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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.
Wiki User
∙ 12y ago
Wiki User
∙ 12y agoIron 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.
How does the Sun generate energy today?
nuclear fusion
Process is how the sun produces energy?
Nuclear fusion. Atoms are smashed together in the star's core, releasing massive amounts of energy.
How does nuclear energy relate to the sun?
We derive electromagnetic energy from the nuclear fusion reactions on the sun. We also apply nuclear energy (fission) on earth to generate lots of thermal energy, which we use in a steam cycle to generate lots of electric power.
How do the sun and the other stars generate their energy?
The Sun and other stars generate tremendous amounts of energy, resulting in their characteristic heat and light, from fusion processes which occur in the star's core. The most common is the fusion of hydrogen into helium, although other fusion processes also take place depending on things like the age and mass of the star. If you calculate the amount of mass converted into energy in the fusion of hydrogen into helium - about 0.7% of the mass - and multiply that by the square of the speed of light (per Einstein's famous formula, E=mc^2) that's a lot of energy!
Why can't massive stars generate energy from iron fusion?
Because iron has no more excess binding energy left to release. Iron fusion consumes energy, it does not generate it.
How does sun generate its energy?
Through Nuclear 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.
How does the nuclear fusion generate energy?
The Sun energy is from hydrogen fusion.
How does the sun generate energy?
nuclear fusion
How does nuclear fusion generate the suns energy?
The Sun energy is from hydrogen fusion.
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 today?
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.
What is the difference between mechanical energy and nuclear energy?
Mechanical energy is energy generated through motion, while nuclear energy is generated through either fusion (the combining of atoms), or fission (the breakdown of atoms). stars generate fusion, and nuclear power plants, use uranium for fission.
5 How does the Sun generate energy today?
Nuclear Fusion
What difference of a star and a planet?
A star is a luminous ball of plasma held together by its own gravity and produce energy through thermonuclear fusion. A planet is a body orbiting a star massive enough to be rounded by its own gravity but not massive enough to conduct fusion.
