
Concept explainers
(a)
Interpretation:
Systematic name should be assign given the coordination ions.
Concept introduction:
Coordination compounds
- Coordination compound typically consists a complex ion and a counter ion.
- A complex ion contains a central meatal cation bonded to one or more molecules or ions.
- The molecules or ions that surrounded the metal in a complex ion are called ligands.
- A ligand has at least one unpaired of valance electrons.
IUPAC naming method: There are some rules set by the IUPAC, the ligand names is first followed by metal name.
Charge of metal indicated with roman numerical and closed in parenthesis after name all in one “word”.
Ligand listed alphabetically, ignoring prefixes that denote the number of each type of ligand. Cations are named before anions.
For anionic ligands end in
For neutral ligands, the common name of the molecule is used e.g.
For example:
(b)
Interpretation:
Systematic name should be assign given the coordination ions.
Concept introduction:
Coordination compounds
- Coordination compound typically consists a complex ion and a counter ion.
- A complex ion contains a central meatal cation bonded to one or more molecules or ions.
- The molecules or ions that surrounded the metal in a complex ion are called ligands.
- A ligand has at least one unpaired of valance electrons.
IUPAC naming method: There are some rules set by the IUPAC, the ligand names is first followed by metal name.
Charge of metal indicated with roman numerical and closed in parenthesis after name all in one “word”.
Ligand listed alphabetically, ignoring prefixes that denote the number of each type of ligand. Cations are named before anions.
For anionic ligands end in
For neutral ligands, the common name of the molecule is used e.g.
For example:
(c)
Interpretation:
Systematic name should be assign given the coordination ions.
Concept introduction:
Coordination compounds
- Coordination compound typically consists a complex ion and a counter ion.
- A complex ion contains a central meatal cation bonded to one or more molecules or ions.
- The molecules or ions that surrounded the metal in a complex ion are called ligands.
- A ligand has at least one unpaired of valance electrons.
IUPAC naming method: There are some rules set by the IUPAC, the ligand names is first followed by metal name.
Charge of metal indicated with roman numerical and closed in parenthesis after name all in one “word”.
Ligand listed alphabetically, ignoring prefixes that denote the number of each type of ligand. Cations are named before anions.
For anionic ligands end in
For neutral ligands, the common name of the molecule is used e.g.
For example:
(d)
Interpretation:
Systematic name should be assign given the coordination ion.
Concept introduction:
Coordination compounds
- Coordination compound typically consists a complex ion and a counter ion.
- A complex ion contains a central meatal cation bonded to one or more molecules or ions.
- The molecules or ions that surrounded the metal in a complex ion are called ligands.
- A ligand has at least one unpaired of valance electrons.
IUPAC naming method: There are some rules set by the IUPAC, the ligand names is first followed by metal name.
Charge of metal indicated with roman numerical and closed in parenthesis after name all in one “word”.
Ligand listed alphabetically, ignoring prefixes that denote the number of each type of ligand. Cations are named before anions.
For anionic ligands end in
For neutral ligands, the common name of the molecule is used e.g.
For example:

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Chapter 20 Solutions
General Chemistry: Atoms First
- Problem 3. Provide a mechanism for the following transformation: H₂SO A Me. Me Me Me Mearrow_forwardYou are trying to decide if there is a single reagent you can add that will make the following synthesis possible without any other major side products: xi 1. ☑ 2. H₂O хе i Draw the missing reagent X you think will make this synthesis work in the drawing area below. If there is no reagent that will make your desired product in good yield or without complications, just check the box under the drawing area and leave it blank. Click and drag to start drawing a structure. There is no reagent that will make this synthesis work without complications. : ☐ S ☐arrow_forwardPredict the major products of this organic reaction: H OH 1. LiAlH4 2. H₂O ? Note: be sure you use dash and wedge bonds when necessary, for example to distinguish between major products with different stereochemistry. Click and drag to start drawing a structure. G C टेarrow_forward
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