reactors on Earth as a potential source of sustainable energy.
In the cores of stars and hydrogen bombs.
Sun
Nuclear fusion is the process that powers stars, including our sun. The intense heat and pressure in the core of a star creates the conditions necessary for nuclear fusion to occur, releasing vast amounts of energy. Scientists are working on harnessing this same process for practical energy production on Earth through nuclear fusion reactors.
Elements can be produced in the sun through nuclear fusion reactions that occur due to the intense heat and pressure. These conditions are not present in Earth's atmosphere, which is why elements are not produced there. Earth's atmosphere primarily consists of gases and does not contain the necessary conditions for nuclear fusion to occur.
yes nuclear fusion does occur on the sun, creating intense heat and light