Problem 19
Question
Polydentate ligands can vary in the number of coordination positions they occupy. In each of the following, identify the polydentate ligand present and indicate the probable number of coordination positions it occupies: (a) \(\left[\mathrm{Co}\left(\mathrm{NH}_{3}\right)_{4}(0-\mathrm{phen})\right] \mathrm{Cl}_{3}\) (b) \(\left[\mathrm{Cr}\left(\mathrm{C}_{2} \mathrm{O}_{4}\right)\left(\mathrm{H}_{2} \mathrm{O}\right)_{4}\right] \mathrm{Br}\) (c) \(\left[\mathrm{Cr}(\mathrm{EDTA})\left(\mathrm{H}_{2} \mathrm{O}\right)\right]^{-}\) (d) \(\left[\mathrm{Zn}(\mathrm{en})_{2}\right]\left(\mathrm{ClO}_{4}\right)_{2}\)
Step-by-Step Solution
Verified Answer
(a) The polydentate ligand is orthophenanthroline (0-phen), which is a bidentate ligand and occupies two coordination positions.
(b) The polydentate ligand is oxalate ion (\(\mathrm{C}_{2}\mathrm{O}_{4}\)), which is a bidentate ligand and occupies two coordination positions.
(c) The polydentate ligand is ethylenediaminetetraacetic acid (EDTA), which is a hexadentate ligand and occupies six coordination positions.
(d) The polydentate ligand is ethylenediamine (en), which is a bidentate ligand and occupies two coordination positions. In this complex, there are two ethylenediamine ligands, so there are a total of four occupied positions.
1Step 1: Identify the polydentate ligand
In this complex, the polydentate ligand is 0-phen, which stands for orthophenanthroline.
2Step 2: Determine the number of coordination positions
Orthophenanthroline (0-phen) is a bidentate ligand, meaning it can occupy two coordination positions.
(b) $\left[\mathrm{Cr}\left(\mathrm{C}_{2}
\mathrm{O}_{4}\right)\left(\mathrm{H}_{2} \mathrm{O}\right)_{4}\right]
\mathrm{Br}$
3Step 3: Identify the polydentate ligand
In this complex, the polydentate ligand is \(\mathrm{C}_{2}\mathrm{O}_{4}\), which represents oxalate ion.
4Step 4: Determine the number of coordination positions
Oxalate ion is a bidentate ligand, meaning it can occupy two coordination positions.
(c) $\left[\mathrm{Cr}(\mathrm{EDTA})\left(\mathrm{H}_{2}
\mathrm{O}\right)\right]^{-}$
5Step 5: Identify the polydentate ligand
In this complex, the polydentate ligand is EDTA, which stands for ethylenediaminetetraacetic acid.
6Step 6: Determine the number of coordination positions
EDTA is an hexadentate ligand, which means it can occupy six coordination positions.
(d) \(\left[\mathrm{Zn}(\mathrm{en})_{2}\right]\left(\mathrm{ClO}_{4}\right)_{2}\)
7Step 7: Identify the polydentate ligand
In this complex, the polydentate ligand is en, which stands for ethylenediamine.
8Step 8: Determine the number of coordination positions
Ethylenediamine (en) is a bidentate ligand, meaning it can occupy two coordination positions. In this complex, there are two ethylenediamine ligands, so there are a total of four occupied positions.
Other exercises in this chapter
Problem 17
(a) What is the difference between a monodentate ligand and a bidentate ligand? (b) How many bidentate ligands are necessary to fill the coordination sphere of
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For each of the following polydentate ligands, determine (i) the maximum number of coordination sites that the ligand can occupy on a single metal ion and (ii)
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Indicate the likely coordination number of the metal in each of the following complexes: (a) \(\left[\mathrm{Rh}(\mathrm{bipy})_{3}\right]\left(\mathrm{NO}_{3}\
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(a) What is meant by the term chelate effect? (b) What thermodynamic factor is generally responsible for the chelate effect? (c) Why are polydentate ligands oft
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