Nuclear Fusion (Edexcel IGCSE Science (Double Award))
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Nuclear fusion
Small nuclei can react to release energy in a process called nuclear fusion
Nuclear fusion is defined as:
When two light nuclei join to form a heavier nucleus
This process requires extremely high temperatures to maintain
This is why nuclear fusion has proven very hard to reproduce on Earth
Stars, including the Sun, use nuclear fusion to produce energy
Therefore, fusion reactions are very important to life on Earth
In most stars, hydrogen atoms are fused together to form helium and produce lots of energy
Two hydrogen nuclei are fusing to form a helium nuclei
The energy produced during nuclear fusion comes from a very small amount of the particle’s mass being converted into energy
The amount of energy released during nuclear fusion is huge
The energy from 1 kg of hydrogen that undergoes fusion is equivalent to the energy from burning about 10 million kilograms of coal
Differences between fusion and fission
The following table summarises some of the key differences between fusion and fission:
Comparison of fusion and fission table
| Fusion | Fission |
---|---|---|
the process of... | nuclei joining together | nuclei splitting |
nuclei are | small e.g. hydrogen | large e.g. uranium |
occurs in | stars | nuclear reactors |
produces | a large amount of energy larger nuclei (usually stable and not radioactive) | a large amount of energy smaller daughter nuclei (usually unstable and radioactive) 2 or 3 neutrons |
requires | very high temperatures very high pressures | thermal neutrons to induce fission |
Nuclear fission reactors are an increasingly common method of electricity generation on Earth
Nuclear fusion reactors are not yet a commercially viable method for generating electricity, but they are in development
In the future, fusion reactors are likely to have several advantages over fission reactors
Advantages of fusion reactors
Nuclear fusion reactions are capable of generating more energy than fission reactions (per kilogram of fuel)
The nuclear fuel required for fusion (isotopes of hydrogen found in water) is more abundant than the fuel required for fission (uranium and plutonium)
Nuclear fusion produces no long-lived nuclear waste products
Disadvantage of fusion reactors
The conditions for nuclear fusion are much harder to achieve and maintain on Earth than fission
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