Authors: Sylwester Kornowski
Here, within the Scale-Symmetric Theory (SST), we present the mathematically very simple theory of nuclear binding energy. We start from the Newtonian dynamics. It leads to binding energy proportional to coupling constant (or running coupling) of interaction and inversely proportional to distance between interacting objects. Applying the new formula, as some examples, we calculated binding energy of electron in ground state in hydrogen atom (13.6 eV), mean binding energy per nucleon in the alpha particle (7.07 MeV), mean binding energy per nucleon in the nucleus of iron atom (8.79 MeV), in nucleus of nobelium atom (7.21 MeV), for nucleus of oxygen atom (7.91 MeV) and for nuclei containing more than 56 nucleons. We present also the theory of deuteron. Obtained results are consistent with experimental data.
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