Match the correct option.A. [CoF_6]^{3-}M. sp | vedclass

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(A) . $[CoF_6]^{3-}$: $Co^{3+}$ is $3d^6$. $F^{-}$ is a weak field ligand,so hybridization is $sp^3d^2$ (outer orbital complex) with $4$ unpaired elec

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$A$ $\rightarrow M, B$ $\rightarrow O, C$ $\rightarrow P, D$ $\rightarrow N$

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(A) . $[CoF_6]^{3-}$: $Co^{3+}$ is $3d^6$. $F^{-}$ is a weak field ligand,so hybridization is $sp^3d^2$ (outer orbital complex) with $4$ unpaired electrons,making it paramagnetic. Matches $M$.$B$. $[Mn(CN)_6]^{3-}$: $Mn^{3+}$ is $3d^4$. $CN^{-}$ is a strong field ligand,so hybridization is $d^2sp^3$ (inner orbital complex) with $2$ unpaired electrons,making it paramagnetic. Matches $O$.$C$. $[Co(C_2O_4)_3]^{3-}$: $Co^{3+}$ is $3d^6$. $C_2O_4^{2-}$ is a strong field ligand,so hybridization is $d^2sp^3$ (inner orbital complex) with $0$ unpaired electrons,making it diamagnetic. Matches $P$.$D$. $[Zn(H_2O)_6]^{2+}$: $Zn^{2+}$ is $3d^{10}$. Hybridization is $sp^3d^2$ with $0$ unpaired electrons,making it diamagnetic. Matches $N$.Therefore,the correct match is $A$ $\rightarrow M, B$ $\rightarrow O, C$ $\rightarrow P, D$ $\rightarrow N$.

$A$. $[CoF_6]^{3-}$	$M$. $sp^3d^2$,paramagnetic
$B$. $[Mn(CN)_6]^{3-}$	$N$. $sp^3d^2$,diamagnetic
$C$. $[Co(C_2O_4)_3]^{3-}$	$O$. $d^2sp^3$,paramagnetic
$D$. $[Zn(H_2O)_6]^{2+}$	$P$. $d^2sp^3$,diamagnetic

$A. sp^3$	$(i). [Co(NH_3)_6]^{3+}$
$B. dsp^2$	$(ii). [Ni(CO)_4]$
$C. sp^3d^2$	$(iii). [Pt(NH_3)_2Cl_2]$
$D. d^2sp^3$	$(iv). [CoF_6]^{3-}$
	$(v). [Fe(CO)_5]$

Match the correct option.
$A$. $[CoF_6]^{3-}$ $M$. $sp^3d^2$,paramagnetic
$B$. $[Mn(CN)_6]^{3-}$ $N$. $sp^3d^2$,diamagnetic
$C$. $[Co(C_2O_4)_3]^{3-}$ $O$. $d^2sp^3$,paramagnetic
$D$. $[Zn(H_2O)_6]^{2+}$ $P$. $d^2sp^3$,diamagnetic

Similar Questions

The hybridisation involved in $[CoF_6]^{3-}$ is :

Match the following hybridization in Column $I$ with the corresponding coordination complexes in Column $II$.
$A. sp^3$ $(i). [Co(NH_3)_6]^{3+}$
$B. dsp^2$ $(ii). [Ni(CO)_4]$
$C. sp^3d^2$ $(iii). [Pt(NH_3)_2Cl_2]$
$D. d^2sp^3$ $(iv). [CoF_6]^{3-}$
$(v). [Fe(CO)_5]$

$A$ tetrahedral complex ion is formed due to $........$ hybridization.

Which of the following is an outer orbital complex?

The magnetic moment for two complexes of empirical formula $Ni(NH_3)_4(NO_3)_2 \cdot 2H_2O$ is $0$ and $2.84 \ BM$ respectively. The second complex is not a neutral complex. The correct formula and geometry of the first complex is:

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Match the correct option.$A$. $[CoF_6]^{3-}$$M$. $sp^3d^2$,paramagnetic$B$. $[Mn(CN)_6]^{3-}$$N$. $sp^3d^2$,diamagnetic$C$. $[Co(C_2O_4)_3]^{3-}$$O$. $d^2sp^3$,paramagnetic$D$. $[Zn(H_2O)_6]^{2+}$$P$. $d^2sp^3$,diamagnetic