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Natural radioactivity is universally observed when the neutron-to-proton () ratio exceeds a specificNuclear Chemistry and Radioactivity Chemistry Question

Question

Natural radioactivity is universally observed when the neutron-to-proton ($n/p$) ratio exceeds a specific upper limit, or when the atomic number exceeds a certain threshold. What is this approximate $n/p$ upper limit for the stability belt?

Answer: C

💡 Solution & Explanation

Elements with low atomic numbers ($Z < 20$) are stable at $n/p = 1$. This ratio gradually increases to about $1.52$ for the heaviest stable elements. Any nucleus with an $n/p$ ratio exceeding roughly $1.52$ (or $Z \ge 84$) falls outside the stability zone and is radioactive.

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