Draw the electronic structure (t2g and eg occupancies) of an octahedral Fe2+ complex in both the high-spin and low-spin configurations. Calculate the LSFE of each configuration if ∆o = 6.4 J/mol.
Draw the electronic structure (t2g and eg occupancies) of an octahedral Fe2+ complex in both the...
In terms of the symmetry labels eg and t2g, what is the electron configuration for the high-spin octahedral complex [Mn(NH3)6]2+?
5) Draw d orbital splitting of an octahedral complex. Calculate CFSE for a high spin Fe(II) complex in an octahedral geometry. Calculate spin only magnetic moment for the complex too. 6
Which of the following ions CANNOT form both a high spin and low spin octahedral complex ion? Select one or more: +2 a. Co +3 b. Cr +3 c. Mn +3 d. Fe
a) Draw a d orbital electronic configuration of a distorted Cu" octahedral complex: Compression along the z axis elongation along z axis b) The distortions in Cul complexes are often the consequence of which effect? c) What other metal ions display this effect?
a. Predict the structure of [Cr(OH2)6]2+ - I wrote that the complex will undergo Jahn-Teller distortion, making the octahedral complex become tetragonal (don't know if that's correct) b. Account for the variation in the lattice enthalpy of Mn (2780 kJ/mol), Fe (2926 kJ/mol), Co (2976 kJ/mol), Ni (3060 kJ/mol), and Zn (2985 kJ/mol) flouride given that the metal center in all of the flourides is surrounded by an octahedral array of F-ions. c. Explain the effect on the d-orbital energies...
1. a) draw orbital diagrams for the high and low spin configurations for Tris(ethylenediamine)cobalt(III) chloride dihydrate, and Hexaammineruthenium(III) chloride b) Calculate the effective magnetic moment (μeff) for each spin configuration using the number of unpaired electrons
In relation to M(acac)3 complexes, assuming they contain an octahedrally coordinated M3+ ion: Draw the ligand field orbital diagrams for Co(III), Fe(III), Mn(III), and Cr(III) to derive the possible electron configurations for the metal complexes. State the number of unpaired spins each configuration has. Which is the correct d-electron configuration for each complex? Which complexes are "high spin" and which are "low spin"? Thanks so much! I will give immediate upvotes!
due ASAP please help!! 1. 2. 3. 4. Cell potentials for the following species were measured using the Standard Hydrogen Electrode (SHE) at 25°C: Reaction Fe3+ (aq) + + Fe2+ (aq) Ecell E° = + 0.771 V Cu2+ (aq) + 2e + Cu(s) E° = + 0.340 V 2H+(aq) + 2e + H2(g) E° = 0.000 V Which species is the strongest reductant? O Fe3+ (aq) O Fe2+ (aq) O Cu2+ (aq) O Cu(s) O H2(g) O H+(aq) Cell potentials...
Q1. The following species a)-c) all contain complex ions of transition metals, which you can assume take up an octahedral geometry. a) [RuCl3(H2O)3] b) [Ir(bpy)3]Cl3 ; bipy = 2,2'-bipyridine c) K2[Mo(NCS)6] For each species: i) draw all the possible isomers of the complex ions; ii) calculate the charge of the metal, and the dn configuration; iii) draw a diagram showing d orbital occupancy and, where high and low spin cases are possible, predict which will be favoured considering the spectrochemical...
Identify the type of isomerism represented in each pair of images. Explain your answer and be specific. (4 pts) . a. Ci NH3 b. The tetrahedral, high-spin, tetrachlorochromate (!I) complex [CrCl.]2- absorbs light with a wavelength of 605 nm. a. Draw the electron configuration that the chromium center in this complex would adopt (3 pts) Calculate the energy gap in the d orbitals of the chromium ion in kJ/mol. (2 pts) b. Identify the type of isomerism represented in each...