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Nuclear Fusion (GCSE Physics)

Nuclear Fusion

Joining Nuclei

Nuclear fusion joins nuclei together. The process of nuclear fusion joins nuclei together. This is essentially the opposite of nuclear fission; 2 small nuclei will be joined together to form a larger nucleus.
The end product of nuclear fusion is heavy. Since we are combining 2 small nuclei to make a larger nucleus, the end product of the reaction is heavy. This fusion leads to a lot of energy being produced.
Mass can be converted into energy. We have just mentioned that fusion reactions can produce lots of energy. When the two small nuclei join together, some mass is lost. This ‘lost’ mass gets converted into energy, which is released as radiation.

Conditions for Nuclear Fusion

A high temperature and pressure is needed for nuclear fusion to occur.

A high temperature provides enough energy to overcome the electrostatic repulsion, found between the positively charged nuclei of each isotope.

The same applies to pressure; high pressures are needed to overcome the electrostatic repulsion.

The specific conditions required make it very difficult to maintain a practical and economically friendly power station.

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Nuclear Fusion (GCSE Physics)

Nuclear Fusion

Joining Nuclei

Conditions for Nuclear Fusion

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