| 31. | Thorium-232 is the lightest primordial nuclide that has left evidence of undergoing spontaneous fission in its minerals.
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| 32. | It is also the rarest primordial nuclide in the Universe observed for any element that has any stable isotopes.
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| 33. | For a LL nuclide, the integral term vanishes, and the release depends only on the attained countrate.
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| 34. | Nickel-62 has the highest nuclear binding energy of any nuclide, at 8.7946 MeV / nucleon.
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| 35. | These models can successfully explain nuclide properties, for example, whether or not a certain nuclide undergoes radioactive decay.
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| 36. | These models can successfully explain nuclide properties, for example, whether or not a certain nuclide undergoes radioactive decay.
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| 37. | Also, articles that aren't elements usually get lower importance, like a notable nuclide uranium-235.
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| 38. | Iron is especially common because it represents the minimum energy nuclide that can be made by fusion of helium in supernovae.
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| 39. | It is not found on Earth, but its ultimate decay product is its granddaughter, the stable nuclide 60 Ni.
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| 40. | In this definition, " stable " means a nuclide that has never been observed to decay against the natural background.
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