Which of the following octahedral complexes would be substitution inert? Which would be substitution labile ?(using the definition of H. Taube)
(H2O)6Co+2, (NH3)6Co+3, (H2O)6Cr+2 , (H2O)6Cr+3, (H2O)6Ti+3, (H2O)6V+2, (H2O)6V+3, (CN)6Rh-3, Think of H2O, Cl- and Br- as weak field ligands, NH3 and CN- as strong field ligands.
PLEASE SHOWYOUR WORK
Which of the following octahedral complexes would be substitution inert? Which would be substitution labile ?(using...
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 =...
Which of these three octahedral coordination compounds is/are paramagnetic? (Refer to the spectrochemical series below) (1) [Sc(H2O)6] 3+ (2) [FeF6] 4– (3) [Mn(CN)6] 3– The spectrochemical series: Cl– < F– < H2O < NH3 < en < CN– (weak field/high spin) (strong field/low spin) Please explain.
Label the following complexes as Inert or Labile: [Al(C2O4)3]3- [V(H2O)6]3+ [V(H2O)6]2+ [Cr(C2O4)3]3- [CoF6]3- (5P Ground State) [Fe(CN)6]4- [PtCl6]2-
The transition metal ion, Fe(III), can form octahedral or tetrahedral complexes depending on the ligand it binds to. (a) (i) [Fe(CN)6]3- is a strong field octahedral complex of Fe(III). Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals and their electron occupancy in [Fe(CN)6]. (3 marks) (ii) Fe(III) can also form tetrahedral complexes, most of which are weak field. Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals...
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+
8. Given what you know about substitution reactions of square planar complexes, explain what would happen in the reaction (Pt(NH3)4]2+ + Cl → Pt(NH3)3CIJ* + NH3 if the entering group were changed from Cl to Br. How would the rate be affected? Write the mechanism for the reaction (be sure to designate a rate determining step) and draw a reaction coordinate diagram.
From the following pairs of coordination complexes, identify which are pairs of coordination isomers. Select all that apply. Group of answer choices Na2[NiCl2Br2] and Na2[NiBr2Cl2] [Ni(NH3)3Br]Cl and [Ni(NH3)3Cl]Br [Ni(NH3)3(H2O)]SO4 and [Ni(NH3)2(H2O)2]SO4
For each of the following transition metal complexes, determine the oxidation state of the metal, its coordination number, and the number of d electrons on that metal. (a) RuO4 (b) (CO(NH3).]3+ (c) [Cr(H2O).]8+ (d) Cr(H2O)3Cl2 (e) [Fe(H2O).]3+ (1) (Co(NH3).]2+ (9) MOCI (h) (Pt(CN)4]2- () [Mn(H2O).]2+ (1) Re(CO).Br (k) (Ag(CN 2] (1) [ReH9]?
1. For each of the following complexes, give the electron configurations of the d-type M Os, for tetrahedral complexes. Also ie ) (e) for octahedral complexes and (e( ch complex in units of the Bohr , Fe(CN) 3, CoCl , Ni(CO)4, Ti(H2O) +, magnet n f.в Co ( NH3) 3+, Co(FLO)r", Fe(CN) V Fa". Cu(H2O) г., CuCl? , V(CO), Cr(CO) each octahedral complex is high-spi the ligand field theory notes). ust use your judgment as to whether n or low-spin...
3. According to the textbook (p. 115). the electron transfer reaction rate between [Co(NH3)]** and (Co(NH3).]?(eq. 5.41) is extremely slow whereas that between [Fe(CN).74 and [Fe(CN).]" (eq. 5.42) is very fast. By using the established facts in the box in answering the following questions. 1. According to the molecular orbital theory, the eg orbitals of an MLO octahedral complex are, in fact, M-L anti-bonding orbitals and the tza orbitals are non-bonding orbitals. 2. According to the spectrochemical series, CN is...