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Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.
Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.
Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.
Iron is on the lowest energy level (for nuclear energy), or near it. Converting other elements to iron or nickel will produce energy; the other way round it costs energy.
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Massive stars cannot generate energy through iron fusion because?
No energy is gained when fusing iron into heavier elements. Heavier elements have a higher potential energy (nuclear energy) than iron.
Are stars nuclear powered?
Yes, stars are nuclear powered. They generate energy through the process of nuclear fusion in their cores, where hydrogen atoms combine to form helium, releasing massive amounts of energy in the form of light and heat. This process is what enables stars to shine and produce heat.
Is the sun dry?
The sun is not dry, as it is a massive ball of hot plasma that emits energy through nuclear fusion.
As heavier elements are formed by fusion a massive star expands into?
As heavier elements are formed by fusion in the core, a massive star will eventually exhaust its nuclear fuel and trigger a supernova explosion. This explosion will generate immense energy, leading to the production and dispersal of even more heavy elements into space.
Why is the sun not a planet?
The sun is not considered a planet because it is a star, not a celestial body that orbits a star like a planet does. Stars generate energy through nuclear fusion in their cores, while planets do not generate energy through fusion.
Why can't massive stars generate energy from iron fusion?
Massive stars cannot generate energy from iron fusion because iron fusion does not release energy, rather it absorbs energy. Iron is the most stable element, and fusion of iron requires more energy than it produces, making it an unfavorable process for generating energy in stars. This leads to the collapse of the star's core and triggers a supernova explosion.
How does the nuclear fusion generate energy?
The Sun energy is from hydrogen fusion.
Massive stars cannot generate energy through iron fusion because?
No energy is gained when fusing iron into heavier elements. Heavier elements have a higher potential energy (nuclear energy) than iron.
Are stars nuclear powered?
Yes, stars are nuclear powered. They generate energy through the process of nuclear fusion in their cores, where hydrogen atoms combine to form helium, releasing massive amounts of energy in the form of light and heat. This process is what enables stars to shine and produce heat.
How do star use energy?
Stars fuse hydrogen through nuclear fusion into helium and release the massive resulting energy into space.
How does the sun generate energy?
nuclear fusion
To reduce climate damage scientists hope to generate electricity from nuclear energy through what?
Scientists hope to generate electricity and heat through nuclear fusion as well as nuclear fission.
Is the sun dry?
The sun is not dry, as it is a massive ball of hot plasma that emits energy through nuclear fusion.
What is the most massive element that can be formed by nuclear fusion with the liberation of energy?
Iron is the most massive element that can be formed by nuclear fusion with the liberation of energy. This is because fusion reactions beyond iron require an input of energy rather than liberating energy.
As heavier elements are formed by fusion a massive star expands into?
As heavier elements are formed by fusion in the core, a massive star will eventually exhaust its nuclear fuel and trigger a supernova explosion. This explosion will generate immense energy, leading to the production and dispersal of even more heavy elements into space.
5 How does the Sun generate energy today?
Nuclear Fusion
What kind of reaction to provide a star with energy?
Stars generate energy through nuclear fusion, primarily converting hydrogen into helium in their cores. This process releases an immense amount of energy in the form of light and heat, which counteracts the gravitational forces trying to collapse the star. In more massive stars, fusion can also involve heavier elements, leading to the production of various elements up to iron. This fusion process is fundamental to a star's lifecycle and the energy it radiates into space.
