Concept explainers
(a)
Interpretation:
The electron dot formula and structural formula for
Concept introduction:
The electron dot formula shows the valence electrons which form the bond between the atoms in a molecule. The electron pairs that are shared by the atoms are known as bonding electrons. The other electrons that are present in order to complete the octet are known as non-bonding electrons. The electron dot formula is also known as the Lewis structure.
Answer to Problem 35E
The electron dot formula for
The structural formula for
Explanation of Solution
The total number of valence electron in
Figure 1
Out of five electron pairs, three electron pairs are involved in bonding. Therefore, there is two lone pair. The structural formula for
Figure 2
The electron dot formula for
The structural formula for
(b)
Interpretation:
The electron dot formula and structural formula for
Concept introduction:
The electron dot formula shows the valence electrons which form the bond between the atoms in a molecule. The electron pairs that are shared by the atoms are known as bonding electrons. The other electrons that are present in order to complete the octet are known as non-bonding electrons. The electron dot formula is also known as the Lewis structure.
Answer to Problem 35E
The electron dot formula for
The structural formula for
Explanation of Solution
The total number of valence electron in
Figure 3
Out of thirteen electron pairs, only three electron pair is involved in bonding. Therefore, there is ten lone pair. The structural formula for
Figure 4
The electron dot formula for
The structural formula for
(c)
Interpretation:
The electron dot formula and structural formula for
Concept introduction:
The electron dot formula shows the valence electrons which form the bond between the atoms in a molecule. The electron pairs that are shared by the atoms are known as bonding electrons. The other electrons that are present in order to complete the octet are known as non-bonding electrons. The electron dot formula is also known as the Lewis structure.
Answer to Problem 35E
The electron dot formula for
The structural formula for
Explanation of Solution
The total number of valence electron in
Figure 5
Out of nine electron pairs, four electron pair is involved in bonding. Therefore, there is five lone pair. The structural formula for
Figure 6
The electron dot formula for
The structural formula for
(d)
Interpretation:
The electron dot formula and structural formula for
Concept introduction:
The electron dot formula shows the valence electrons which form the bond between the atoms in a molecule. The electron pairs that are shared by the atoms are known as bonding electrons. The other electrons that are present in order to complete the octet are known as non-bonding electrons. The electron dot formula is also known as the Lewis structure.
Answer to Problem 35E
The electron dot formula for
The structural formula for
Explanation of Solution
The total number of valence electron in
Figure 7
All electron pair is involved in bonding. Therefore, there is no lone pair. The structural formula for
Figure 8
The electron dot formula for
The structural formula for
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Chapter 12 Solutions
Introductory Chemistry: Concepts and Critical Thinking (8th Edition)
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- Name each ionic compound. In each of these compounds,the metal forms only one type of ion. (a) CsCl (b) SrBr2 (c) K2O (d) LiFarrow_forwardDraw a Lewis structure for(a) The cyclic silicate ion Si₄O₁₂⁸⁻(b) A cyclic hydrocarbon with formula C₄H₈arrow_forwardExplain the chemical bonding between Nitrogen(1N) and Bromine (3Br) using Lewis electron dot structure. Answer the following for the structure given below. HẠC "CH3 b() no of bond pair electrons b(i) no of lone pair electrons b(ii) no of single bond b(iv) no of double bondarrow_forward
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- Write the chemical formula for the ionic compound formed from each pair of ions.(a) Mg2+ and I-(b) Na+ and O2-arrow_forwardWhich statement about the properties of barium chloric and mercury(II) chloride is correct? (A) BaCl₂ has a higher melting point than HgCl₂. (B) BaCl₂ has a higher solubility in nonpolar solvents than HgCl₂. (C) BaCl₂ has a higher vapor pressure than HgCl₂. (D) Molten BaCl₂ has a lower electrical conductivity than molten HgCl2.arrow_forwardIodine monochloride and elemental bromine have nearly the same molar mass and liquid density but very different boiling points.(a) What molecular property is primarily responsible for this difference in boiling point? What atomic property gives rise to it? Explain.(b) Which substance has a higher boiling point? Why?arrow_forward
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