Concept explainers
(a)
Interpretation:
The reaction with detailed mechanism for the formation of the given compound from the corresponding
Concept introduction:
The electrophilic addition reaction of an alkene occurs through formation of a more stable carbocation. The electrophilic addition of water across the double bond in an acidic condition produces the alcohol product. The reaction proceeds with proton transfer reaction to form a stable carbocation, followed by the action of water as a nucleophile.
Answer to Problem 11.33P
The reaction equation and the detailed mechanism for the formation of
Explanation of Solution
The structure for the given compound
To form the given alcohol by electrophilic addition of water, the double bond must be between the carbon where the
The reaction occurs in acidic condition. Thus the first step is the formation of a secondary carbocation by proton transfer reaction. The proton transfers to the less substituted carbon, forming a more stable carbocation.
In the second step, the water molecule acts as a nucleophile and attacks the carbocation, forming the desired product, followed by deprotonation of the positively charged oxygen.
The reaction equation and detailed mechanism are drawn for the formation of
(b)
Interpretation:
The reaction with detailed mechanism for the formation of the given compound from the corresponding alkene by single electrophilic addition reaction is to be drawn.
Concept introduction:
The electrophilic addition reaction of an alkene occurs through formation of a more stable carbocation. The electrophilic addition of water across the double bond in an acidic condition produces the alcohol product. The reaction proceeds with proton transfer reaction to form a stable carbocation, followed by the action of water as a nucleophile.
Answer to Problem 11.33P
The reaction equation and the detailed mechanism for the formation of
Explanation of Solution
The structure for the given compound
To form the given alcohol by electrophilic addition of water, the double bond must be between the carbon where the
The reaction occurs in acidic condition. Thus the first step is the formation of a tertiary carbocation by proton transfer reaction. The proton transfers to the less substituted carbon, forming a more stable carbocation.
In the second step, the water molecule acts as a nucleophile and attacks the carbocation, forming the desired product, followed by deprotonation of the positively charged oxygen.
The reaction equation and detailed mechanism are drawn for the formation of
(c)
Interpretation:
The reaction with detailed mechanism for the formation of the given compound from the corresponding alkene by single electrophilic addition reaction is to be drawn.
Concept introduction:
The electrophilic addition reaction of an alkene occurs through formation of a more stable carbocation. The electrophilic addition of water across the double bond in an acidic condition produces the alcohol product. The reaction proceeds with proton transfer reaction to form a stable carbocation, followed by the action of water as a nucleophile.
Answer to Problem 11.33P
The reaction equation and the detailed mechanism for the formation of
Explanation of Solution
The structure for the given compound
To form the given ether by electrophilic addition of alcohol, the double bond must be between the carbon where the
The reaction occurs in acidic condition. Thus the first step is the formation of a tertiary carbocation by proton transfer reaction. The proton transfers to the less substituted carbon, forming a more stable carbocation.
In the second step, the methanol molecule acts as a nucleophile and attacks the carbocation, forming the desired product, followed by deprotonation of the positively charged oxygen.
The reaction equation and detailed mechanism are drawn for the formation of
(d)
Interpretation:
The reaction with detailed mechanism for the formation of the given compound from the corresponding alkene by single electrophilic addition reaction is to be drawn.
Concept introduction:
The electrophilic addition reaction of an alkene occurs through formation of a more stable carbocation. The electrophilic addition of water across the double bond in an acidic condition produces the alcohol product. The reaction proceeds with proton transfer reaction to form a stable carbocation, followed by the action of water as a nucleophile.
Answer to Problem 11.33P
The reaction equation and the detailed mechanism for the formation of (cyclopentyldimethoxymethyl) benzene from alkene are
Explanation of Solution
The structure for the given compound (cyclopentyldimethoxymethyl) benzene is
To form the given ether by single electrophilic addition of alcohol, the double bond must be between the carbon where the
The reaction occurs in acidic condition. Thus the first step is the formation of a tertiary carbocation by proton transfer reaction. The proton transfers to the less substituted carbon, forming a more stable carbocation.
In the second step, the methanol molecule acts as a nucleophile and attacks the carbocation, forming the desired product, followed by deprotonation of the positively charged oxygen.
The reaction equation and detailed mechanism are drawn for the formation of (cyclopentyldimethoxymethyl) benzene by identifying the corresponding alkene.
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Chapter 11 Solutions
EBK GET READY FOR ORGANIC CHEMISTRY
- Draw the structure for each of the following molecules. (a) 1,3-divinylcyclohexane; (b) 3-allyl-4-vinylcyclopentene;(c) dimethylacetylene; (d) divinyl ether; (e) 4-vinylocta-1,3,7-triene; (f) 2-allylcyclohexa-1,3-dienearrow_forwardDraw the structure of each of the following molecules. (a) (R)-3-chloropent-1-ene; (b) (2S,3S)-2-bromo-3-chloropentane; (c) (R)-1-bromo-(R)-2-iodocyclopentane; (d) (S)-3-chlorocyclohexene; (e) (1R,2S)-1,2-dibromocyclopentanearrow_forwardPredict the product for the reaction between m-ethylbenzoyl chloride and each of the following. Draw the complete, detailed mechanism for each reaction. If no reaction is expected to occur, write “no reaction." (a) NaOH, then H30*; (b) CH3NHLI; (c) CH;CH,OK; (d) C6H5CO,K; (e) CH3CI; (f) CH;OCH3 `CI m-Ethylbenzoyl chloridearrow_forward
- Reaction of this bicycloalkene with bromine in carbon tetrachloride gives a trans dibromide. In both (a) and (b), the bromine atoms are trans to each other. However, only one of these products is formed. Which trans dibromide is formed? How do you account for the fact that it is formed to the exclusion of the other trans dibromide?arrow_forwardDraw the structure of each molecule. (a) (E)-4-carbamoylbut-3-enoic acid; (b) 3-carbamoylpentanediamide; (c) 4,6-dioxohexanenitrile; (d) (1S,2S)-2-methoxycyclopent-3-ene-1-carbonitrile; (e) cyclohexa-3,6-diene-1,3-dicarboxylic acidarrow_forwardConsider the reaction scheme shown below. HCI [1] ОН (a) Provide a detailed mechanism for reaction [1].arrow_forward
- Please explain, thank you! Each of the following compounds can be produced from an alkene, using a single electrophillic addition reaction. Write that reaction and draw its complete, detailed mechanism. (a) pentan-2-ol (b) 3-methylpentan-3-ol (c) 1-methoxy-1,4-dimethylcyclohexane (d)(cyclopentyldimethoxymethyl)benzenearrow_forwardFor each of the following reactions, draw a complete, detailed mechanism and predict the major organic products. (a) 2-Methylbut-2-ene Br2 ? CCI4 (b) 2-Methylbut-2-ene ? H2O Br2 (c) Неха-1,5-diene Cl2 (excess) ? CCI4 (d) 3-Ethylpent-1-yne Br2 (excess) ? CCI4arrow_forwardThe following isomers react separately with sodium hydroxide to give different products with the formulas shown. HO. .CI Но NaOH NaOH C3H1,02 (a) Draw the structure of each product. (b) Draw the mechanism that accounts for the formation of each of those products. (c) Explain why the isomeric reactants lead to different products.arrow_forward
- Complete the following reactions, clearly indicating regio-and stereochemistry where applicable. In cases, where ortho-and para-products are formed, draw both.arrow_forwardPredict the product for the reaction between methyl benzoate and each of the following. If no reaction is expected to occur, write “no reaction.” For those reactions that do occur, draw the complete, detailed mechanism. (a) LiAlH4, then H3O+; (b) CH3CH2CH2Li (excess), then H3O+; (c) (CH3CH2)2CuLi; (d) C6H5MgBr (excess), then H+; (e) DIBAH, then H3O+arrow_forwardFor each of the following pairs of species, which is the stronger nucleophile in ethanol? Explain. (a) H3C-OH or H,C-o° (b) H3C-OH or H;C-NH, (c) or (d) (е) CH3S` CH3SE (f) CH;Se or or Brarrow_forward
- Organic ChemistryChemistryISBN:9781305580350Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. FootePublisher:Cengage Learning