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A massive star with what element does nuclear fusion stop?
A massive star with iron in its core will stop nuclear fusion, leading to its collapse and eventual explosion as a supernova. Iron is the element at which fusion becomes endothermic, meaning energy is no longer released in the process.
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.
What is it when energy is released through fission or fusion?
When energy is released through fission or fusion, it is known as nuclear energy. Fission involves splitting atoms, releasing energy, while fusion involves combining atoms, also releasing energy. Both processes result in the conversion of mass into energy, as described by Einstein's famous equation E=mc^2.
Does lightning produce more power than nuclear fusion?
No, nuclear fusion produces vastly more power than lightning. Nuclear fusion is the energy source of the sun and other stars, generating massive amounts of energy through the fusion of atoms. Lightning, while powerful in a localized sense, is a discharge of static electricity that pales in comparison to the energy output of nuclear fusion.
What is the term for energy that comes from inside the nucleus of an atom?
Nuclear energy is the term for energy that comes from inside the nucleus of an atom. This energy can be released through processes such as nuclear fission or nuclear fusion.
A massive star with what element does nuclear fusion stop?
A massive star with iron in its core will stop nuclear fusion, leading to its collapse and eventual explosion as a supernova. Iron is the element at which fusion becomes endothermic, meaning energy is no longer released in the process.
Outline on nuclear energy?
Definition: energy from nuclear fission or fusion: the energy released by nuclear fission or 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.
Give definition for nuclear energy?
The energy released by either nuclear fission or nuclear fusion.
What is the nuclear reaction when energy is released by the joining of nuclei?
Nuclear Fusion
What is the name of the nuclear reaction in which nuclei combine to form more massive nuclei?
The nuclear reaction in which nuclei combine to form more massive nuclei is called nuclear fusion. This process releases large amounts of energy, such as in the sun.
Is fusion nuclear energy or chemical energy?
Nuclear fusion produces nuclear energy
How does the sun transform?
This reaction, known as nuclear fusion, converts hydrogen atoms into helium. The by-product of nuclear fusion in the Sun's core is a massive volume of energy that gets released and radiates outward toward the surface of the Sun and then into the solar system beyond it.
What is nuclear weapon?
An explosive device that uses massive conventional explosives to split radioactive atoms and cause a MASSIVE release of energy by nuclear fission or fusion. A BIG BOOM!!!!
What is it when energy is released through fission or fusion?
When energy is released through fission or fusion, it is known as nuclear energy. Fission involves splitting atoms, releasing energy, while fusion involves combining atoms, also releasing energy. Both processes result in the conversion of mass into energy, as described by Einstein's famous equation E=mc^2.
How do star use energy?
Stars fuse hydrogen through nuclear fusion into helium and release the massive resulting energy into space.
Does nuclear fusion violate the law of conservation of energy?
No, nuclear fusion does not violate the law of conservation of energy. In nuclear fusion, energy is released when atomic nuclei combine to form a heavier nucleus, and this process does not create or destroy energy, but rather transforms it from one form to another.
