Diethylenetriamine, H2NCH2CH2NHCH2CH2NH2 (dien), is a tridentate ligand. Draw all the geometrical and optical isomers (four in total) that are possible for the complex [Co(dien)2]3+.
Solution:
Four isomers ( geometrical = fac, mer and optical = d and l) are given in attached sheet.
Diethylenetriamine, H2NCH2CH2NHCH2CH2NH2 (dien), is a tridentate ligand. Draw all the geometrical and optical isomers (f...
Draw the geometric isomers of the octahedral complex [Co(dien)Br2Cl] where dien is the linear tetradentate ligand NH2CH2CH2NHCH2CH2NH2
Name and draw the structures of the following complexes and complex ions and indicate any isomers possible. NOTE: (dien) is diethylenetriamine [Co(NH3)4COl [Pd(NH3)2Cl2] [FeFo 3- [Fe(dien)2]Clb
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Draw and give the point group for all the geometrical isomers of a molecule with the general formula: a) MA2B2 (square planar and tetrahedral) b) MA2B (“T”‐shaped and trigonal planar) c) MAB4 (trigonal bipyramidal, and square pyramidal) d) MA2B3 (trigonal bipyramidal, and square pyramidal)
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b) Sketch all possible geometrical isomers and then indicate which of these complexes would exhibit optica activity. Also identify each complex by name a) [Fe(C,0.).cllion (C.0, oxalate ion), b) [PdCI,(PP) Q4. Assigne the point group of the following compounds (show all your work)
2.(1) What does it mean when we say a transition metal complex (or a molecule) is chiral? 3.(3) Give the name or formula, as appropriate, for: a) [Co(CO)s]CO3 b) Ks[Fe(CN) 6] c) diaquabis(ethylenediamine)chromium(II) nitrate 4.(3) Give the coordination number, geometry, and hybridization of cobalt in [Co(NO2)2(en)2]2 5.(5) Draw all possible isomers of [CrNH)h(en)FJ. Label them as either geometrical or optical.