(a)
Interpretation:
The oxidation number of carbon in CO should be determined.
Concept Introduction:
For any atom, the oxidation number is the number of charges present on the atoms. It plays an important role in the systematic nomenclature of chemical compound.
For any
The oxidation state of an ion is simply the charge exist on it. For example, the oxidation state of sodium in Na+ is +1 and similarly -1 for chlorine in Cl-.
Oxygen usually have -2 oxidation number. But there are some exceptions for polyatomic ions which has O-O bonds like O3, O2, O22-, and H2O2.
(b)
Interpretation:
The oxidation state of carbon in CO2 should be determined.
Concept Introduction:
For any atom, the oxidation number is the number of charges present on the atoms. It plays an important role in the systematic nomenclature of chemical compound.
For any atom, oxidation number would be zero then it is a neutral element and it comprises atoms of only single element. Therefore, the atoms present in O3, O2, S8, aluminum metal, P4 all have 0 oxidation number.
The oxidation state of an ion is simply the charge exist on it. For example, the oxidation state of sodium in Na+ is +1 and similarly -1 for chlorine in Cl-.
Oxygen usually have -2 oxidation number. But there are some exceptions for polyatomic ions which has O-O bonds like O3, O2, O22-, and H2O2.
(c)
Interpretation:
The oxidation number of carbon in CH4 should be determined.
Concept Introduction:
For any atom, the oxidation number is the number of charges present on the atoms. It plays an important role in the systematic nomenclature of chemical compound.
For any atom, oxidation number would be zero then it is a neutral element and it comprises atoms of only single element. Therefore, the atoms present in O3, O2, S8, aluminum metal, P4 all have 0 oxidation number.
The oxidation state of an ion is simply the charge exist on it. For example, the oxidation state of sodium in Na+ is +1 and similarly -1 for chlorine in Cl-.
Oxygen usually have -2 oxidation number. But there are some exceptions for polyatomic ions which has O-O bonds like O3, O2, O22-, and H2O2.
(d)
Interpretation:
The oxidation number of carbon inCCl4 should be calculated.
Concept Introduction:
For any atom, the oxidation number is the number of charges present on the atoms. It plays an important role in the systematic nomenclature of chemical compound.
For any atom, oxidation number would be zero then it is a neutral element and it comprises atoms of only single element. Therefore, the atoms present in O3, O2, S8, aluminum metal, P4 all have 0 oxidation number.
The oxidation state of an ion is simply the charge exist on it. For example, the oxidation state of sodium in Na+ is +1 and similarly -1 for chlorine in Cl-.
Oxygen usually have -2 oxidation number. But there are some exceptions for polyatomic ions which has O-O bonds like O3, O2, O22-, and H2O2.
(e)
Interpretation:
The oxidation number of carbon in CH2F2 should be calculated.
Concept Introduction:
For any atom, the oxidation number is the number of charges present on the atoms. It plays an important role in the systematic nomenclature of chemical compound.
For any atom, oxidation number would be zero then it is a neutral element and it comprises atoms of only single element. Therefore, the atoms present in O3, O2, S8, aluminum metal, P4 all have 0 oxidation number.
The oxidation state of an ion is simply the charge exist on it. For example, the oxidation state of sodium in Na+ is +1 and similarly -1 for chlorine in Cl-.
Oxygen usually have -2 oxidation number. But there are some exceptions for polyatomic ions which has O-O bonds like O3, O2, O22-, and H2O2.
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