a short answer is fine for each Predict which of the following complexes in each pair...
Part A (2 marks) In the following pairs of complexes, which do you expect to have a larger ligand field splitting parameter Ao? Why? Explain? i) [Fe(NH3)612+ or [Fe(NH3). 13+ ii) (Co(CN)613- or [Rh(CN)613- Part B (3 maks) In the following pairs of complexes, which do you expect to be more labile? Why? Explain? ) [Cr(NH3)613+ or [Mn(NH3)6]3+ ii) (Co(CN)613- or [Rh(CN)613- ii) [Cr(NH3).]3+ or [V(NH3).]2+
16.15. For each pair of complexes, predict which will have the larger CF splitting parameter: a. [NiC14]2- or [NiCic]4- b. [NiS4]6- or [Ni(H2O),]2+ c. [PtF.12- or [Pt(CN),12- d. [CoCl.]- or [Co(PMez).]2+ e. [Ru(NH3).]2+ or [Ru(NH3).]3+
Circle the pairs of compounds that are isomers of each other: (a) [Co(en)_3]Cl_3 and [Co(en)_3]Br_3 (b) [Co(H_2O)_4 Br_2]Cl and [Co(H_2O)_4BrCl]Br (c) [Cr(H_2O)_2(CO_3)_2]^2+ and [Cr(H_2O)_2(CO)_2(O_2)_2]^2+ (d) trans-[Pt(NH_3)_2Cl_2] and [Pt(NH_3)_3Cl]Cl Circle the appropriate description of the distinction between "geometric isomers" and "optical isomers": (a) Geometric isomers have a different set of bonds. optical isomers have the same set of bonds. (b) Geometric isomers differ in the spatial arrangement of bonds. In optical isomers the arrangement of bonds is the same. (c) Geometric...
please answer question 12. For each pair of complexes, predict which will have the larger ligand field splitting. Justify your choices. a. [NiCl4] or [NiClo]4- b. [PtF6]2- or [Pt(CN)6]2- c. [Ru(NH3).]2+ or [Ru(NH3)6]3+
Which of the following is diamagnetic (no unpaired electrons) octahedral complexes? a) [Cr(CO)_6]^+2 b) [Fe(H_2O)_6]^+3 c) Zn(CN)_6]^-4
From the following list of metal ions and ligands, construct metal complexes with properties which match that described in each part of the question and provide a brief explanation. (Only one example is required for each part of the question, e.g. [Fe(H20)6]21). Metal ions Ligands (in order of increasing ligand field strength) [ < Br< <C1° <NO3 <OH <ox?- <H2O< Ti(IV), V(III), V(IV), Cr(II), Cr(III), Mn(II), NH3 <en <bpy < PPh3< CN=CO Mn(III), Mn(IV), Fe(II), Fe(III), Co(II), Co(III), en =...
please do answer all the questions below. thank you For each of the following complexes, draw the molecular structure and determine the effective atomic numbers. (i) Na[Fe(CN)s(NH3)3l (i) [Cr(H2O)2(NH3)2(en)]Cl (ii) [Co(o-phen)2(NHs)(NCS))CI (iv) (n3-C3Hs)Co(CO)2] (v) [Fe(diphos)(CO)sl in which diphos Ph2PCH2CH2PPh2 and Ph CsHs (10 marks) (i)/ The K for Fe(OH)4]2-is found to be higher than that found in (5 marks) Zn(OH)4]2-and [Cr(OHM. Explain . Cho and coworkers used the following ligand to react with cobalt. Predict how this ligand would bind...
please do answer all the questions below. thank you For each of the following complexes, draw the molecular structure and determine the effective atomic numbers. (i) Na[Fe(CN)s(NH3)3l (i) [Cr(H2O)2(NH3)2(en)]Cl (ii) [Co(o-phen)2(NHs)(NCS))CI (iv) (n3-C3Hs)Co(CO)2] (v) [Fe(diphos)(CO)sl in which diphos Ph2PCH2CH2PPh2 and Ph CsHs (10 marks) (i)/ The K for Fe(OH)4]2-is found to be higher than that found in (5 marks) Zn(OH)4]2-and [Cr(OHM. Explain . Cho and coworkers used the following ligand to react with cobalt. Predict how this ligand would bind...
1. (a) Give the systematic IUPAC names for each of the following complexes/ions (1) (NH4) [NiCl4] (ii) [Cr(H204(NH3)2]2+ (iii) [Ru(en)(OH)2]* (iv) Nas[Co(ONO)5] (v) [Rh(ONO)(OX)2]* (vi) [FeBrz(en)2]* (vii) [Ag(y)][AgCl4] (viii) K[Pt(ONO)3(NO2)3] (ix) [Co(SO4)(NH3)s]* (x) Naz[PdCl4]
1. Consider the following 4-coordinate complexes. For each of these: a. Do you expect the complex to be tetrahedral or square planar? Why? b. Draw an electron-orbital occupancy diagram for the d orbitals. c. If the complex is tetrahedral, calculate an LFSE in units of 4. Note that, for tetrahedral complexes, e orbitals are -3/54 relative to the average d-orbital energy, and t, orbitals are +2/54 relative to the average d-orbital energy. Ni(CO). [Rh(PPh.) (CO), [Rec] [PdCl.Bry] 2. Which of...