| 11. | Ah, the nuclear binding energy stuff isn't something I'd considered yet.
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| 12. | The misconception of 56 Fe's high nuclear binding energy probably originated from astrophysics.
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| 13. | Would the quarks in the neutron not have releasable binding energy?
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| 14. | Every atom except hydrogen has core-level electrons with well-defined binding energies.
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| 15. | The binding energy article does appear to say the same thing.
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| 16. | The greater the mass defect, the larger the binding energy.
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| 17. | The energy released by the crystal during its growth is also called binding energy.
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| 18. | With this potential nucleons can become bound with a negative " binding energy ."
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| 19. | The smaller the scale of a bound system, the higher its associated binding energy.
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| 20. | Gluons contain supposedly the strongest binding energy in the universe.
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