Give the number of unpaired electrons in octahedral complexes with weak-field ligands for:
a) Mn3+
b) Co3+
c) Rh3+
d) Ti2+
e) Mo2+
Give the number of unpaired electrons in octahedral complexes with weak-field ligands for: a) Mn3+ b)...
Determine the number of unpaired electrons in [MnBr.14-, an octahedral coordination complex. number of unpaired electrons:
Determine the number of unpaired electrons in the octahedral coordination complex (Mn(NO,21° number of unpaired electrons:
Determine the number of unpaired electrons in [FeF613 -, an octahedral coordination complex. number of unpaired electrons:
Which of the following is diamagnetic (no unpaired electrons) octahedral complexes? a) [Cr(CO)_6]^+2 b) [Fe(H_2O)_6]^+3 c) Zn(CN)_6]^-4
Determine the number of unpaired electrons in [MnBro]4 –, an octahedral coordination complex. number of unpaired electrons:
A10 In an octahedral Mn(II) complex the total number of unpaired electrons can be: (A) 1 or 4 (B) 2 or 5 (C) 3 or 4 (D) 2 or 4 (E) 1 or 5
14. All octahedral metal complexes will have a similar MO diagram, only the number of d-electrons and relative energies will change. The d-electrons from a metal ion will fill in the tz, and e, MO's. Use symmetry to generate a MO diagram for Ti(H20)63+ (12 pts). Make the water ligands sigma donating ligands for this problem. a. What are the atomic orbitals from the metal that can from o bonds? b. In the MO diagram label the HOMO and the...
Question 1: Consider the complex ion [Mn(OH2)6] with 5 unpaired electrons. Which response includes all the following statements that are true, and no false statements? I. It is diamagnetic. II. It is a low spin complex III. The metal ion is a d ion IV. The ligands are weak field ligands V. It is octahedral (a) I, II (b) II, IV, V (c) I, IV (d) II, V (е) Ш, IV
b) By using crystal field theory, determine the configuration, the number of unpaired electrons, and the ligand field stabilization energy (LFSE) as a multiple of A, for the following complexes. (2 x 3 = 6 marks) (O) (Cr(NH3).]** (ii) [W(CO).)
Which of the following complexes is paramagnetic? Assume all ligands are strong field ligands. Select one: O A. More than one of the complexes is paramagnetic O B. [Ni(CN) 14 O C. [Fe(CN))" о D. (Mn(CN)," o E. [Co(NH,