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Organic Chemistry

T.W. Graham Solomons, Craig B. Fryhle, Scott A. Snyder

Chapter 18

Reactions at the $\alpha$ Carbon of Carbonyl Compounds - all with Video Answers

Educators

Chapter Questions

02:13

Problem 1

For all practical purposes, the compound cyclohexa-2,4-dien-1-one exists totally in its enol form. Write the structure of cyclohexa-2,4-dien-1-one and of its enol form. What special factor accounts for the stability of the enol form?

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:27

Problem 2

Would optically active ketones such as the following undergo acid- or base-catalyzed racemization? Explain your answer.
CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
04:50

Problem 3

Write a mechanism using sodium ethoxide in ethanol for the epimerization of cis-decalone to trans-decalone. Draw chair conformational structures that show why trans-decalone is more stable than cis-decalone. You may find it helpful to also examine handheld molecular models of cis- and trans-decalone.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
01:59

Problem 4

Why do we say that the halogenation of ketones in a base is "base promoted" rather than "base catalyzed"?

Ronald Prasad
Ronald Prasad
Numerade Educator
02:23

Problem 5

Additional evidence for the halogenation mechanisms that we just presented comes from the following facts: (a) Optically active 2 -methyl-1-phenylbutan-1-one undergoes acid-catalyzed racemization at a rate exactly equivalent to the rate at which it undergoes acid-catalyzed halogenation. (b) 2 -Methyl-1-phenylbutan-1-one undergoes acid-catalyzed iodination at the same rate that it undergoes acid-catalyzed bromination. (c) 2 -Methyl1-phenylbutan- 1-one undergoes base-catalyzed hydrogen-deuterium exchange at the same rate that it undergoes base-promoted halogenation. Explain how each of these observations supports the mechanisms that we have presented.

Nicholas Sacco
Nicholas Sacco
Numerade Educator
07:24

Problem 6

(a) Write a reaction involving a lithium enolate for introduction of the methyl group. in the following compound (an intermediate in a synthesis by E.J. Corey of cafestol, an anti-inflammatory agent found in coffee beans):
CAN'T COPY THE FIGURE
(b) Dienolates can be formed from $\beta$ -keto esters using two equivalents of LDA. The dienolate can then be alkylated selectively at the more basic of the two enolate carbons. Write a reaction for synthesis of the following compound using a dienolate and the appropriate alkyl halide:
(b) Dienolates can be formed from $\beta$ -keto esters using two equivalents of LDA. The dienolate can then be alkylated selectively at the more basic of the two enolate carbons. Write a reaction for synthesis of the following compound using a dienolate and the appropriate alkyl halide:

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:38

Problem 7

Show how you would use the acetoacetic ester synthesis to prepare (a) 3 -propyl-2-hexanone and (b) 4 -phenyl-2-butanone.

Ronald Prasad
Ronald Prasad
Numerade Educator
03:12

Problem 8

The acetoacetic ester synthesis generally gives best yields when primary halides are used in the alkylation step. Secondary halides give low yields, and tertiary halides give practically no alkylation product at all. (a) Explain. (b) What products would you expect from the reaction of sodioacetoacetic ester and tert-butyl bromide? (c) Bromobenzene cannot be used as an arylating agent in an acetoacetic ester synthesis in the manner we have just described. Why not?

Ronald Prasad
Ronald Prasad
Numerade Educator
05:36

Problem 9

In the synthesis of the keto acid just given, the dicarboxylic acid decarboxylates to give the product shown below at the left, and not the one shown at the right. Explain.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:41

Problem 10

How would you use the acetoacetic ester synthesis to prepare the following?
CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:57

Problem 11

How would you use the acetoacetic ester synthesis to prepare the following?
CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
08:24

Problem 12

Outline all steps in a malonic ester synthesis of each of the following: (a) pentanoic acid, (b) 2 -methylpentanoic acid, and (c) 4 -methylpentanoic acid.

Ronald Prasad
Ronald Prasad
Numerade Educator
04:29

Problem 13

The antiepileptic drug valproic acid is 2 -propylpentanoic acid (administered as the sodium salt). One commercial synthesis of valproic acid begins with ethyl cyanoacetate. The penultimate step of this synthesis involves a decarboxylation, and the last step involves hydrolysis of a nitrile. Outline this synthesis.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
06:31

Problem 14

Show how you could employ enamines in syntheses of the following compounds:
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
07:48

Problem 15

Rank the following in order of increasing acidity for the indicated hydrogen atoms (red) $(1=\text { least acidic; } 4=\text { most acidic })$.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE

Ronald Prasad
Ronald Prasad
Numerade Educator
02:20

Problem 16

Treating a solution of cis-1-decalone with base causes an isomerization to take place. When the system reaches equilibrium, the solution is found to contain about $95 \%$ trans- 1 -decalone and about $5 \%$ cis- 1 -decalone. Explain this isomerization.

Ronald Prasad
Ronald Prasad
Numerade Educator
04:57

Problem 17

Explain the variation in enol content that is observed for solutions of acetylacetone (pentane-2,4-dione) in the several solvents indicated:
$$\begin{array}{|l|c|}
\hline \text { Solvent } & \text { \% Enol } \\
\hline \mathrm{H}_{2} \mathrm{O} & 15 \\
\mathrm{CH}_{3} \mathrm{CN} & 58 \\
\mathrm{C}_{6} \mathrm{H}_{14} & 92 \\
\text { Gas phase } & 92 \\
\hline
\end{array}$$

Zubair Abdulla
Zubair Abdulla
Numerade Educator
07:31

Problem 18

Provide a structural formula for the product from each of the following reactions.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE
e.CAN'T COPY THE FIGURE
f.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
11:12

Problem 19

Write a stepwise mechanism for each of the following reactions.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
11:12

Problem 20

Write a stepwise mechanism for each of the following reactions.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
10:55

Problem 21

Outline syntheses of each of the following from acetoacetic ester and any other required reagents:
(a) tert-Butyl methyl ketone
(b) 2 -Hexanone
(c) 2,5 -Hexanedione
(d) 4 -Hydroxypentanoic acid
(e) 2 -Ethyl-1, 3-butanediol
(f) 1 -Phenyl-1,3-butanediol

Ronald Prasad
Ronald Prasad
Numerade Educator
09:13

Problem 22

Outline syntheses of each of the following from diethyl malonate and any other required reagents:
(a) 2 -Methylbutanoic acid
(b) 4 -Methyl-1-pentanol
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Ronald Prasad
Ronald Prasad
Numerade Educator
02:44

Problem 23

Provide a structural formula for the product from each of the following reactions.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:27

Problem 24

The synthesis of cyclobutanecarboxylic acid given in Section 18.7 was first carried out by William Perkin, Jr., in 1883, and it represented one of the first syntheses of an organic compound with a ring smaller than six carbon atoms. (There was a general feeling at the time that such compounds would be too unstable to cxis.) Earlicr in $1883,$ Perkin reported what he mistakenly believed to be a cyclobutane derivative obtained from the reaction of accroaccitic ester and 1,3 -dibromopropane. The reaction that Perkin had expected to take place was the following:
CAN'T COPY THE FIGURE
The molecular formula for his product agreed with the formulation given in the preceding reaction, and alkaline hydrolysis and acidification gave a nicely crystalline acid (also having the expected molecular formula). The acid, however, was quite stable to heat and resisted decarboxylation. Perkin later found that both the ester and the acid contained six-membered rings (five carbon atoms and one oxygen atom). Recall the charge discribution in the enolate ion obtained from accroaccetic ester and propose structures for Perkin's ester and acid.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
11:05

Problem 25

(a) In 1884 Perkin achieved a successful synthesis of cyclopropanecarboxylic acid from sodiomalonic ester and 1.2-dibromocthane. Outline the reactions involved in this synthesis.
(b) In 1885 Perkin synthesized five-membered carbocydic compounds $\mathbf{D}$ and $\mathbf{E}$ in the following way:
CAN'T COPY THE FIGURE
where $\mathbf{D}$ and $\mathbf{E}$ are diastereomers; $\mathbf{D}$ can be resolved into enantiomeric forms while $\mathbf{E}$ cannot. What are the structures of $\mathbf{A}-\mathbf{E} ?$
(c) Ten years later Perkin was able to synthesize 1,4 -dibromobutane; he later used this compound and diethyl malonate to prepare cyclopentanecarboxylic acid. Show the reactions involved.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
15:35

Problem 26

Synthesize each of the following compounds from diethyl malonate or ethyl acetoacetate and any other organic and inorganic reagents.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE
e.CAN'T COPY THE FIGURE
f.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
15:58

Problem 27

Outline a reaction sequence for synthesis of each of the following compounds from the indicated starting material and any other organic or inorganic reagents needed.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE
e.CAN'T COPY THE FIGURE
f.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
06:42

Problem 28

Linalool, a fragrant compound that can be isolated from a variety of plants, is 3,7-dimethyl-1,6-octadien-3-ol. Linalool is used in making perfumes, and it can be synthesized in the following way:
CAN'T COPY THE FIGURE
Outline the reactions involved. (Hint: Compound $\mathbf{F}$ is the more stable isomer capable of being produced in the first step.)

Zubair Abdulla
Zubair Abdulla
Numerade Educator
07:34

Problem 29

Compound $J$, a compound with two four-membered rings, has been synthesized by the following route. Outline the steps that are involved.
CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
09:05

Problem 30

The Wittig reaction (Section 16.10 ) can be used in the synthesis of aldehydes, for example,
CAN'T COPY THE FIGURE
(a) How would you prepare $\mathrm{CH}_{3} \mathrm{OCH}=\mathrm{P}\left(\mathrm{C}_{6} \mathrm{H}_{5}\right)_{3} ?$
(b) Show with a mechanism how the second reaction produces an aldehyde.
c.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
08:56

Problem 31

Aldehydes that have no $\alpha$ hydrogen undergo an intermolecular oxidation-reduction called the Cannizzaro reaction when they are treated with concentrated base. An example is the following reaction of benzaldehyde:
CAN'T COPY THE FIGURE
(a) When the reaction is carried out in $D_{2} O$, the benzyl alcohol that is isolated contains no deuterium bound to carbon. It is $\mathrm{C}_{6} \mathrm{H}_{5} \mathrm{CH}_{2} \mathrm{OD}$. What does this suggest about the mechanism for the reaction?
(b) When (CH $_{3}$ ) $\mathrm{CHCHO}$ and $\mathrm{Ba}(\mathrm{OH})_{2} / \mathrm{H}_{2} \mathrm{O}$ are heated in a sealed tube, the reaction produces only $\left(\mathrm{CH}_{3}\right)_{2} \mathrm{CHCH}_{2} \mathrm{OH}$ and $\left[\left(\mathrm{CH}_{3}\right)_{2} \mathrm{CHCO}_{2} \mathrm{l}_{2} \mathrm{Ba} .$ Provide an explanation for the formation of these products. \right.

Zubair Abdulla
Zubair Abdulla
Numerade Educator
03:31

Problem 32

Shown below is a synthesis of the elm bark beetle pheromone, multistriatin (see Problem 16.47). Give structures for compounds $A, B, C,$ and $D$.
CAN'T COPY THE FIGURE

Ronald Prasad
Ronald Prasad
Numerade Educator
06:39

Problem 33

(a) A compound $\mathbf{U}\left(\mathrm{C}_{9} \mathrm{H}_{10} \mathrm{O}\right)$ gives a negative iodoform test. The IR spectrum of $\mathbf{U}$ shows a strong absorption peak at $1690 \mathrm{cm}^{-1} .$ The $^{1} \mathrm{H}$ NMR spectrum of $\mathrm{U}$ gives the following data. What is the structure of $\mathrm{U} ?$
$$Triplet \quad \delta 1.2(3 \mathrm{H})$$
$$Quartet \quad \delta 3.0(2 \mathrm{H})$$
$$Multiplet \quad \delta 7.7(5 \mathrm{H})$$
(b) A compound $\mathbf{V}$ is an isomer of $\mathbf{U}$. Compound $\mathbf{V}$ gives a positive iodoform test; its IR spectrum shows a strong peak at $1705 \mathrm{cm}^{-1}$. The 'H NMR spectrum of V gives the following data. What is the structure of $\mathbf{V ?}$
$$Singlet\quad \delta 2.0(3 \mathrm{H})$$
$$Singlet\quad \delta 3.5(2 \mathrm{H})$$
$$Multiplet\quad \delta 7.1(5 \mathrm{H})$$

Zubair Abdulla
Zubair Abdulla
Numerade Educator
06:17

Problem 34

Compound A has the molecular formula $\mathrm{C}_{6} \mathrm{H}_{12} \mathrm{O}_{3}$ and shows a strong IR absorption peak at $1710 \mathrm{cm}^{-1}$. When treated with iodine in aqueous sodium hydroxide, A gives a yellow precipitate. When A is treated with Tollens' reagent $\left(\mathrm{Ag}\left(\mathrm{NH}_{3}\right)_{2}^{+} \mathrm{HO}^{-}$, a test for \right. an aldehyde or a group that can be hydrolyzed to an aldehyde, Sect. $16.13 \mathrm{B}$ ), no reaction occurs; however, if $\mathbf{A}$ is treated first with water containing a drop of sulfuric acid and then with Tollens' reagent, a silver mirror (positive Tollens' test) forms in the test tube. Compound A shows the following $1 \mathrm{H}$ NMR spectrum. Write a structure for $\mathbf{A}$.
$$Singlet\quad \delta 2.1$$
$$Doublet\quad \delta 2.6$$
$$Singlet\quad \delta 3.2(6 \mathrm{H})$$
$$Triplet\quad \delta 4.7$$

Zubair Abdulla
Zubair Abdulla
Numerade Educator
02:11

Problem 35

For each of the following questions, please provide a route that could reasonably be expected to convert the starting material into the final product. In each case, more than one reaction is required, and reactions you have learned in previous chapters may be needed to solve the problem.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Lottie Adams
Lottie Adams
Numerade Educator
02:29

Problem 36

For each of the following, identify the product (represented by $\mathbf{A}, \mathbf{B}, \mathbf{C}$, and $\mathbf{D}$ ) that would be formed through the indicated sequence of steps from the given starting material.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE
c.CAN'T COPY THE FIGURE
d.CAN'T COPY THE FIGURE

Lottie Adams
Lottie Adams
Numerade Educator
07:14

Problem 37

Working backwards, deduce the starting material that led to the indicated product through the defined reactions.
a.CAN'T COPY THE FIGURE
b.CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator
02:20

Problem 38

The following is an example of a reaction sequence developed by Derin C. D'Amico and Michael E. Jung (UCLA) that results in enantiospecific formation of two new chirality centers and a carbon-carbon bond. The sequence includes a Horner-Wadsworth-Emmons reaction (Section $16.10 \mathrm{B}$ ), a Sharpless asymmetric epoxidation (Section 11.13 ), and a novel rearrangement that ultimately leads to the product. Propose a mechanism for rearrangement of the epoxy alcohol under the conditions shown to form the aldol product. IHint. The rearrangement can also be accomplished by preparing a trialkylsilyl cther from the cpoxy alcohol in a separate reaction first and then treating the resulting silyl ether with a Lewis acid caralyst (e.g., $\mathrm{BF}_{3}$ ). $.$
CAN'T COPY THE FIGURE

Zubair Abdulla
Zubair Abdulla
Numerade Educator