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The spectrochemical series is < Br<< Cl<F-<OH" <H2O <NH3 <en <NO2- < CN- The complex [Ni(Cl)c]...
Use the following electrochemical series: CN -1 > NO2-1 > en > NH3 > H2O > OH -1 > F -1 > Cl -1 > Br -1 > I -1 Given compound: [Mn(en)3]+3 For octahedral field splitting diagrams, outline in detail how you determine the following: a) neutral metal's electron configuration b) ion's electron configuration c) the number of d electrons in the ion d) drawing the splitting pattern, labeling the orbitals in the splitting pattern, the filling of electrons,...
Nomenclature Coordinate Complexes | <Br< SCN < Cl< O=N-0 <F <OH <C:0-(oxalato) < 0,2-<H2O <SCN <NH; <en (H2NCH2CH2NH2) NO2 <CN <CO Formula Name # of lone de [Cr. (NH3)3 (+20)})( triamminetriaquachromium(III) chloride [Fe(NH3).](NO2) hexaammineiron (111) nitrate [pt leng (12232 dithicyanodi(ethylenediamine)platinum(IV) chloride [Co(C204)(CO)]* Owlbunyoleation contu) lon ammonium tetraiodicuprate(II) INHO), [LUIGI Ke[Fe(ONO).] [ Fel NH3)6] hexaammineiron(III) hexahydroxochromate(III) [Co(H2NCH2CH2NH3)4](SO4)3 | +r15 4+ hy • he ºlfa wine) ¢e bal} (1) v10a4e pentaaquahydroxoiron(III) ion [Fe(H2E), GH) +2. (NH4)[Ni(O2)2(H2O)2] ammunium cinquabiscova lato) nickelate CI) AN...
5. Use the spectrochemical series and the color of the following complex ions to write the electron configuration of the d orbitals showing the crystal field splitting. Use 5 horizontal lines for the orbitals, and use arrows to represent the electrons. You do not need to label the orbitals. a. [Mn(H2O)c] is pink (assume H2O is a weak-field ligand in this complex ion) b. [CoCla]? is blue (the complex is tetrahedral) C. [Fe(CN).]" is yellow d. (Co(NH3).]** is orange
Date: 1117 mework 10 - Ch. 21-23 A) CN B)NO c)r D) CO Name: E ) en 24. Place the ligands, CN-, Br., H2O, and OH-in order from least to greatest according ability to split the d orbital energy level. A) CN-, OH, H2O, Br- C) Br,H20, CN-, OH- B) Br., OH, H2O, CN- D) None of the above 25. The charge on the central metal ion in (Cr(NH3)(CO3)2+ is A)-1. B) 0. C) 1. D) 3. E) 5 26....
[Co(en)2(H2O)(Cl)]3[Ni(CN)4]2 For the nickel portion of the complex, determine the number of d electrons and given the possible geometry(s) would the complex be a high spin or low spin complex.
Part C: Structural Isomers - Coordination Sphere Isomers [Co(H2O),Br]CI and (Co(H2O),CIJBr examples of coordination sphere isomers. compounds with the same chemical formula, but with one or more different bonds. In this example, notice the Cl and Br' are either a ligand or a counter ion. Assuming tetrahedral geometry for these cobalt(II) complexes, build a model for only the first (Co(H2O),Br]CI) complex ion. Use a silver (SN-4, tetrahedral) atom for cobalt, use a green terminal atom for Cl, use a yellow...
SYNTHESIS OF TRANSITION METAL COORDINATION COM 3. Ethylenediamine ("en" in short-hand notation) has two amine groups, one at each end of a two-carbon chain, NH,CH,CH,NH. Each nitrogen in NH,CH,CH_NH, has a lone pair that coordinates to the metal. Thus, one NH CH CH NH, ligand, takes up two coordina- tion sites. a) Draw and label the structures of the cis and trans isomers of Co(en),C1,CI. b) What is the coordination number for (Coſen),C1,CI? c) Determine the oxidation state of the...
4. Give chemical names for the following coordination complexes. a) [Cu(NH3)4]2+ b) [Pt(NH3). Cl]* c) [Mn(CN):)". d) (Co(en)2(PPha)]PO... e) [Ni(bipy)](NO3)2. 5. Give chemical formulas for the following coordination complexes. a) Triammineaquadichlorocobalt(III) chloride. b) Potassium diaquabis(oxalate)manganate(III). c) Tris(acetylacetonato Jiron(III). d) Tri--carbonylbis(tricarbonyliron(O)). e) Li-oxo-bis(pentaamminechromium(III)). 5. Draw a d-orbital energy-level diagram, and predict the number of unpaired electrons. a) [Fe(CN).] b) [Fe(H20):] c) (CoCil (tetrahedral) 6. Of the two complexes (a) (CoFs] and (b) (Coſen)] + one appears yellow and the other appears...
Prelab questions 1,2, and 3 and Part E questions Also, write a flowchart of the experiments process in each part. EXPERIMENT 3 DETERMINATION OF Δo The d orbitals of a metal ion in an octahedral ligand or crystal field are split into a higher energyset (eg) and a lower energy set (t2g) as shown in the following energy level diagram. 11 The energy difference between the upper and lower energy levels is Δo, the octahedral crystal field splitting. The degree...