What is binding energy per nucleon?
Nuclear binding energy in experimental physics is the minimum energy that is required to disassemble the nucleus of an atom into its constituent protons and neutrons, known collectively as nucleons.
Why is the binding energy per nucleon, rather than per nuclide, used to compare nuclide stability?
So the concept of binding energy per nuclear and why it is used to compare stability of the nuclear tides can be explained using the following. So we have the equation finding energy panic liam that’s equal to binding energy of the nucleus, divided by the number of nucleons in the nucleus. And so the binding energy of the nucleus is a really good indication of the stability. However, when we compare the stability is different nucleotides, the binding energy per nuclear is used instead of binding energy per nucleotide. So this is because the different nucleotides contain different number of nucleons. So the binding energy of the nucleotide depends upon the mass defect, which in turn depends upon the number of nucleons. So therefore when comparing stability, ease of different nucleotides, the binding energy per nucleons is used.
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