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Saturn was not massive enough to initiate nuclear fusion.
The star can fuse up to iron, because iron is the most stable element.
Existing element is product of nuclear fusion, heavy element exist from over fusion and thus create high atomic mass substance. To answer what is the element that is form last in nuclear fusion in star is the same as asking what is the heaviest element occur or found in nature. Base on what is in periodic table. The heaviest element found naturally is around Uranium - Plutonium thus it could be considered the last product known in nuclear fusion in star. There are heavier element than Uranium and Plutonium but those are synthesize element. Nuclear fusion might go to element heavier than what is known in our periodic table but those substance may be unstable and decay over time until none of those exist.
False.
You can find nuclear fusion in a star.
Nuclear fusion.
Saturn was not massive enough to initiate nuclear fusion.
The energy in stars comes from nuclear fusion. Hydrogen atoms are continually fused together to created helium and with it, massive amounts of energy.
Nuclear fusion, in the star's core.Nuclear fusion, in the star's core.Nuclear fusion, in the star's core.Nuclear fusion, in the star's core.
A planet cannot become a star. A star is an object that is massive enough to release energy via nuclear fusion. A planet is much less massive.
The star can fuse up to iron, because iron is the most stable element.
Existing element is product of nuclear fusion, heavy element exist from over fusion and thus create high atomic mass substance. To answer what is the element that is form last in nuclear fusion in star is the same as asking what is the heaviest element occur or found in nature. Base on what is in periodic table. The heaviest element found naturally is around Uranium - Plutonium thus it could be considered the last product known in nuclear fusion in star. There are heavier element than Uranium and Plutonium but those are synthesize element. Nuclear fusion might go to element heavier than what is known in our periodic table but those substance may be unstable and decay over time until none of those exist.
Nuclear fusion. Stellar fusion involves a ton of different fusion reactions throughout the star's life. The primary and (usually) the longest burning is the fusion of hydrogen into helium. This consumes a great number of the nuclear energy in the sun, and it usually accounts for the type of fusion that goes on for most of the life of the star. This is the process.
False.
Jupiter was going to become a star but when studied closely, scientists found that it was not massive enough to cause nuclear fusion in its core
Nuclear fusion. Atoms are smashed together in the star's core, releasing massive amounts of energy.
Stars fuse hydrogen through nuclear fusion into helium and release the massive resulting energy into space.