Upon completely isolating exactly one molecular unit of the highly stable, deeply coloured chromate — d and f Block Elements Chemistry Question
Question
Upon completely isolating exactly one molecular unit of the highly stable, deeply coloured chromate ion ($CrO_4^{2-}$), what is the absolute total number of structural covalent bonds (strictly summing both the single $\sigma$ and double $\pi$ bonds) linking the central Chromium atom to the Oxygen ligands?
Answer: 6
💡 Solution & Explanation
The chromate ion ($CrO_4^{2-}$) possesses a tetrahedral geometry characterized by $d^3s$ hybridization on the central $Cr^{6+}$ atom. Structurally, it forms 4 basic sigma ($\sigma$) bonds with the four oxygen atoms. To stabilize the high charge density, two of the oxygen atoms additionally form pi ($\pi$) bonds ($p\pi-d\pi$) with the empty $d$ -orbitals of the chromium. Thus, there are $4\sigma + 2\pi = 6$ total covalent bonds.
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