Calculate`EAN` in
`[Cr(CN)_(6)]^(3-)`
(b) `[PdXCI_(4)]^(2-)`
(c ) `[Pt(NH_(3))_(4)]^(2+)`
(d) `[Cu(CN)_(4)]^(3-)` .

The magnetic moment of a complex ion is 2.83BM The complex ion is [Cr(H_(2))O)_(6)]^(3+) (b) [Cu(CN)_(6)]^(2-) (c ) [V(H_(2)O))_(6)]^(3+) (d) [MnCI_(4)]^(2-) .

The magnetic moment of a complex ion is 2.83BM The complex ion is (a) [Cr(H_(2)O)_(6)]^(3+) (b) [Cu(CN)_(6)]^(2-) (c ) [V(H_(2)O)_(6)]^(3+) (d) [MnCI_(4)]^(2-) .

The EAN of iron in [Fe(CN)_(6)]^(3-) is

When an excess of ammonia solution is added to CuSO_(4) which solution is formed (a) [Cu(NH_(3))_(2)]^(2+) (b) [Cu(NH_(3))_(4)]^(o+) (c ) [Cu(NH_(3))_(2)]^(o+) (d) [Cu(NH_(3))_(4)]^(2+) .

Name of the following complex ions (a) [PdBr_(4)]^(2-) (b) [CuCl_(2)]^(o+) (c ) [Au(CN)_(4)]^(o+)(d) [AlF_(6)]^(3-) [Cr(NH_(3))_(6)]^(3-) (f) [Zn(NH_(3))_(4)]^(2+) (g) [Fe(CN)_(6)]^(3-) .

Indicate the oxidation state of the central metal ion in each of the following complex (a) [Cu(NH_(3))_(4)]^(2+) (b) [Cu(Br_(4))]^(2-) (c ) [Cu(CN)_(2)]^(Θ) (d) [Cu(NH_(3))_(4)CO_(3)]^(o+) (e) [PtCI_(4)]^(2-) (f) [Co(NH_(3))_(2)(NO_(2))_(4)]^(Θ) (g) Fe(CO)_(5)) (h) [ZnCI_(4)]^(2-) (i) [Fe(en)_(3)]^(2+) .

Calculate the EAN of central atom in the following complexes (a) [Cr(CO)_(6)]" "(b) [Fe(CN)_(6)]^(4-)" " (c ) [Fe(CO)_(5)] " " (d) [Co(NH_(3))_(6)]^(3+) (e ) [Ni(CO)_(4) " " (f) [Cu(CN)_(4)]^(3-)" "(g)[Pd(NH_(3))_(6)]^(4+)" " (h) [PtCl_(6)]^(2-)

CuSO_(4)+NH_(3)(excess) to [Cu(NH_(3))_(4)]^(2+)

Which would exhibit coordination isomerism (a) [Cr(NH_(3))_(6)][Co(CN)_(6)] (b) [Cr(en)_(2)CI_(2)]^(o+) (c ) [Cr(NH_(3))_(6)]CI_(3) (d) [Cr(edta)]^(-) .

Among (a) -(d) the complexes that can display geometical isomerism are : (a) [Pt(NH_(3))_(3)Cl]^(+) (b) [Pt(NH_(3))Cl_(5)]^(-) (c) [Pt (NH_(3))_(2)Cl(NO_(2))] (d) [Pt(NH_(3))_(4)CIBr]^(2+)