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What is the key difference between fission and fusion reactions in terms of energy release?
The key difference between fission and fusion reactions in terms of energy release is that fission reactions involve the splitting of heavy atomic nuclei, releasing energy, while fusion reactions involve the combining of light atomic nuclei, also releasing energy.
Which provides more energy per gram of fuel fission or fusion?
Fusion provides more energy per gram of fuel than fission. Fusion reactions release several times more energy compared to fission reactions, making fusion a more efficient and powerful energy source.
Fission and fusion are examples of what?
Nuclear processes that can release large amounts of energy.
Can fission occur after fusion?
No, fission and fusion are two distinct nuclear reactions. Fusion involves the joining of atomic nuclei to release energy, while fission involves the splitting of atomic nuclei. They are not directly connected processes, so fusion does not lead to fission.
Why fusion reaction are more energetic than fission reactions?
Nuclear fission does not produce more energy than nuclear fusion. In nuclear fusion (6.4 MeV) per nucleon is given out which is much greater than the energy given out per nucleon (1 MeV) during a nuclear fission reaction.
Energy release of fusion compared to fission?
Fusion releases more energy than fission per unit mass of fuel. Fusion reactions involve combining light atomic nuclei to form heavier ones, releasing large amounts of energy in the process. In contrast, fission reactions involve splitting heavy atomic nuclei, releasing less energy per unit mass.
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.
Nuclear reactions such as fusion and fission convert?
Nuclear reactions such as fusion and fission convert mass into energy, following Einstein's famous equation E=mc^2. In fusion, lighter atomic nuclei combine to form heavier ones, releasing energy, while in fission, heavy atomic nuclei split into lighter ones, also releasing energy.
Why is fusion preferred over fission?
Fusion is preferred over fission because it produces more energy with less radioactive waste and is less prone to accidents. Fusion reactions use isotopes of hydrogen, which are abundant and non-radioactive, as fuel. Additionally, fusion does not produce long-lived radioactive waste like fission reactions do.
How is a nuclear fission reaction controlled in a nuclear reaction?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
How is a nuclear fission reaction controlled in nuclear reactor?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
