For which of following octahedral complexes are isomers possible? Draw all of the isomers for each....

Which of the following ions is/are unlikely to form colored coordination complexes in an octahedral ligand...

Which of the following ions is/are unlikely to form colored coordination complexes in an octahedral ligand environment? Select all that apply. cr^3+ , cd^2+ , zr^4+ , fe^2+ , co^3+

For the following complexes provide: the name, the d electron count, the metal oxidation state, list...

For the following complexes provide: the name, the d electron count, the metal oxidation state, list what type of isomerism is observed in the given compounds (e.g., cis/trans), and draw the structure. If isomers are possible, you need to draw only one structure. a) Fe(PPh3)3Cl3 where PPh3 = triphenylphosphine. Denote PPh3 in your as PR3. b) K[V(NH3)4Cl2] c) [Mn(en)3] I2 where en = ethylenediamine

Provide a reasonable explanation for the following experimental observations. a) The wavelength of the absorption maximum...

Provide a reasonable explanation for the following experimental observations. a) The wavelength of the absorption maximum in the UV/vis spectra of Cr(III) complexes decreases in the order [CrCl6]3-, [Cr(NH3)6]3+, [Cr(CN)6]3-. b) Low spin Fe(III) complexes have stronger d-d transitions (are more intensely colored) than the corresponding high spin complexes. c) The initial rate of Cl- substitution is 108 times faster for [Fe(H2O)6]2+ (μeff = 5.9 μB) than for [Ru(H2O)6]2+ (μeff = 0 μB) and is independent of the concentration of...

1. Put these complexes in order of increasing rate of substitution by H2O: [Ni(NH3)6]2+, [Co(NH3)6]3+, [Rh(NH3)6]3+...

1. Put these complexes in order of increasing rate of substitution by H2O: [Ni(NH3)6]2+, [Co(NH3)6]3+, [Rh(NH3)6]3+ 2. State the effect of the following changes on the rate of reactions of octahedral Rh(III) complexes. a) Increase in charge of the complex. b) Changing the spectator ligands from NH3 to PPh3. c) Changing the entering group from Cl- to I-.

Rationlize the rate constant trends for the following electron transfer complexes (i.e. why is there such...

Rationlize the rate constant trends for the following electron transfer complexes (i.e. why is there such a big difference between 1 and 2 and a big difference between 2 and 3 ? # Reaction pair Rate Constant 1 [Ru(bpy)3]3+/2+ 4 x 108 2 [Ru(NH3)6]3+/2+ 6.6 x 103 3 [Co(NH3)6]3+/2+ 6 x 10-6

Give the oxidation state and d-electron count of the metal for the following complexes: a.) [IrCl(CO)(PPh3)2],...

Give the oxidation state and d-electron count of the metal for the following complexes: a.) [IrCl(CO)(PPh3)2], Vaska’s complex b.) [(H3C)4Os≡N] ̄ c.) [O=V(OH2)5]2+ For each of the following complexes, give the CFSE and the number of unpaired electrons expected: a.) [V(CO)6] b.) [Ru(bipy)3]3+ c.) [CuCl4]2- (tetrahedral) d.) [CoCl6]3– e.) [Co(CN)6]3–

9. Count the valence electrons on the central metal in the following complexes. Which obey the...

9. Count the valence electrons on the central metal in the following complexes. Which obey the 18 electron rule?   Fe(CO)4(PEt3), Ta(h5-C5H5)2Cl3, [Rh(bipy)2Cl]+, [Ni(CO)4]2-, cis-[PtCl2(NH3)2], trans-[IrCl(CO)(PPh3)2]  

Identify which of the following complexes would be diamagnetic. [Cr(Cl)6]-3 [Os(Cl)6]-4 [Co(Cl)6]-3 [Fe(Cl)6]-4 [Ni(Cl)6]-4

Identify which of the following complexes would be diamagnetic. [Cr(Cl)6]-3 [Os(Cl)6]-4 [Co(Cl)6]-3 [Fe(Cl)6]-4 [Ni(Cl)6]-4

Draw the crystal-field energy level diagrams and place d-electrons for the following: A) [Cr(H2O)6]2+ (4 unpaired...

Draw the crystal-field energy level diagrams and place d-electrons for the following: A) [Cr(H2O)6]2+ (4 unpaired electrons) B) [Mn(H2O)6]2+ (high spin) C) [Ru(NH3)5(H2O)]2+ (low spin) D) [IrCl6]2+ (low spin) E) [Cr(en)3]3+ F) [NiF6]4-

Inorganic questions 1.For each possible electron configuration in an octahedral field, determine which configurations are potentially...

Inorganic questions 1.For each possible electron configuration in an octahedral field, determine which configurations are potentially Jahn-Teller active. 2.Consider the trans-dichlorotetraaminocobalt(II) molecule. Use the concepts of crystal field theory and ligand field theory to determine the geometry of the ion. In other words, is it octahedral?