In [F e (C N) 6] 4 −, iron has 3 d 6, 4 s 2 system in ground state but in excited state it loses two electrons in the formation of ions and two electrons from 4 s, so thus Cobalt gets 3 d 6 …

The octahedral complex ions [F e C l 6] 3 − and [F e (C N) 6] 3 − are both paramagnetic but the former is high spin and the latter is low spin. In the l ow spin complex, [F e (C N) 6] 3 − has the …

In [F e (C N) 6] − 3 complex C N is a strong field ligand therefore will form low spin complex by using inner 3d-orbitals. Since it has octahedral geometry as there are 6 ligands, so its …

In the given complex there are 6 Cyanide ligands and the oxidation number of Fe is M-6= -3 This implies Fe is in +3 oxidation state and Hence the IUPAC name of the complex should be …

In both complexes, iron has +2 oxidation state with outer electronic configuration of 3 d 6 and four unpaired electrons. In presence of weak filed water ligand, these unpaired electrons do not …

d 2 s p 3 hybridized orbitals of F e 2 + are 6 electron pairs are from C N − ion occupy the six hybrid d 2 s p 3 orbitals. Hence, the geometry of the complex is octahedral and the complex is …

Correct option is C. Octahedral $$[Fe(CN)_{6}]^{4-}\to Fe^{2+}\to [Ar]3d^6.$$ $$CN^-$$ is a strong field ligand so pairing of electrons take place.

(i) The complex ion [F e (C N) 6] 3 − has octahedral geometry. The central Fe atom has six bond pairs of electrons. (ii) It is paramagnetic due to presence of 1 unpaired electron. F e 3 + ion …

The oxidation state of central Fe atom in [F e (C N) 6] 3 − and [F e (C N) 6] 4 − is +3 and +2 respectively. Higher is the oxidation state of the central metal atom in the complex, higher is …

Click here:point_up_2:to get an answer to your question :writing_hand:coordination number of fe in the complexes fecn64 fecn63 and fecl4 would be respectively Solve Guides