Question:
Write down the difference between nuclear fission and nuclear fusion.
Write down the difference between nuclear fission and nuclear fusion.
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Fission = Splitting of a heavy nucleus into lighter ones, used in reactors. Fusion = Combining of light nuclei to form a heavier one, happens naturally in stars and holds potential for clean energy.
Updated On: Sep 12, 2025
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Solution and Explanation
Nuclear fission and nuclear fusion are two types of nuclear reactions that release energy. However, they differ significantly in their mechanisms and the materials involved.
1. Nuclear Fission:
- In nuclear fission, a heavy atomic nucleus (such as Uranium-235 or Plutonium-239) splits into two smaller nuclei, releasing a large amount of energy.
- It occurs when a neutron strikes a heavy nucleus, causing it to become unstable and break apart. The process also releases additional neutrons, which can trigger further fission reactions (a chain reaction).
- The energy released is in the form of kinetic energy of the fission fragments, gamma rays, and the energy carried by neutrons.
- Example: Nuclear reactors and atomic bombs use fission reactions.
- By-products: Fission produces radioactive by-products, which can be hazardous and require careful disposal.
2. Nuclear Fusion:
- In nuclear fusion, two light atomic nuclei, typically isotopes of hydrogen (such as deuterium and tritium), combine to form a heavier nucleus, releasing a vast amount of energy.
- Fusion reactions occur naturally in stars, including the Sun, where hydrogen nuclei fuse to form helium under extremely high pressure and temperature.
- Fusion requires extremely high temperatures (millions of degrees) to overcome the electrostatic repulsion between positively charged nuclei.
- Example: Hydrogen bombs and the Sun’s core produce energy through fusion.
- By-products: Fusion produces much less radioactive waste than fission and is considered a cleaner energy source. However, it is still very challenging to achieve controlled fusion for practical energy generation on Earth.
Key Differences: - Fission splits a heavy nucleus into two lighter ones, while fusion combines two light nuclei into a heavier one. - Fission is currently used in nuclear reactors and weapons, while fusion occurs naturally in stars and is a potential future energy source. - Fission produces radioactive by-products, while fusion produces significantly less radioactive waste. In summary, both fission and fusion release vast amounts of energy, but fusion holds the potential for cleaner and more sustainable energy, though it is much more difficult to achieve on Earth.
1. Nuclear Fission:
- In nuclear fission, a heavy atomic nucleus (such as Uranium-235 or Plutonium-239) splits into two smaller nuclei, releasing a large amount of energy.
- It occurs when a neutron strikes a heavy nucleus, causing it to become unstable and break apart. The process also releases additional neutrons, which can trigger further fission reactions (a chain reaction).
- The energy released is in the form of kinetic energy of the fission fragments, gamma rays, and the energy carried by neutrons.
- Example: Nuclear reactors and atomic bombs use fission reactions.
- By-products: Fission produces radioactive by-products, which can be hazardous and require careful disposal.
2. Nuclear Fusion:
- In nuclear fusion, two light atomic nuclei, typically isotopes of hydrogen (such as deuterium and tritium), combine to form a heavier nucleus, releasing a vast amount of energy.
- Fusion reactions occur naturally in stars, including the Sun, where hydrogen nuclei fuse to form helium under extremely high pressure and temperature.
- Fusion requires extremely high temperatures (millions of degrees) to overcome the electrostatic repulsion between positively charged nuclei.
- Example: Hydrogen bombs and the Sun’s core produce energy through fusion.
- By-products: Fusion produces much less radioactive waste than fission and is considered a cleaner energy source. However, it is still very challenging to achieve controlled fusion for practical energy generation on Earth.
Key Differences: - Fission splits a heavy nucleus into two lighter ones, while fusion combines two light nuclei into a heavier one. - Fission is currently used in nuclear reactors and weapons, while fusion occurs naturally in stars and is a potential future energy source. - Fission produces radioactive by-products, while fusion produces significantly less radioactive waste. In summary, both fission and fusion release vast amounts of energy, but fusion holds the potential for cleaner and more sustainable energy, though it is much more difficult to achieve on Earth.
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