(a)
Interpretation: The ionic compound FeBr2 needs to be named using the system that includes Roman numerical to specify the charge of the cations.
Concept introduction:Binary ionic compounds contain a metal that can form more than one type of cation.
(a)
Answer to Problem 45A
Iron (II) bromide.
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Iron(II)bromide | Iron can have more than 1 oxidation state, so one must include (II) to specify its charge. |
(b)
Interpretation: The ionic compound CoS needs to be named using the system that includes Roman numerical to specify the charge of the cations.
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(b)
Answer to Problem 45A
Cobalt (II)sulfide.
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Cobalt(II)sulfide | Cobalt can have more than 1 oxidation state, so one must include II to specify its charge. |
(c)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(c)
Answer to Problem 45A
Cobalt(III)sulfide
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Cobalt(III)sulfide | Cobalt can have more than 1 oxidation state, so one must include the III to specify its charge. |
(d)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(d)
Answer to Problem 45A
Tin(IV)oxide
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Tin(IV)oxide | Tin can have more than 1 oxidation state so one must include IV to specify its charge. |
(e)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(e)
Answer to Problem 45A
Mercury(I)chloride
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Mercury(I)chloride | Mercury can have more than 1 oxidation state so one must include I to specify its charge. |
(f)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(f)
Answer to Problem 45A
Mercury (II) chloride
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Mercury (II) chloride | Mercury can have more than 1 oxidation state so one must include II to specify its charge. |
Chapter 4 Solutions
World of Chemistry, 3rd edition
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