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Mass. When you split a large atom (fission) into parts the mass of the parts is less then the original atom. The "lost" mass comes out as energy. When you combine two small atoms into a larger atom (fusion) , the larger atom has less mass then the two original atoms and the "lost" mass comes out as energy.
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How are fission and fission similar?
Fusion and fission are similar in that they both reduce mass and thereby release binding energy.
What do nuclear fusion and fission have in common?
Nuclear fusion and fission are both processes that involve releasing energy from the nucleus of an atom. They can both produce large amounts of energy and are used in nuclear power plants.
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.
What is the science behind nuclear energy both fission and fusion?
Fusion is the combination of two atomic nuclei into one, while fission is the separation of one nuclei into two. Nuclear power plants use fission, where a particle (neurton) is shot at an atomic nuclei to break it apart. In the breaking apart process some of the mass of the original atom is converted into energy (e=mc2). This energy (heat) is used to heat water, expanding into steam that turns a turbine.
What is the benefit of nuclear fusion and What is one thing nuclear fission and nuclear fusion have in common?
The benefit of nuclear fusion is its potential to provide a virtually limitless and clean energy source with minimal environmental impact. One thing nuclear fission and nuclear fusion have in common is that they both involve the release of energy by altering the nuclei of atoms, although through different processes.
What kind of energy is produced by both fission and fusion processes?
Nuclear energy is produced by both fission and fusion processes.
Why are fission and fusion called nuclear energy?
Nuclear energy is the source of the energy produced by both fission and fusion. Per Einstein's equation E = mc2 matter may be converted into energy. In fission, the nuclei of heavy atoms like Uranium or Plutonium are split into less heavy elements. Byproducts of fission are nuclear energy and neutrons that may be used to sustain the nuclear fission process as in a reactor or a bomb. In fusion, two nuclei are merged (or fused) to form a heavier element. Often two Hydrogen atoms are fused to form a Helium atom. Fusion is the process that occurs in our sun. Both fission and fusion result in the conversion of a small amount of the matter in the nuclei of the source atom(s) into energy. Therefore, both may be considered nuclear energy.
How are fission and fission similar?
Fusion and fission are similar in that they both reduce mass and thereby release binding energy.
What do nuclear fusion and fission have in common?
Nuclear fusion and fission are both processes that involve releasing energy from the nucleus of an atom. They can both produce large amounts of energy and are used in nuclear power plants.
In what ways are fission and fusion alike?
Fission and fusion are both nuclear reactions that release energy by altering the nucleus of an atom. Both processes involve the splitting or combining of atomic nuclei to release energy.
In what ways are fission and fusion similar?
Fission and fusion are both nuclear reactions that release energy by altering the nucleus of an atom. Both processes involve the splitting or combining of atomic nuclei to release energy.
How are fissions and fusion similar?
Fusion and fission are similar in that they both reduce mass and thereby release binding energy.
What is fusion and fission related to?
Fusion and fission is related to combining (fusion) or splitting (fission) radioactive nuclei, in both cases releasing binding energy (The Strong Atomic Force). Fission is more commonly used in nuclear power plants and A-Bombs, while fusion is more commonly used in H-Bombs and in the Stars.
Why is energy released when the nuclear reactions fusion and fission take place?
Energy is released during nuclear fusion and fission due to the conversion of mass into energy, as described by Einstein's equation E=mc². In fusion, lighter atomic nuclei combine to form a heavier nucleus, resulting in a mass deficit that is converted into energy. In fission, a heavy nucleus splits into lighter nuclei, also producing a mass deficit and releasing energy. Both processes occur because the products have a lower total mass than the reactants, leading to the release of 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.
What is the science behind nuclear energy both fission and fusion?
Fusion is the combination of two atomic nuclei into one, while fission is the separation of one nuclei into two. Nuclear power plants use fission, where a particle (neurton) is shot at an atomic nuclei to break it apart. In the breaking apart process some of the mass of the original atom is converted into energy (e=mc2). This energy (heat) is used to heat water, expanding into steam that turns a turbine.
What is the benefit of nuclear fusion and What is one thing nuclear fission and nuclear fusion have in common?
The benefit of nuclear fusion is its potential to provide a virtually limitless and clean energy source with minimal environmental impact. One thing nuclear fission and nuclear fusion have in common is that they both involve the release of energy by altering the nuclei of atoms, although through different processes.
