For each of the complexes, draw the structure and determine whether or not they obey the 18- electron rule. (1) (11) (1...
For each of the following complexes draw the structure, determine the electron count at the metal centre (use the neutral ligand method) and give the oxidation state of the metal (0) [Tan-CsHs)-(CH3)3] (11) [Ni(n-C3Hs)(PPh3>(CO)2] (111) [Mn(n-CHS)(CO)3]* [Ru(PMe3)2(CHPh)C12] (v) [Co(H2-COXCO);}2 Assume a direct Co-Co bond in (v) Explain, using suitable diagrams, the Berry pseudorotation mechanism
please do answer all the questions below. thank you For each of the following complexes, draw the molecular structure and determine the effective atomic numbers. (i) Na[Fe(CN)s(NH3)3l (i) [Cr(H2O)2(NH3)2(en)]Cl (ii) [Co(o-phen)2(NHs)(NCS))CI (iv) (n3-C3Hs)Co(CO)2] (v) [Fe(diphos)(CO)sl in which diphos Ph2PCH2CH2PPh2 and Ph CsHs (10 marks) (i)/ The K for Fe(OH)4]2-is found to be higher than that found in (5 marks) Zn(OH)4]2-and [Cr(OHM. Explain . Cho and coworkers used the following ligand to react with cobalt. Predict how this ligand would bind...
2. Octahedral transition metal complexes containing strong a acceptor ligands obey the 18- electron rule much more often than complexes containing n donor ligands. Why?
Draw the structure for each of the following organometallic complexes and show that the complex satisfies the 18-electron rule. a. [( ?6 -C6H6)Mo(CO)3] b. [MnBr(CO)5] c. [RhCl(H)2(?2 -C2H4)(PPh3)2]
Q1) For each of the following compounds, determine the formal oxidation state of the transition metal and the corresponding number of d electrons. State whether each one is likely to be stable enough to be characterized. (1) [Re(CO)5] (2) [HFe(CO)4]- (3) ((ŋ6-C5H5)2Fe) (4) ((ŋ6-C6H6)2Cr) (5) ((ŋ5-C5H5)ZrCl(OCH3) (6) (IrCl(PPh3)3) (7) (Mo(CO)3(PPh3)3) (8) (Fe(CO)4(C2H4)) (9) (W(CO)5Cl)- (10) Ni(CO)4)Q2) Use the 18-electron rule to predict the number of carbonyl ligands, n, in each of the following complexes: (1) [Cr(CO)n] (2) [Fe(CO)n(PPh3)2)] (3) [Mo(CO)n(PMe3)3] ...
please answer ASAP will rate and comment Determine whether or not the following compounds obey the eighteen electron rule. If not how many electrons are in the valence shell of the metal. a. H2Fe(CO)4 b). [V(CO)SH2 c. Mn(CO)4(NO) d. Co(H)(N2)(PPh3)3 e. [Cr(CO)s]1-
please do answer all the questions below. thank you For each of the following complexes, draw the molecular structure and determine the effective atomic numbers. (i) Na[Fe(CN)s(NH3)3l (i) [Cr(H2O)2(NH3)2(en)]Cl (ii) [Co(o-phen)2(NHs)(NCS))CI (iv) (n3-C3Hs)Co(CO)2] (v) [Fe(diphos)(CO)sl in which diphos Ph2PCH2CH2PPh2 and Ph CsHs (10 marks) (i)/ The K for Fe(OH)4]2-is found to be higher than that found in (5 marks) Zn(OH)4]2-and [Cr(OHM. Explain . Cho and coworkers used the following ligand to react with cobalt. Predict how this ligand would bind...
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...
1. Predict the molecular geometry of the following complexes, and determine whether each will be diamagnetic or paramagnetic: (a) [Fe(CN)614- (b) [Fe(C2O4)314- (C) [Zn(NH3)4]2+ (d) [Mo(CO)6] (e) [Rh(NH3)4]+
CHEMISTRY 171: PROBLEM SET #6 (11/8/19) Due: Monday, November 18, 2019 1. How could you tell the difference between a. A crystal of cubic zirconia and a diamond b. A synthetic ruby and a natural ruby 2. Give the chemical formula for a. cubic zirconia b. sapphire c. emerald 3. Describe the structure of white, red and black phosphorus. What happens when white or red phosphorus is exposed to air? Why did it take 10 years to determine that ducks...