CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<
CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<
9th Edition
ISBN: 9781305020788
Author: John C.Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher: CENGAGE C
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Chapter 8, Problem 33PS

Three resonance structures are possible for dinitrogen monoxide, N2O.

  1. (a) Draw the three resonance structures.
  2. (b) Calculate the formal charge on each atom in each resonance structure.
  3. (c) Based on formal charges and electronegativity, predict which resonance structure is the most reasonable.

(a)

Expert Solution
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Interpretation Introduction

Interpretation:

The three resonance structure of N2O has to be drawn.

Concept Introduction:

Resonance structures: A molecule or ion which show more than structure but none of them are accurately correct show the known property of that molecule, and can lie between the canonical structure is known as resonance or canonical or contributing structure.

Explanation of Solution

The three resonance structure is drawn

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  1

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

Formal charge on each atom in each resonance structure has to be calculated.

Concept Introduction:

Formal charge: It is the electrostatic charge that would reside on an atom in a molecule or polyatomic ion if all bonding electron are shared equally between pairs of atoms.

Formal charge calculation: The formal charge for atom in a molecule or ion is calculated based on the Lewis structure of the molecule or ion by following the given equation below:

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  2

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  3- Number of valence electrons

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  4- Number of non-bonding electrons

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  5- Number of bonding electrons

Explanation of Solution

The formal charges can be calculated as follows.

For resonance structure A is given below,

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  6

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=4Number of bonding electrons=4

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-4-42=1

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=4Number of bonding electrons=4

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-4-42=0

For resonance structure B is given below,

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  7

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=2Number of bonding electrons=6

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-2-62=0

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=6Number of bonding electrons=2

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-6-22=1

For resonance structure C, is given below,

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  8

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=6Number of bonding electrons=2

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-6-22=2

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=2Number of bonding electrons=6

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-2-62=+1

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation:

From the resonance structure drawn, the most reasonable structure has to be identified.

Concept Introduction:

Formal charge: It is the electrostatic charge that would reside on an atom in a molecule or polyatomic ion if all bonding electron are shared equally between pairs of atoms.

Formal charge calculation: The formal charge for atom in a molecule or ion is calculated based on the Lewis structure of the molecule or ion by following the given equation below:

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  9

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  10- Number of valence electrons

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  11- Number of non-bonding electrons

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  12- Number of bonding electrons

Resonance structures:

A molecule or ion which show more than structure but none of them are accurately correct show the known property of that molecule, and can lie between the canonical structure is known as resonance or canonical or contributing structure.

Explanation of Solution

The three resonance structure is drawn

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  13

  1. (a) The formal charges can be calculated as follows.

For resonance structure A

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  14

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=4Number of bonding electrons=4

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-4-42=1

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=4Number of bonding electrons=4

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-4-42=0

For resonance structure B

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  15

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=2Number of bonding electrons=6

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-2-62=0

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=6Number of bonding electrons=2

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-6-22=1

For resonance structure C

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  16

Formal charge on nitrogen1 can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(1)=5Number of nonbonding electrons=6Number of bonding electrons=2

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-6-22=2

Formal charge on nitrogen2 can be calculated as follows.

 FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onN(2)=5Number of nonbonding electrons=0Number of bonding electrons=8

FormalCharge=Nvalence-Nnon-bond-Nbond2=5-0-82=+1

Formal charge on oxygen can be calculated as follows.

FormalCharge=Nvalence-Nnon-bond-Nbond2

Number of valence electrons onO=6Number of nonbonding electrons=2Number of bonding electrons=6

FormalCharge=Nvalence-Nnon-bond-Nbond2=6-2-62=+1

Thus from the formal charge given above, the Structure B is most reasonable

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<, Chapter 8, Problem 33PS , additional homework tip  17

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Chapter 8 Solutions

CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<

Ch. 8.4 - Draw resonance structures for the bicarbonate ion,...Ch. 8.4 - 1. For which of the following species, SO32−, NO+,...Ch. 8.4 - Prob. 2RCCh. 8.5 - Sketch the Lewis structures for CIF2+ and CIF2....Ch. 8.5 - Prob. 1QCh. 8.5 - Prob. 2QCh. 8.5 - Prob. 1RCCh. 8.5 - Prob. 2RCCh. 8.6 - What is the shape of the dichloromethane (CH2C12)...Ch. 8.6 - Give the electron-pair geometry and molecular...Ch. 8.6 - Draw the Lewis structure for lCl2, and then decide...Ch. 8.6 - Prob. 4CYUCh. 8.6 - Which of the following species has...Ch. 8.6 - Prob. 2RCCh. 8.6 - What is the approximate ClCCl bond angle in...Ch. 8.6 - 4. What is the molecular geometry of N2O (where...Ch. 8.7 - Draw the resonance structures for SCN. What are...Ch. 8.7 - For each of the following molecules, decide...Ch. 8.7 - Prob. 1RCCh. 8.7 - 2. Which of the following best describes the...Ch. 8.7 - Three resonance forms can be drawn for the...Ch. 8.8 - The electrostatic potential surface for SOCl2 is...Ch. 8.8 - Using the bond dissociation enthalpies in Table...Ch. 8.8 - Prob. 1RCCh. 8.8 - Prob. 2RCCh. 8.9 - 1. Which of the following species has the longest...Ch. 8.9 - 2. Which of the following species has the largest...Ch. 8.9 - 3. Use bond dissociation enthalpies to estimate...Ch. 8 - Give the periodic group number and number of...Ch. 8 - Give the periodic group number and number of...Ch. 8 - For elements in Groups 4A-7A of the periodic...Ch. 8 - Prob. 4PSCh. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Show all possible resonance structures for each of...Ch. 8 - Show all possible resonance structures for each of...Ch. 8 - Prob. 11PSCh. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Determine the formal charge on each atom in the...Ch. 8 - Determine the formal charge on each atom in the...Ch. 8 - Determine the formal charge on each atom in the...Ch. 8 - Determine the formal charge on each atom in the...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Prob. 18PSCh. 8 - Prob. 19PSCh. 8 - The following molecules or ions all have three...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Draw a Lewis structure for each of the following...Ch. 8 - Give approximate values for the indicated bond...Ch. 8 - Give approximate values for the indicated bond...Ch. 8 - Phenylalanine is one of the natural amino acids...Ch. 8 - Acetylacetone has the structure shown here....Ch. 8 - For each pair of bonds, indicate the more polar...Ch. 8 - For each of the bonds listed below, tell which...Ch. 8 - Urea, (NH2)2CO, is used in plastics and...Ch. 8 - Considering both formal charges and bond...Ch. 8 - Considering both formal charge and bond...Ch. 8 - Three resonance structures are possible for...Ch. 8 - Three resonance structures are possible for the...Ch. 8 - Compare the electron dot structures of the...Ch. 8 - Compare the electron dot structures of the...Ch. 8 - The chemistry of the nitrite ion and HNO2: (a) Two...Ch. 8 - Draw the resonance structures for the formate ion,...Ch. 8 - Prob. 39PSCh. 8 - Consider the following molecules: (a) CH4 (b)...Ch. 8 - Which of the following molecules is(are) polar?...Ch. 8 - Prob. 42PSCh. 8 - Give the bond order for each bond in the following...Ch. 8 - Prob. 44PSCh. 8 - In each pair of bonds, predict which is shorter....Ch. 8 - In each pair of bonds, predict which is shorter....Ch. 8 - Prob. 47PSCh. 8 - Compare the carbon-oxygen bond lengths in the...Ch. 8 - Consider the carbon-oxygen bond in formaldehyde...Ch. 8 - Compare the nitrogen-nitrogen bond in hydrazine,...Ch. 8 - Ethanol can be made by the reaction of ethylene...Ch. 8 - Methanol can be made by partial oxidation of...Ch. 8 - Hydrogenation reactions, which involve the...Ch. 8 - Phosgene, Cl2CO, is a highly toxic gas that was...Ch. 8 - The compound oxygen difluoride is quite reactive,...Ch. 8 - Oxygen atoms can combine with ozone to form...Ch. 8 - Prob. 57GQCh. 8 - Prob. 58GQCh. 8 - Which of the following compounds or ions do not...Ch. 8 - Prob. 60GQCh. 8 - Draw resonance structures for the formate ion,...Ch. 8 - Prob. 62GQCh. 8 - Prob. 63GQCh. 8 - What is the principle of electroneutrality? Use...Ch. 8 - Prob. 65GQCh. 8 - Draw resonance structures for the SO2 molecule,...Ch. 8 - What are the orders of the NO bonds in NO2 and...Ch. 8 - Which has the greater ONO bond angle, NO2 or NO2+?...Ch. 8 - Compare the FClF angles in CIF2+ and ClF2. Using...Ch. 8 - Draw an electron dot structure for the cyanide...Ch. 8 - Draw the electron dot structure for the sulfite...Ch. 8 - Dinitrogen monoxide, N2O, can decompose to...Ch. 8 - The equation for the combustion of gaseous...Ch. 8 - The cyanate ion, OCN, has the least...Ch. 8 - Vanillin is the flavoring agent in vanilla extract...Ch. 8 - Explain why (a) XeF2 has a linear molecular...Ch. 8 - The formula for nitryl chloride is ClNO2 (in which...Ch. 8 - Hydroxyproline is a less-common amino acid. (a)...Ch. 8 - Amides are an important class of organic...Ch. 8 - Prob. 81GQCh. 8 - The molecule shown here. 2-furylmelhanethiol, is...Ch. 8 - Dihydroxyacetone is a component of quick-tanning...Ch. 8 - It is possible to draw three resonance structures...Ch. 8 - Acrolein is used to make plastics. Suppose this...Ch. 8 - Molecules in space: (a) In addition to molecules...Ch. 8 - 1,2-Dichloroethylene can be synthesized by adding...Ch. 8 - The molecule pictured below is epinephrine, a...Ch. 8 - You are doing an experiment in the laboratory and...Ch. 8 - Prob. 90ILCh. 8 - A paper published in the research Journal Science...Ch. 8 - Uracil is one of the bases in RNA, a close...Ch. 8 - Prob. 93SCQCh. 8 - Prob. 94SCQCh. 8 - Bromine-containing species play a role in...Ch. 8 - Acrylamide, H2C=CHCONH2, is a known neurotoxin and...
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