Concept explainers
(a)
Interpretation:
A mechanism has to be proposed for the formation of the protected
Concept introduction:
Hydrolysis is a chemical process in which a molecule is cleaved into two parts by the addition of a molecule of water. If the reaction is carried out with the help of an acid it is said to be an acid catalyzed hydrolysis.
Mechanism of the reaction is the step-by-step description of the process by which reactants are changed into products.
Curved arrows show the bonds that are formed and the bonds that are broken in a reaction.
Curved arrows used to understand a reaction mechanism.
Electrophile: It is positively charged species which seeks for negative charge and hence accepts pair of electrons from negatively charged species (Nucleophiles) which results in the formation of
Nucleophile: It is negatively charged species which seeks for positive charge and hence donate pair of electrons to positively charged species (electrophiles) which results in the formation of chemical bond.
(b)
Interpretation: An experimental procedure has to be suggested whereby the protecting group in the reaction can be removed to regenerate the unprotected diol.
Concept introduction:
Hydrolysis is a chemical process in which a molecule is cleaved into two parts by the addition of a molecule of water. If the reaction is carried out with the help of an acid it is said to be an acid catalyzed hydrolysis.
Mechanism of the reaction is the step-by-step description of the process by which reactants are changed into products.
Curved arrows show the bonds that are formed and the bonds that are broken in a reaction.
Curved arrows used to understand a reaction mechanism.
Electrophile: It is positively charged species which seeks for negative charge and hence accepts pair of electrons from negatively charged species (Nucleophiles) which results in the formation of chemical bond.
Nucleophile: It is negatively charged species which seeks for positive charge and hence donate pair of electrons to positively charged species (electrophiles) which results in the formation of chemical bond.
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Chapter 16 Solutions
OWL V2 with MindTap Reader and Student Solutions Manual eBook for Brown/Iverson/Anslyn/Foote's Organic Chemistry, 8th Edition
- 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_forwardThe following questions concern ethyl (2-oxocyclohexane)carboxylate.(a) Write a chemical equation showing how you could prepare ethyl (2-oxocyclohexane)-carboxylate by a Dieckmann cyclization.(b) Write a chemical equation showing how you could prepare ethyl (2-oxocyclohexane)-carboxylate by acylation of a ketone.(c) Write structural formulas for the two most stable enol forms of ethyl (2-oxocyclohexane)carboxylate.(d) Write the three most stable resonance contributors to the most stable enolate derived from ethyl (2-oxocyclohexane)carboxylate.(e) Show how you could use ethyl (2-oxocyclohexane)carboxylate to prepare 2-methylcyclohexanone.(f) Give the structure of the product formed on treatment of ethyl (2-oxocyclohexane)-carboxylate with acrolein (H2C=CHCH=O) in ethanol in the presence of sodium ethoxidearrow_forwardA synthetic organic molecule, G, which contains both aldehyde and ether functional groups, is subjected to a series of reactions in a multi-step synthesis pathway. In the first step, G undergoes a Wittig reaction, leading to the formation of an alkene, H. Subsequently, H is treated with an ozone (O3) reagent followed by a reducing agent in an ozonolysis reaction, resulting in the formation of two different products, I and J. Considering the functional groups present in G and the nature of the reactions involved, what are the most probable structures or functional groups present in products I and J? A. I contains a carboxylic acid group, and J contains an aldehyde group. B. I contains a ketone group, and J contains an alcohol group. C. I and J both contain aldehyde groups. D. I contains an ester group, and J contains a ketone group. Don't use chat gpt.arrow_forward
- (c) Draw the structure of the hemi-acetal and acetal formed when cyclohexanone is combined with methanol in the presence of catalytic acid.arrow_forwardShow how you would synthesize octanal from each compound. You may use any necessary reagents.(a) octan-1-olarrow_forwardSuggest possible synthetic route for following transformations. Show the reagents, intermediates and products.arrow_forward
- Provide the reagents needed to bring about the following transformations.arrow_forwardBenzoic acid, Ph-COOH (C6H5CO2H), is not soluble in water while it dissolves in ether (diethyl ether), (CH3CH2)2O. Yet upon treatment with sodium hydroxide, benzoic acid turns hydrophilic and dissolves in water. Provide chemical explanation of this observation.arrow_forwardc) An alkyl halide E, C5H11B1 undergoes hydrolysis to form an alcohol F, C5H120. Alcohol F becomes cloudy immediately when reacted with a Lucas reagent. (i) (ii) Deduce the structures of E and F. State the type of reaction and propose the mechanism for the conversion of E to F. d) Draw the structure of the product formed when 2-bromopropane reacts with the following reagents respectively, (i) (ii) potassium cyanide ethoxide ionarrow_forward
- The (R)-isomer of a-terpineol is a component of perfumes and flavorings and has a lilac-like floral odor. The (S)-isomer has a pine-like odor. Propose two methods of producing a-terpineol using Grignard reactions. [Ignore stereochemistry in your synthesises.]arrow_forwardWhich of the following statements is correct? A) The haloform reaction proceeds under very difficult conditions and the yield is very low. B) The haloform reaction is used only for the identification of compounds containing secondary alcohol groups. C) Methyl ketones or alcohols are oxidized with halogens in acidic solutions to give carboxylic acids and the appropriate haloform product. D) Enolate anions react rapidly with halogens to give alpha-halocarbonyl compounds.arrow_forwardGive TWO reagents to distinguish cyclohexanone from hexanal.arrow_forward
- Organic ChemistryChemistryISBN:9781305580350Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. FootePublisher:Cengage Learning