Chromium () and Molybdenum () exhibit anomalous ground state electronic configurations () to achieve — d and f Block Elements Chemistry Question
Question
Chromium ($Cr$) and Molybdenum ($Mo$) exhibit anomalous ground state electronic configurations ($d^5 s^1$) to achieve half-filled stability. Does Tungsten ($W$, $Z=74$), lying in the same group, exhibit a similar anomaly?
Answer: B
💡 Solution & Explanation
While $Cr$ ($3d^5 4s^1$) and $Mo$ ($4d^5 5s^1$) transfer an $s$ -electron to the $d$ -subshell to maximize exchange energy and attain half-filled stability, Tungsten ($W$) does not follow this trend due to complex relativistic effects, screening factors, and higher nuclear electronic attraction. The configuration of $W$ remains non-anomalous: $[Xe] 4f^{14} 5d^4 6s^2$.
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