The mass of a 2H atom is less than the sum of the
masses of a proton, a neutron, and an electron by
0.002388 amu; the difference in mass corresponds to
the nuclear binding energy. The larger the value of
the mass defect, the greater the nuclear binding
energy and the more stable the nucleus.
The mass of a 2H atom is less than the sum of the
masses of a proton, a neutron, and an electron by
0.002388 amu; the difference in mass corresponds to
the nuclear binding energy. The larger the value of
the mass defect, the greater the nuclear binding
energy and the more stable the nucleus.
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