(a)
Interpretation: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds is to be stated.
Concept introduction: Two compounds are said to be isoelectronic if they contains same number of valence electrons.
Total number of valence electrons in a compound is equal to the sum of valence electrons present in each atom of that compound.
To determine: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds.
(a)
Explanation of Solution
The compound
The molecule xenon tetroxide
An ion
Since
(b)
Interpretation: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds is to be stated.
Concept introduction: Two compounds are said to be isoelectronic if they contains same number of valence electrons.
Total number of valence electrons in a compound is equal to the sum of valence electrons present in each atom of that compound.
To determine: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds.
(b)
Explanation of Solution
The compound
The molecule xenon tetroxide
An ion
Since
(c)
Interpretation: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds is to be stated.
Concept introduction: Two compounds are said to be isoelectronic if they contains same number of valence electrons.
Total number of valence electrons in a compound is equal to the sum of valence electrons present in each atom of that compound.
To determine: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds.
(c)
Explanation of Solution
The compound
The molecule xenon difluoride
An ion
Since
(d)
Interpretation: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds is to be stated.
Concept introduction: Two compounds are said to be isoelectronic if they contains same number of valence electrons.
Total number of valence electrons in a compound is equal to the sum of valence electrons present in each atom of that compound.
To determine: An ion or molecule in which iodine is the central atom and that is isoelectronic with xenon tetrafluoride.
(d)
Explanation of Solution
The compound
The molecule xenon tetrafluoride
An ion
Since
(e)
Interpretation: The ion or molecule, having iodine as the central atom, that is isoelectronic with each of the given compounds is to be stated.
Concept introduction: Two compounds are said to be isoelectronic if they contains same number of valence electrons.
Total number of valence electrons in a compound is equal to the sum of valence electrons present in each atom of that compound.
To determine: An ion or molecule in which iodine is the central atom and that is isoelectronic with xenon hexafluoride.
(e)
Explanation of Solution
The compound
The molecule xenon hexafluoride
An ion
Since
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Chapter 20 Solutions
Chemistry
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