| 1. | The model also gave good predictions for the nuclear binding energy of nuclei.
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| 2. | A viable nucleus must, at minimum, have positive nuclear binding energy.
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| 3. | The misconception of 56 Fe's high nuclear binding energy probably originated from astrophysics.
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| 4. | This occurs because nuclear binding energy is released whenever elements with more than 62 nucleons fission.
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| 5. | Ah, the nuclear binding energy stuff isn't something I'd considered yet.
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| 6. | A much stronger type of binding energy, the nuclear binding energy, is involved in nuclear processes.
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| 7. | There's a certain amount of " missing " nuclear binding energy that everything except iron has.
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| 8. | :: That lead me to Nuclear binding energy, which is exactly what I was looking for.
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| 9. | The nuclear binding energy in a nucleus should be approximately proportional to the number of pairs of nucleons.
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| 10. | Nickel-62 has the highest nuclear binding energy of any nuclide, at 8.7946 MeV / nucleon.
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