Organic Chemistry
9th Edition
ISBN: 9781305080485
Author: John E. McMurry
Publisher: Cengage Learning
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Chapter 22.7, Problem 12P
Why do you suppose
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Write the complete mechanism for the hydroxide ion catalyze reaction of cyclohexanone and 1-methylcyclohexanecarbaldehyde
Alcohols are acidic in nature. Therefore, a strong base can
abstract the acidic hydrogen atom of the alcohol in a process
known as deprotonation. The alcohol forms an alkoxide ion by
losing the proton attached to the oxygen atom of the hydroxyl (
-OH) group. The alkoxide formed can act as a base or a
nucleophile depending on the substrate and reaction conditions.
However, not all bases can abstract the acidic proton of alcohols
and not all alcohols easily lose the proton. Deprotonation
depends on the strength of the base and the acidity of the
alcohol. Strong bases, such as NaNH2, can easily abstract a
proton from almost all alcohols. Likewise, more acidic alcohols
lose a proton more easily.
Determine which of the following reactions would undergo deprotonation based on the strength of the base and the acidity of the alcohol.
Check all that apply.
► View Available Hint(s)
CH3CH,OH + NH3 →CH,CH,O-NH
CH3
CH3
H3C-C-H+NH3 → H3 C-C-H
OH
O-NH
CH3CH2OH + NaNH, → CH3CH,O-Na* + NH3
CHC12
Cl₂…
Imagine that phenol (“hydroxybenzene”) and nitrobenzene are reacted (in separate beakers) with a hot solution containing both concentrated sulfuric acid and concentrated nitric acid.
A) In analyzing the products, you discover that the substitution pattern resulting from the reaction with phenol differs from the reaction with nitrobenzene. Explain this difference in substitution patterns using one or more judiciously selected reaction mechanisms or portions of mechanisms.
Chapter 22 Solutions
Organic Chemistry
Ch. 22.1 - Prob. 1PCh. 22.1 - How many acidic hydrogens does each of the...Ch. 22.1 - Prob. 3PCh. 22.3 - Write the complete mechanism for the deuteration...Ch. 22.3 - Prob. 5PCh. 22.4 - If methanol rather than water is added at the end...Ch. 22.5 - Prob. 7PCh. 22.5 - Draw a resonance structure of the acetonitrile...Ch. 22.6 - If methanol rather than water is added at the end...Ch. 22.7 - Prob. 10P
Ch. 22.7 - Draw a resonance structure of the acetonitrile...Ch. 22.7 - Why do you suppose ketone halogenations in acidic...Ch. 22.7 - Prob. 13PCh. 22.7 - Prob. 14PCh. 22.7 - Prob. 15PCh. 22.7 - Prob. 16PCh. 22.SE - Prob. 17VCCh. 22.SE - Prob. 18VCCh. 22.SE - Prob. 19VCCh. 22.SE - Prob. 20MPCh. 22.SE - Predict the product(s) and provide the mechanism...Ch. 22.SE - Predict the product(s) and provide the mechanism...Ch. 22.SE - Prob. 23MPCh. 22.SE - In the Hell–Volhard–Zelinskii reaction, only a...Ch. 22.SE - Prob. 25MPCh. 22.SE - Nonconjugated , -unsaturated ketones, such as...Ch. 22.SE - Prob. 27MPCh. 22.SE - Using curved arrows, propose a mechanism for the...Ch. 22.SE - Prob. 29MPCh. 22.SE - One of the later steps in glucose biosynthesis is...Ch. 22.SE - The Favorskii reaction involves treatment of an...Ch. 22.SE - Treatment of a cyclic ketone with diazomethane is...Ch. 22.SE - Prob. 33MPCh. 22.SE - Amino acids can be prepared by reaction of alkyl...Ch. 22.SE - Amino acids can also be prepared by a two-step...Ch. 22.SE - Heating carvone with aqueous sulfuric acid...Ch. 22.SE - Identify all the acidic hydrogens (pKa 25) in the...Ch. 22.SE - Rank the following compounds in order of...Ch. 22.SE - Prob. 39APCh. 22.SE - Base treatment of the following , -unsaturated...Ch. 22.SE - Prob. 41APCh. 22.SE - Prob. 42APCh. 22.SE - Prob. 43APCh. 22.SE - Which, if any, of the following compounds can be...Ch. 22.SE - Prob. 45APCh. 22.SE - Prob. 46APCh. 22.SE - Prob. 47APCh. 22.SE - How might you convert geraniol into either ethyl...Ch. 22.SE - Prob. 49APCh. 22.SE - One way to determine the number of acidic...Ch. 22.SE - Prob. 51APCh. 22.SE - Prob. 52APCh. 22.SE - Prob. 53APCh. 22.SE - Prob. 54APCh. 22.SE - Prob. 55APCh. 22.SE - Prob. 56APCh. 22.SE - All attempts to isolate primary and secondary...Ch. 22.SE - How would you synthesize the following compounds...Ch. 22.SE - Prob. 59APCh. 22.SE - Prob. 60APCh. 22.SE - Prob. 61APCh. 22.SE - Prob. 62APCh. 22.SE - As far back as the 16th century, South American...Ch. 22.SE - The key step in a reported laboratory synthesis of...Ch. 22.SE - Prob. 65AP
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- Write the product formed as a result of the following reaction with its mechanism.arrow_forwardWrite the product formed as a result of the following reaction with its mechanism.arrow_forwardComplete the mechanism for the formation of the major species at equilibrium for the reaction of butanal in methanol solvent and catalytic aqueous acid. Make sure to include any missing atoms, bonds, charges, nonbonding electrons, and curved arrows.arrow_forward
- A problem often encountered in the oxidation of primary alcohols to acids is that esters are sometimes produced as by-products. For example, oxidation of ethanol yields acetic acid and ethyl acetate: Propose a mechanism to account for the formation of ethyl acetate. Take into account the reversible reaction between aldehydes and alcohols:arrow_forward(b) The activating and deactivating groups could affect the position(s) of the next incoming group(s) to the benzene ring. Based on the structure below, analyze and explain the group(s) on the benzene ring is activating or deactivating group. Then, identify the product(s) formed from the following reactions. NH, CC, CH;CH,COCI AICI, (i) NH, HNO, H,SO, (ii) H Br AICI, (iii) Page 3 of 4arrow_forwardWhen the three benzaldehydes shown below were exposed to HCN under identical conditions it was found that the equilibrium constants, K, for the three cyanohydrin formation reactions were different. Based on principles that govern equilibrium processes for reversible carbonyl addition reactions, place the K values for the three reactions in ascending order (smallest to largest). Briefly justify your answer. (Hint: Recall that electron deficient carbonyls tend to react faster with nucleophiles and have larger equilibrium constants for the addition reaction.) H X O + HCN pH ~ 9-10 X = H, NO₂, OCH 3 OH H+CN Xarrow_forward
- Consider the attached SN2 reaction. Question: What happens to the reaction rate in each of the following instances? [1] The leaving group is changed from Br− to I−; [2] The solvent is changed from acetone to CH3CH2OH; [3] The alkyl halide is changed from CH3(CH2)4Br to CH3CH2CH2CH(Br)CH3; [4] The concentration of −CN is increased by a factor of five; and [5] The concentrations of both the alkyl halide and −CN are increased by a factor of fivearrow_forwardHelp ASAP Illustrate the resonance effect of the methoxy group -OCH3, on the structure of the benzene ring. Do this by writing all the possible resonance forms for methoxybenzene, including the hybrid. Based on your structures, explain how the presence of the -OCH3 group affects: (i) the reactivity of the benzene ring towards electrophilic attack; (ii) the orientation or point of attack of an incoming electrophilic reagent on the benzene ring.arrow_forwardIn the acid-catalyzed dehydration of 2-methyl-1-propanol, what carbocation would be formed if a hydride shift accompanied cleavage of the carbon–oxygen bond in the alkyloxonium ion? What ion would be formed as a result of a methyl shift? Which pathway do you think will predominate, a hydride shift or a methyl shift?arrow_forward
- Complete the mechanism for these Lewis acid-base reactions. Draw mechanistic arrows and partial charges where appropriate. Reaction A: CH₂NH₂ + HCl = 3 Reaction B: CH₂NH₂ + H₂O = 3 Reaction C: CH₂NH¯ + H₂O = 3 + Reaction D: CH₂NH 3 + H₂O 2 When each of these reactions has come to an equilibrium (where the relative amounts of each chemical species remains unchanged but the forward and reverse reactions are still occurring), predict whether each reaction will have more reactant or more product. Explain your predictions using your knowledge of atomic and molecular structures and electronegativity.arrow_forwardAcyl transfer (nucleophilic substitution at carbonyl) reactions proceed in two stages via a "tetrahedral intermediate." Draw the tetrahedral intermediate as it is first formed in the following reaction. CI + H₂N • You do not have to consider stereochemistry. • Include all valence lone pairs in your answer. OH • Do not include counter-ions, e.g., Na+, I¯, in your answer. • In cases where there is more than one answer, just draw one.arrow_forwardwas reading the organic chemical literature and was surprised to read that this structure reacts with good Lewis/attacker nucleophiles rapidly by the SN1 pathway. Why was Prof. surprised by these data? Explain these data using your knowledge of SN1 pathways. Prof. Me xo Me Me OTSarrow_forward
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