| 21. | For isotopes lighter than the most stable isotope, 98 Tc, the primary decay mode is electron capture, giving molybdenum.
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| 22. | The most common decay mode of a radioisotope of zinc with a mass number lower than 66 is electron capture.
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| 23. | The primary decay mode before the stable isotope, 141 Pr, is electron capture and the mode after is beta decay.
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| 24. | The was discovered in 1989 by the CLEO, who measured a peak in the decay mode of with a mass of.
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| 25. | The primary decay mode before the most abundant stable isotope,, is electron capture, and the primary mode after is beta decay.
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| 26. | The primary decay mode is beta plus, to the relatively long-lived ( in comparison to astatine isotopes ) alpha emitter polonium-210.
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| 27. | At higher atomic masses, the primary decay mode is beta decay, and the primary products are Tb ( terbium ) isotopes.
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| 28. | Even though they decay because of the weak nuclear force, it has two decay modes for both charged and neutral pions.
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| 29. | The primary decay mode before the longest-lived isotope, 145 Pm, is electron capture, and the primary mode after is beta decay.
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| 30. | Gadolinium-148 would be ideal for radioisotope thermoelectric generators due to its 74 year half life, high density, and dominant alpha decay mode.
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