Two complexes are diamagnetic.
Option 3 is right. The explanation is given as below.
If NH3 and CN* are both strong field ligands, and F is a weak field ligand,...
If NH3 and CN are both strong field ligands, and F is a weak field ligand, how many of the following complexes are diamagnetic? [Mn(CN),13 [Zn(NH3).12 [Fe(CN). [FeF.1% O 3 0 1 2 O 04
show all steps please If NH3 and CN are both strong field ligands, and F is a weak field ligand, how many of the following complexes are diamagnetic? [Mn(CN). [Zn(NH3.12 [Fe(CN).14 [FeF2
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,
Part A (2 marks) In the following pairs of complexes, which do you expect to have a larger ligand field splitting parameter Ao? Why? Explain? i) [Fe(NH3)612+ or [Fe(NH3). 13+ ii) (Co(CN)613- or [Rh(CN)613- Part B (3 maks) In the following pairs of complexes, which do you expect to be more labile? Why? Explain? ) [Cr(NH3)613+ or [Mn(NH3)6]3+ ii) (Co(CN)613- or [Rh(CN)613- ii) [Cr(NH3).]3+ or [V(NH3).]2+
Which one of the following octahedral complex ions is diamagnetic? Note: NH3 is a strong-field ligand. (a) [Fe(NH3)6] 3+ (b) [Fe(NH3)6] 2+ (c) [Cr(NH3)6] 3+ (d) [Cr(NH3)6] 2+ (e) [Co(NH3)6] 2+
From the following list of metal ions and ligands, construct metal complexes with properties which match that described in each part of the question and provide a brief explanation. (Only one example is required for each part of the question, e.g. [Fe(H20)6]21). Metal ions Ligands (in order of increasing ligand field strength) [ < Br< <C1° <NO3 <OH <ox?- <H2O< Ti(IV), V(III), V(IV), Cr(II), Cr(III), Mn(II), NH3 <en <bpy < PPh3< CN=CO Mn(III), Mn(IV), Fe(II), Fe(III), Co(II), Co(III), en =...
If CN is a strong field ligand, rank the following coordination compounds in order of decreasing number of unpaired d-electrons: [Fe(CN)]3- [Pd(CN)]2- [Mo(CN6)]4- [Mo(CN)]4-> [Fe(CN6)13-> [Pd(CNG)]2- [Pd(CNG)]2- > [Fe(CNG)]3-> [Mo(CNG)]4- [Mo(CNG)]4-> [Pd(CNG)]2-> [Fe(CNG)]3- O [Fe(CN)]3-> [Mo(CNG)]4-> [Pd(CNG)]2- O [Fe(CNG)]3-> [Pd(CNG)]2-> [Mo(CN6)]4-
Question 6 7 pts If CN is a strong field ligand, rank the following coordination compounds in order of decreasing number of unpaired d-electrons: [Fe(CN6)]3- [Pd(CNG)]2- [Mo(CN)]4- O [Pd(CN)]2-> [Fe(CN6)]3-> [Mo(CN)24- O [Fe(CN)]3-> [Mo(CNG)]4-> [Pd(CN6)]2- O [Mo(CNG)]4-> [Fe(CNG)]3-> [Pd(CNG)]2- [Mo(CN)]4-> [Pd(CN)]2-> [Fe(CN)]3- [Fe(CN6)]3-> [Pd(CN6)]2-> [Mo(CN6)]4-
Question 7 7 pts If CN is a strong field ligand, rank the following coordination compounds in order of decreasing number of unpaired d-electrons: [Fe(CN6)]3- [Pd(CN6)]2- [Mo(CNG)]4- O [Fe(CN6)]3-> [Pd(CN6)]2-> [Mo(CN6)]4- O [Fe(CN6)]3-> [Mo(CN6)]4- > [Pd(CN6)]2- O [Mo(CN)24-> [Pd(CN)]2-> [Fe(CN)13- O [Pd(CN6)]2-> [Fe(CN6)]3- > [Mo(CN6)]4- O [Mo(CN6)]4- > [Fe(CN6)]3-> [Pd(CN6)]2-
If CN- is a strong field ligand, rank the following coordination compounds in order of decreasing number of unpaired d-electrons: [Fe(CN6)]3- [Pd(CN6)]2- [Mo(CN6)]4-