Student's Solutions Manual for Organic Chemistry
Student's Solutions Manual for Organic Chemistry
9th Edition
ISBN: 9780134160375
Author: Leroy G. Wade, Jan W. Simek
Publisher: PEARSON
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Concept explainers

Electronic Effects
The effect of electrons that are located in the chemical bonds within the atoms of the molecule is termed an electronic effect. The electronic effect is also explained as the effect through which the reactivity of the compound in one portion is controlle…
Drawing Resonance Forms
In organic chemistry, resonance may be a mental exercise that illustrates the delocalization of electrons inside molecules within the valence bond theory of octet bonding. It entails creating several Lewis structures that, when combined, reflect the mole…
Using Molecular Structure To Predict Equilibrium
Equilibrium does not always imply an equal presence of reactants and products. This signifies that the reaction reaches a point when reactant and product quantities remain constant as the rate of forward and backward reaction is the same. Molecular struc…
Question
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Chapter 1, Problem 1.37SP

(a)

Interpretation Introduction

To draw: The complete Lewis structure for pyridine.

Interpretation: The complete Lewis structure for pyridine is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(b)

Interpretation Introduction

To draw: The complete Lewis structure for pyrrolidine.

Interpretation: The complete Lewis structure for pyrrolidine is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(c)

Interpretation Introduction

To draw: The complete Lewis structure for furan.

Interpretation: The complete Lewis structure for furan is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(d)

Interpretation Introduction

To draw: The complete Lewis structure for γ-aminobutyric acid.

Interpretation: The complete Lewis structure for γ-aminobutyric is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(e)

Interpretation Introduction

To draw: The complete Lewis structure for the given compound.

Interpretation: The complete Lewis structure for the given compound is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(f)

Interpretation Introduction

To draw: The complete Lewis structure for the given compound.

Interpretation: The complete Lewis structure for the given compound is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(g)

Interpretation Introduction

To draw: The complete Lewis structure for the given compound.

Interpretation: The complete Lewis structure for the given compound is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

(h)

Interpretation Introduction

To draw: The complete Lewis structure for the given compound.

Interpretation: The complete Lewis structure for the given compound is to be drawn.

Concept introduction: The Lewis structure shows the connectivity between atoms by identifying the lone pairs of electrons in a compound. Lewis structures are also called Lewis dot structures. The valence electrons around an atom are shown by dots. Bonds between atoms are shown by lines and the lone pair of electrons is shown by a pair of dots.

The rules to draw Lewis structure are given as,

  • Determine the electronegativity and the number of valence electrons contributed by each atom.
  • Generally lowest electronegativity atom is the central atom.
  • Write the skeleton structure of the molecule.
  • Use two valence electrons to form each bond in skeleton structure between the central and outer atoms.
  • Satisfy the octets of atoms by distributing remaining valence electrons as nonbonding electrons. It is usually best start with the outer atoms.

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Chapter 1 Solutions

Student's Solutions Manual for Organic Chemistry

Ch. 1.2C - a. Nitrogen has relatively stable isotopes...Ch. 1.4 - Draw Lewis structures for the following compounds....Ch. 1.5 - Write Lewis structures for the following molecular...Ch. 1.5 - Circle any lone pairs (pairs of nonbonding...Ch. 1.6 - Use electronegativities to predict the direction...Ch. 1.8 - Prob. 1.6PCh. 1.9B - Draw the important resonance forms for the...Ch. 1.9B - Prob. 1.8PCh. 1.9B - Prob. 1.9PCh. 1.9B - Use resonance structures to identify the areas of...
Ch. 1.10A - Draw complete Lewis structures for the following...Ch. 1.10B - Give Lewis structures corresponding to the...Ch. 1.10B - Prob. 1.13PCh. 1.11 - Compute the empirical and molecular formulas for...Ch. 1.16 - a. Use your molecular models to make ethane, and...Ch. 1.17 - a. Predict the hybridization of the oxygen atom in...Ch. 1.17 - Predict the hybridization geometry and bond angles...Ch. 1.17 - Predict the hybridization, geometry, and bond...Ch. 1.17 - Prob. 1.19PCh. 1.17 - Allene, CH2=C=CH2, has the structure shown below...Ch. 1.17 - 1. Draw the important resonance forms for each...Ch. 1.18B - Prob. 1.22PCh. 1.18B - Two compounds with the formula CH3CH=NCH3 are...Ch. 1.19B - Prob. 1.24PCh. 1.19B - Give the relationship between the following pairs...Ch. 1 - a. Draw the resonance forms for SO2 (bonded OSO)....Ch. 1 - Name the element that corresponds to each...Ch. 1 - Prob. 1.28SPCh. 1 - For each compound, state whether its bonding is...Ch. 1 - a. Both PCl3 and PCl5 are stable compounds Draw...Ch. 1 - Draw a Lewis structure for each species a. N2H4 b....Ch. 1 - Prob. 1.32SPCh. 1 - Prob. 1.33SPCh. 1 - Draw Lewis structures for a. two compounds of...Ch. 1 - Prob. 1.35SPCh. 1 - Some of the following molecular formulas...Ch. 1 - Prob. 1.37SPCh. 1 - Give the molecular formula of each compound shown...Ch. 1 - 1. From what you remember of electronegativities,...Ch. 1 - For each of the following structures, 1. Draw a...Ch. 1 - Prob. 1.41SPCh. 1 - Prob. 1.42SPCh. 1 - Prob. 1.43SPCh. 1 - Prob. 1.44SPCh. 1 - For each pair of ions, determine which on is more...Ch. 1 - Use resonance structures to identify the areas of...Ch. 1 - Prob. 1.47SPCh. 1 - In 1934, Edward A. Doisy of Washington University...Ch. 1 - If the carbon atom in CH2Cl2 were fat. there would...Ch. 1 - Cyclopropane (C3H6, a three-membered ring) is more...Ch. 1 - Prob. 1.51SPCh. 1 - Prob. 1.52SPCh. 1 - In most amines, the nitrogen atom is sp3...Ch. 1 - Predict the hybridization and geometry of the...Ch. 1 - Draw orbital pictures of the pi bonding in the...Ch. 1 - Prob. 1.56SPCh. 1 - Prob. 1.57SPCh. 1 - Which of the following compounds show cis-trans...Ch. 1 - Give the relationships between the following pairs...Ch. 1 - Dimethyl sulfoxide (DMSO) has been used as an...
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