14 From the following spectral data, and using Tanabe-Sugano diagrams (Figure 11.7), calculate A for thefollowing:0a. [Cr(C2O4)3]³, which has absorption bands at 23,600and 17,400 cm 1. A third band occurs well into theultraviolet.-b. [Ti(NCS)6]³, which has an asymmetric, slightlysplit band at 18,400 cm 1. (Also, suggest a reasonfor the splitting of this band.)c. [Ni(en)3]2+, which has three absorption bands:11,200, 18,350, and 29,000 cmd. [VF]³, which has absorption bands at 14,800 and23,250 cm ¹, plus a third band in the ultraviolet.Also calculate B for this ion.e. The complex VC13(CH3CN)3, which has absorptionbands at 694 and 467 nm. Calculate A. and B forthis complex.

[Cr(C2O4)3]³[Ti(NCS)6]³[Ni(en)3]²⁺[VF]³The question also asks you to calculate B for [VF]³ and A and…

Answered: 14 From the following spectral data,…

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question 2a and 2b
From the Lewis structure of NO2-, both N and O having unshared pairs of electrons can bond to metal ions in more than one way. Ligand NO2- having this ability are known as ambidentate ligands. Name and predict the molecular structure, also describing all the isomers possible for complex compound [Cr(en)2NO2Cl]+
Name the following compounds: 1.[Cr(NH3)6Cl3 , K(Co(EDTA)] and Ni(en)2Cl2 2.[Pt(py)4[PtCl4] and [Co(NH3)5Cl]Cl2 3. give the formula of Diamminetriaquahydroxochromium(III) nitrate
2. Draw crystal-field splitting diagrams for PtCl 4 and [PtC14]² and calculate the CFSE. Be sure to fill your diagram with the correct number of d electrons and label each diagram with the names of the d-orbitals.
Consider the [VII(H2O)6]2+ ion. Explain why there are this number of bands and not more or less, which might be expected (i.e., which sets of electronic transitions give rise to these bands).
1. What is the coordination number of the metal ion in: a. [Fe(CO)s]: b. [Ag(NH3)2]*: c. [PtCl3(NH3)3]*: d. [Au(CN)4]: e. [Cr(en)3]²*: f. [Co(CO3)(NH3)s]* 2. What is the coordination number and the oxidation number of the following metal ions? Complex Ion Coordination Number Oxidation Number of Metal [Fe(CN)6]³- [Fe(CN)6]“- [Ag(NH3)2]* [Ni(en);]²+ [COC/2(en)2]2+ 135
The electronic absorption spectrum of an acidic solution of [Ti(H,O),JP* exhibits two well-separated bands at 430 and 650 nm, respectively, assignable to "d-d transition. But the oxidized form [Ti(H,O),}³" shows only one absorption at 490 nm with a shoulder around 580 nm. Explain the observation. A. [Ti(H;O),J³* has more d electrons than [Ti(H;O).J**. B. [Ti(H,O),]³" is a strong oxidizing agent. C. [Ti(H,O),}³" shows stronger Jahn-Teller effect. D. [Ti(H,O)]" shows stronger Jahn-Teller effect. E. H,0 is a weak-field ligand.
Illustrate the energy level diagrams show the configuration of the d electrons for (Fe(H2O)6)^3+ and (Fe(CO)6)^3-
Balance this equation and balanced reaction equation and the quantities included in the procedure to calculate the theoretical yield of K[Cr(C2O4)2(H2O)2]·2H2O.
1. Determine the oxidation state of the metal ion in each of the following: a. [Co(NH3)5Br]2+ b. [Fe(CN)6]4-
Transition metal complexes are highly likely to be colored because of a) the size of the energy gap within the d orbitals and the number of electrons. In ruby, the red color of ruby is attributed to a small amount of Cr³* substituting into Al2O3 which is made up of shared AIO, octahedra. Provide a hypothesis for the origin of the red color observed in ruby. Red pigments tend to be rare. If you had to design a new material that b) had an approximate bandgap that would absorb green, what ideas do you need to employ to find a new semiconductor that does not contain Cd, Hg or Pb as one of the components (see last lecture for ideas).
Can you help with #3 draw all parts neatly pls

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