[" (iv) A metal ion "M^(*)" having "d^(4)" configuration combines with three bidentate ligands to form a "],[" complex compound assuming "Delta_(0)>P" ."],[" (1) Write the electronic configuration in term of "t_(26)" and "e_(8)" ? "],[" (2) Name the type of isomerism exhibited by this complex? "]

A metal ion M^(n+) HAVING D^(4) valence electronic configuration combines with three bidentate ligands to form a complex compound . Assuming Delta_(0) gt P : (i) write the electronic configuration of d^(4) ion . (ii) what type of hybridisation will M^(n+) ion has ? (iii) Nmae the type of isomerism exhibited by this complex .

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_o gt P What type of hybridization will M^(n+) ion have ?

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_o gt P Name the type of isomerism exhibited by this complex.

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_o gt P write the electronic configuration of the valence electrons of the metal M^(n+) ions in terms of t_(2g) and e_g .

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_0 >P draw the diagram showing d orbital splitting during this complex formation.

A metal ion M^(n+) having d^4 valence electronic configuration combines with three didentate ligands to form a complex compound. Assuming Delta_o gt P draw the diagram showing d-orbital splitting during this complex formation.