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Important notes about nuclear fussion

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Nuclear fusion-

In nuclear fusion, two (or) more than two lighter nuclei combine/fuse to form a larger nucleus. In this process, energy is released.

Some examples of nuclear fusion:

                                                                   ^{1}_{1} \mathrm{H}+^{1}_{1} \mathrm{H} \rightarrow^{2}_{1} \mathrm{H}+\mathrm{e}^{-}+\mathrm{v}+0.42 \mathrm{MeV}

                             Here two protons combine to form a deuteron and a positron releasing 0.42 MeV of energy.

                                                                   $^{2}_{1} \mathrm{H}+^{2}_{1} \mathrm{H} \rightarrow^{3}_{2} \mathrm{He}+\mathrm{n}+3.27 \mathrm{MeV}$

                            Here two deuterons combine to form the light isotope of Helium releasing 3.27 MeV of energy.

                                                                   $^{2}_{1} \mathrm{H}+^{2}_{1} \mathrm{H} \rightarrow_{1}^{3} \mathrm{H}+^{1}_{1} \mathrm{H}+4.03 \mathrm{MeV}$

                            In this case, two deuterons combine to form a triton and a proton releasing 4.03 MeV of energy.

Here the mass of a single nucleus so formed is less than the sum of the mass of the parent nuclei. And this mass difference appears in the form of release of energy. 

The condition required for Nuclear fusion -

The fusion to take, two nuclei must come close enough so that attractive short-range nuclear force is able to affect them. But since both are positively charged particles, they experience coulombic repulsion. Therefore they must have enough energy to overcome this repulsion. For this, high pressure of 106 atm & temperature of 109 K is required. 

When the fusion is achieved by raising the temperature of the system, so that particles have enough kinetic energy to overcome the coulombic repulsion, it is called thermonuclear fusion.

Posted by

avinash.dongre

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