
(a)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(a)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
(b)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(b)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
(c)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(c)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
(d)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(d)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
(e)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(e)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
(f)
Interpretation:
The name of
Concept introduction:
Elements are classified as metals and nonmetals on basis of various physical and chemical properties. Metals can easily release electrons and nonmetals can easily take electrons to attain stability in configuration and as a result cations and anions are formed.
Metals and nonmetals come closer to from binary ionic compounds which can be of 3 types:
- Type I binary ionic compound: which has metal ions that can form only 1 type of ion.
- Type II binary ionic compound: contains metal ions that can form more than 1 type of ions.
- Type III binary ionic compound: contains only nonmetal ions.
(f)

Answer to Problem 6A
Explanation of Solution
The rules for naming the ionic compounds are as follows:
- On the basis of position in the periodic table, the oxidation state of metal and nonmetal is identified.
- For the name of cation, the metal name is retained as it is and for anion, the root name of the element has a suffix ‘-ide’.
- Then for the complete name of the ionic compound, cation name and anion names are combined in such a way that cation is placed before the anion name.
So,
Chapter 4 Solutions
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