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Chapter 20: Q42 (page 809)

Draw the products of each reduction reaction.

Short Answer

Expert verified

The products of each reduction reaction are shown below: -

Step by step solution

01

Metal hydrides

Metal hydrides such as ${NaBH}_{4} and {LiAIH}_{4}$ are powerful reducing agents that reduce an aldehyde into primary alcohol and a ketone into secondary alcohol.

${LiAIH}_{4}$ is more powerful than ${NaBH}_{4}$ . It can also reduce other powerful functional groups like carboxylic acid and its derivatives into alcohols.

In the case of $LiAIH {[OC {({CH}_{3})}_{3}]}_{3}$ , as the electron-withdrawing groups are attached with aluminum, the reducing nature gets decreased and the reaction occurs only at the aldehyde stage.

02

Function of metal hydrides

The functions of the metal hydrides are shown below:-

03

Mechanism of the reducing action of metal hydrides

The M-H is polar, and the hydride present in M-H acts as a nucleophile. As a result, it can readily attack the carbonyl carbon center to yield alcohol.

Representation of the mechanism of M-H

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Most popular questions from this chapter

Convert benzene into each compound. You may also use any inorganic reagents and organic alcohols having three carbons or fewer. One step of the synthesis must use a Grignard reagent.

Explain why the $β$ carbon of an , $α, β$ -unsaturated carbonyl compound absorbs farther downfield in the ${}^{13}C$ NMR spectrum than the a carbon, even though the $α$ carbon is closer to the electron-withdrawing carbonyl group. For example, the $β$ carbon of mesityl oxide absorbs at 150.5 ppm, while the carbon absorbs at 122.5 ppm.

Treatment of compound C (molecular formula $C_{4} H_{8} O$ ) with $C_{6} H_{5} MgBr$ , followed by H2O, affords compound D (molecular formula $C_{10} H_{14} O$ ). Compound D has a strong peak in its IR spectrum at 3600–3200 ${cm}^{- 1}$ . The $H^{1}$ NMR spectral data of C and D are given. What are the structures of C and D?Compound C signals at 1.3 (singlet, 6 H) and 2.4 (singlet, 2 H) ppm Compound D signals at 1.2 (singlet, 6 H), 1.6 (singlet, 1 H), 2.7 (singlet, 2 H), and 7.2 (multiplet, 5 H) ppm

An unknown compound A (molecular formula $C_{7} H_{14} O$ ) was treated with ${NaBH}_{4} in {CH}_{3} OH$ to form compound B (molecular formula $C_{7} H_{16} O$ ). Compound A has a strong absorption in its IR spectrum at 1716 ${cm}^{- 1}$ . Compound B has a strong absorption in its IR spectrum at 3600–3200 ${cm}^{- 1}$ . The ${}^{1}H$ NMR spectra of A and B are given. What are the structures of A and B?

Draw the product formed when ${({CH}_{3} {CH}_{2} {CH}_{2} {CH}_{2})}_{2} CuLi$ is treated with each compound. In some cases, no reaction occurs.

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