Get Ready for Organic Chemistry
Get Ready for Organic Chemistry
2nd Edition
ISBN: 9780321774125
Author: KARTY, Joel
Publisher: PEARSON
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Designing a Synthesis
Organic synthesis is a branch of chemical synthesis that involves the planned construction of organic compounds/molecules from smaller units that possess functional groups. Friedrich Wöhler was the first scientist who designed the synthesis of an organic…
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Chapter 20, Problem 20.49P
Interpretation Introduction

(a)

Interpretation:

How the given transformation can be carried out is to be explained.

Concept introduction:

An ester can be converted to a tertiary alcohol by reacting it with RLi (excess), then H3O+. The R is a nucleophile and adds to the carbonyl group of ester and reduces to ketone by elimination of methoxide ion. This ketone is further reduces to a tertiary alcohol, followed by protonation using H3O+.

Interpretation Introduction

(b)

Interpretation:

How the given transformation can be carried out is to be explained.

Concept introduction:

An acid chloride can be converted to the corresponding ketone by reacting it with a lithium dialkylcuprate (R2CuLi). The only one alkyl group from (R2CuLi) acts as a nucleophile, adds to the acid derivative, and then undergoes elimination of the chloride ion to produce the ketone.

Interpretation Introduction

(c)

Interpretation:

How the given transformation can be carried out is to be explained.

Concept introduction:

An acid chloride can be converted to a tertiary alcohol by reacting it with RMgBr (excess), then H+. RMgBr is the Grignard’s where R acts as a nucleophile and adds to the carbonyl group of acid chloride and reduces to ketone by elimination of chloride ion. This ketone is then reduced to a tertiary alcohol, followed by protonation using H+.

Interpretation Introduction

(d)

Interpretation:

How the given transformation can be carried out is to be explained.

Concept introduction:

An acid anhydride can be converted to a tertiary alcohol by reacting it with RMgBr (excess), then H+. RMgBr is the Grignard’s where R acts as a nucleophile, adds to carbonyl group of acid anhydride, and reduces to ketone. This ketone is then reduced to a tertiary alcohol, followed by protonation using H+.

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#1. Retro-Electrochemical Reaction: A ring has been made, but the light is causing the molecule to un- cyclize. Undo the ring into all possible molecules. (2pts, no partial credit) hv
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I have a question about this problem involving mechanisms and drawing curved arrows for acids and bases. I know we need to identify the nucleophile and electrophile, but are there different types of reactions? For instance, what about Grignard reagents and other types that I might not be familiar with? Can you help me with this? I want to identify the names of the mechanisms for problems 1-14, such as Gilman reagents and others. Are they all the same? Also, could you rewrite it so I can better understand? The handwriting is pretty cluttered. Additionally, I need to label the nucleophile and electrophile, but my main concern is whether those reactions differ, like the "Brønsted-Lowry acid-base mechanism, Lewis acid-base mechanism, acid-catalyzed mechanisms, acid-catalyzed reactions, base-catalyzed reactions, nucleophilic substitution mechanisms (SN1 and SN2), elimination reactions (E1 and E2), organometallic mechanisms, and so forth."

Chapter 20 Solutions

Get Ready for Organic Chemistry

Ch. 20 - Prob. 20.1PCh. 20 - Prob. 20.2PCh. 20 - Prob. 20.3PCh. 20 - Prob. 20.4PCh. 20 - Prob. 20.5PCh. 20 - Prob. 20.6PCh. 20 - Prob. 20.7PCh. 20 - Prob. 20.8PCh. 20 - Prob. 20.9PCh. 20 - Prob. 20.10P
Ch. 20 - Prob. 20.11PCh. 20 - Prob. 20.12PCh. 20 - Prob. 20.13PCh. 20 - Prob. 20.14PCh. 20 - Prob. 20.15PCh. 20 - Prob. 20.16PCh. 20 - Prob. 20.17PCh. 20 - Prob. 20.18PCh. 20 - Prob. 20.19PCh. 20 - Prob. 20.20PCh. 20 - Prob. 20.21PCh. 20 - Prob. 20.22PCh. 20 - Prob. 20.23PCh. 20 - Prob. 20.24PCh. 20 - Prob. 20.25PCh. 20 - Prob. 20.26PCh. 20 - Prob. 20.27PCh. 20 - Prob. 20.28PCh. 20 - Prob. 20.29PCh. 20 - Prob. 20.30PCh. 20 - Prob. 20.31PCh. 20 - Prob. 20.32PCh. 20 - Prob. 20.33PCh. 20 - Prob. 20.34PCh. 20 - Prob. 20.35PCh. 20 - Prob. 20.36PCh. 20 - Prob. 20.37PCh. 20 - Prob. 20.38PCh. 20 - Prob. 20.39PCh. 20 - Prob. 20.40PCh. 20 - Prob. 20.41PCh. 20 - Prob. 20.42PCh. 20 - Prob. 20.43PCh. 20 - Prob. 20.44PCh. 20 - Prob. 20.45PCh. 20 - Prob. 20.46PCh. 20 - Prob. 20.47PCh. 20 - Prob. 20.48PCh. 20 - Prob. 20.49PCh. 20 - Prob. 20.50PCh. 20 - Prob. 20.51PCh. 20 - Prob. 20.52PCh. 20 - Prob. 20.53PCh. 20 - Prob. 20.54PCh. 20 - Prob. 20.55PCh. 20 - Prob. 20.56PCh. 20 - Prob. 20.57PCh. 20 - Prob. 20.58PCh. 20 - Prob. 20.59PCh. 20 - Prob. 20.60PCh. 20 - Prob. 20.61PCh. 20 - Prob. 20.62PCh. 20 - Prob. 20.63PCh. 20 - Prob. 20.64PCh. 20 - Prob. 20.65PCh. 20 - Prob. 20.66PCh. 20 - Prob. 20.67PCh. 20 - Prob. 20.68PCh. 20 - Prob. 20.69PCh. 20 - Prob. 20.70PCh. 20 - Prob. 20.71PCh. 20 - Prob. 20.1YTCh. 20 - Prob. 20.2YTCh. 20 - Prob. 20.3YTCh. 20 - Prob. 20.4YTCh. 20 - Prob. 20.5YTCh. 20 - Prob. 20.6YTCh. 20 - Prob. 20.7YTCh. 20 - Prob. 20.8YTCh. 20 - Prob. 20.9YTCh. 20 - Prob. 20.10YTCh. 20 - Prob. 20.11YTCh. 20 - Prob. 20.12YTCh. 20 - Prob. 20.13YT
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How to Design a Total Synthesis; Author: Chemistry Unleashed;https://www.youtube.com/watch?v=9jRfAJJO7mM;License: Standard YouTube License, CC-BY