a) 2-cyclohexanone
Interpretation:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with 2-cyclohexanone (α, β- unsaturated acceptor) is to be given.
Concept introduction:
Michael reaction involves the conjugate addition of a stable enolate ion derived from a β-ketoesters or β- diketones or β- ketonitriles or malonic esters (donors) to an unhindered α,β- unsaturated
To give:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with 2-cyclohexanone (α, β- unsaturated acceptor).
b) Propenenitrile
Interpretation:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with propenenitrile (α, β- unsaturated acceptor) is to be given.
Concept introduction:
Michael reaction involves the conjugate addition of a stable enolate ion derived from a β-ketoesters or β- diketones or β- ketonitriles or malonic esters (donors) to an unhindered α,β- unsaturated ketones or aldehydes or esters or thioesters or nitriles or amides or nitro compounds (acceptors). The enolate ion from the donor attacks the double bond in acceptor. A new bond is formed between the α-carbon of the donor and the β- carbon of the unsaturated ester.
To give:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with propenenitrile (α, β- unsaturated acceptor).
c) Ethyl-2-butenoate
Interpretation:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with ethyl-2-butenoate (α, β- unsaturated acceptor) is to be given.
Concept introduction:
Michael reaction involves the conjugate addition of a stable enolate ion derived from a β-ketoesters or β- diketones or β- ketonitriles or malonic esters (donors) to an unhindered α,β- unsaturated ketones or aldehydes or esters or thioesters or nitriles or amides or nitro compounds (acceptors). The enolate ion from the donor attacks the double bond in acceptor. A new bond is formed between the α-carbon of the donor and the β- carbon of the unsaturated ester.
To give:
The product obtained in the base catalyzed Michael reaction of 2, 4-pentanedione with ethyl-2-butenoate (α, β- unsaturated acceptor).
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Chapter 23 Solutions
EP ORGANIC CHEMISTRY,24 MONTH-OWLV2
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- Select the stronger base from each pair of compounds. (a) H₂CNH₂ or EtzN (b) CI or NH2 NH2 (c) .Q or EtzN (d) or (e) N or (f) H or Harrow_forward4. Provide a clear arrow-pushing mechanism for each of the following reactions. Do not skip proton transfers, do not combine steps, and make sure your arrows are clear enough to be interpreted without ambiguity. a. 2. 1. LDA 3. H3O+ HOarrow_forwardb. H3C CH3 H3O+ ✓ H OHarrow_forward
- 2. Provide reagents/conditions to accomplish the following syntheses. More than one step is required in some cases. a. CH3arrow_forwardIdentify and provide an explanation that distinguishes a qualitative and quantitative chemical analysis. Provide examples.arrow_forwardIdentify and provide an explanation of the operational principles behind a Atomic Absorption Spectrometer (AAS). List the steps involved.arrow_forward
- Instructions: Complete the questions in the space provided. Show all your work 1. You are trying to determine the rate law expression for a reaction that you are completing at 25°C. You measure the initial reaction rate and the starting concentrations of the reactions for 4 trials. BrO³¯ (aq) + 5Br¯ (aq) + 6H* (aq) → 3Br₂ (l) + 3H2O (l) Initial rate Trial [BrO3] [H*] [Br] (mol/L) (mol/L) | (mol/L) (mol/L.s) 1 0.10 0.10 0.10 8.0 2 0.20 0.10 0.10 16 3 0.10 0.20 0.10 16 4 0.10 0.10 0.20 32 a. Based on the above data what is the rate law expression? b. Solve for the value of k (make sure to include proper units) 2. The proposed reaction mechanism is as follows: i. ii. BrО¸¯ (aq) + H+ (aq) → HBrO3 (aq) HBrO³ (aq) + H* (aq) → H₂BrO3* (aq) iii. H₂BrO³* (aq) + Br¯ (aq) → Br₂O₂ (aq) + H2O (l) [Fast] [Medium] [Slow] iv. Br₂O₂ (aq) + 4H*(aq) + 4Br(aq) → 3Br₂ (l) + H2O (l) [Fast] Evaluate the validity of this proposed reaction. Justify your answer.arrow_forwardе. Д CH3 D*, D20arrow_forwardC. NaOMe, Br Brarrow_forward
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