Calculate the exact theoretical spin-only magnetic moment () for an isolated, gaseous divalent metal — d and f Block Elements Chemistry Question
Question
Calculate the exact theoretical spin-only magnetic moment ($\mu$) for an isolated, gaseous divalent metal ion ($M^{2+}$) belonging to a neutral transition element with atomic number $Z = 26$.
Answer: C
💡 Solution & Explanation
The neutral atom is Iron ($Fe, Z=26$), with configuration $[Ar] 3d^6 4s^2$. Ionizing to $Fe^{2+}$ removes the two $4s$ electrons, leaving $[Ar] 3d^6$. According to Hund's rule, a $d^6$ configuration contains exactly $n=4$ unpaired electrons. Using $\mu = \sqrt{n(n+2)}$, $\mu = \sqrt{4(6)} = \sqrt{24} \approx 4.89 \text{ B.M.}$
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