The no.of geometrical isomers that can exist for the square planar complex `[Pt(NH_(3))Cl(NH_(2)OH)(py)]^(+)` is

The no. of geometrical isomers that can exist for the square planar complex [Pt(NH_(3))BrCl(py)] is

The number of geometric isomers that can exist for square planar [Pt(Cl)(py)(NH_3)(NH_2OH)]^(+) is (py = pyridine)

The total no.of isomers possible for the square planar complex [MBr_(2)Cl_(2)](SO)_(4) is ( SO_(4)^(2-) here acts as a bidentate ligand)

[Co(NH_(3))_(4)(NO_(2))_(2)]Cl exhibits :

The IUPAC name of the complex [ Co(NH_(3))_(4)(H_(2)O)Cl]Cl_(2) is

The complex [Pt(py) (NH_3) (NO_2) ClBrl] has

The number of geometrical isomers possible for the complex [CoL_2Cl_2]^(-) (L = H_2NCH_2 CH_2O^(-)) is

The correct statement on the isomerism associated with the following complex ions : (A) [Ni(NH_(3))(H_(2)O)_(5)]^(2+) (B) [Ni(NH_(3))_(2)(H_(2)O)_(4)]^(2+) and (C ) [Ni(NH_(3))_(3)(H_(2)O)_(3)]^(2+) is (1) A & B show only geometric isomerism (2) B & C show only geometric isomerism (3)A & B show geometric and optical isomerisms (4) B & C show geometrical and optical isomerisms