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Nuclear power - EdexcelNuclear fusion

The nuclei of atoms contain a large amount of energy. Releasing this energy would free the world from having to use fossil fuels. There are two methods of doing this: fission and fusion.

Part of Physics (Single Science)Radioactivity

Nuclear fusion

is when two small, light join together to make one heavier nucleus. Fusion reactions occur in stars where, for example, two hydrogen nuclei fuse together under high temperatures and pressure to form a nucleus of a helium .

Process of nuclear fusion, with different isotopes of hydrogen colliding and fusing to make helium.

There are a number of different nuclear fusion reactions happening in the Sun. The simplest is when four hydrogen nuclei become one helium nucleus.

\(4 _{1}^{1}\textrm{H} \rightarrow _{2}^{4}\textrm{He}\)

The combined mass of four hydrogen nuclei is 6.693 脳 10-27 kilograms (kg). The mass of one helium nucleus is 6.645 脳 10-27 kg. This means that there is a missing amount of mass equalling 0.048 脳 10-27 kg.

The missing mass is converted to energy, which away. This is seen happening in the Sun. In all , a small amount of the mass changes to energy.

However, the issue with fusion is that it requires the fusing of nuclei, which are positive particles. As two nuclei approach each other, they will because they have the same . The fusion of the nuclei has to happen under intense pressure and very high temperatures in order to force the nuclei together and overcome this electrostatic repulsion.

This need for a very high temperature and pressure makes it very difficult to build a practical and economic fusion power station. For fusion to occur at the lower pressures in a reactor on Earth, the temperature would need to be between 100 and 200 million degrees. Fusion has been successfully achieved by scientists at the JET experiment near Oxford but so far they have been unable to create a financially viable reactor.

Jonny Nelson introduces an animated explanation of fission and fusion