A: All square planar complexes can exhibit geometrical isomerism.
R: In square planar complexes metal assumes `sp^(3)` hybridisation.

Which of the following complex compound exhibits geometrical isomerism?

The number of possible isomers of a square planar complex, [mabcd] is/are

Square planar complexes with a coordination number four exhibit geometrical isomerism whereas tetrahedral complexes do not, why?

(a) Square planar complexes with coordination number four exhibit geometrical isomerism whereas tetrahedral complexes do not , why ? (b) Three geometrical isomers of the square planar complex [Pt(NH_(3))(H_(2)O)(py)(NO_(2))]^(+) are possible . What are they ?

The number of geometical isomers possible for a square planar complex [MABCD]^(pmn) are

Assertion:- Square planar complex do not show geometrical isomerism. Reason:- all peripheral atoms are not present in same plane.

Square planar complexes are formed by d^(8) ions with strong field ligands The crystal field splitting Delta_(0) is larger for the second and theird row transition elements and for more highly charged species All the complexes having 4d^(8) and 5d^(8) configurations are mostly square planar including those with weak field ligands such as halide ions square planar complexes can show geometrical isomerism but they do not show optical isomerism due to the presence of plane of symmetry Among the following complexes which has a square planar geometry? (a) [RhCl(CO)(PPh_(3))_(2)] (b) K_(3)[Cu(CN)_(4)] (c ) [Ni(CO)_(4)] (d) K_(2)[Zn(CN)_(4)] .

How many statements is/are correct for given complex [Co(C_(2)O_(4))_(3)]^(3-) i) It contain negative ligands only ii) The oxidation state of central metal atom is +3 iii) it is optically active iv) Due to chelation the stability of the complex increases v) It exhibit geometrical isomerism vi) it is octahedral with d^(2)sp^(3) hybridization. vii) All oxalate ligands are replaced by ethylenediamine, then complex do not show optical activity.

The complex having square planar geometry is

The correct order of energies of d-orbitals of metal ion in a square planar complex is