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How is energy generated in a star cores?
Energy in a star's core is generated through nuclear fusion, where hydrogen atoms combine to form helium releasing a massive amount of energy in the process. The extreme temperature and pressure in the core of a star make this fusion process possible, sustaining the star's energy output.
Why can iron fusion not support a star because of iron?
Iron fusion cannot support a star because iron is the most stable element and cannot release energy through fusion reactions. This causes the star to collapse, leading to a supernova explosion.
What provides the energy for support of a Horizontal Branch star?
A Horizontal Branch star generates energy through the fusion of helium into carbon and oxygen in its core. This fusion process releases energy in the form of light and heat, which provides the necessary support to balance the star against gravitational collapse.
How is energy transferred through the layers of a star?
In a star, energy is primarily transferred through radiation in the outer layers and through convection in the inner layers. In the core, where nuclear fusion occurs, energy is generated and eventually travels outward through the layers by radiation, heating up the outer layers.
What does the stars have to do with nuclear energy?
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.
How is energy generated in a star cores?
Energy in a star's core is generated through nuclear fusion, where hydrogen atoms combine to form helium releasing a massive amount of energy in the process. The extreme temperature and pressure in the core of a star make this fusion process possible, sustaining the star's energy output.
How does a star get energy?
nuclear fusion
Why can iron fusion not support a star because of iron?
Iron fusion cannot support a star because iron is the most stable element and cannot release energy through fusion reactions. This causes the star to collapse, leading to a supernova explosion.
What is the heat and energy of a star is generated by?
The energy in a star is generated by nuclear fusion.
What provides the energy for support of a Horizontal Branch star?
A Horizontal Branch star generates energy through the fusion of helium into carbon and oxygen in its core. This fusion process releases energy in the form of light and heat, which provides the necessary support to balance the star against gravitational collapse.
How do star use energy?
Stars fuse hydrogen through nuclear fusion into helium and release the massive resulting energy into space.
How does a mian sequnce star generates energy?
By nuclear fusion - converting hydrogen-1 into helium-4.
How does a star create such energy?
nuclear fusion
What is the source of energy in a star?
nuclear fusion
What is the source of a star energy?
nuclear fusion
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.
How is energy generated in the core of a star?
Energy in the core of a star is generated through nuclear fusion, where hydrogen atoms combine to form helium, releasing a large amount of energy in the process. This energy production is sustained by the extreme pressure and temperature conditions found at the core of the star, which allow fusion reactions to occur.
