Textbook Question
What diene and what dienophile should be used to synthesize the following?
e.
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Ch. 8 - Delocalized Electrons: Their Effect on Stability, pKa, and the Products of a Reaction • Aromaticity and Electronic Effects: An Introduction to the Reactions of Benzene
Bruice8th EditionOrganic ChemistryISBN: 9780135213711
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Table of contents
- Ch. 1 - Remembering General Chemistry: Electronic Structure and Bonding (Part 1)31
- Ch. 1 - Remembering General Chemistry: Electronic Structure and Bonding (Part 2)65
- Ch. 2 - Acids and Bases: Central to Understanding Organic Chemistry84
- Ch. 3 - An Introduction to Organic Compounds:Nomenclature, Physical Properties, and Structure183
- Ch. 4 - Isomers: The Arrangement of Atoms in Space121
- Ch. 5 - Alkenes: Structure, Nomenclature, and an Introduction to Reactivity • Thermodynamics and Kinetics83
- Ch. 6 - The Reactions of Alkenes • The Stereochemistry of Addition Reactions175
- Ch. 7 - The Reactions of Alkynes • An Introduction to Multistep Synthesis119
- Ch. 8 - Delocalized Electrons: Their Effect on Stability, pKa, and the Products of a Reaction • Aromaticity and Electronic Effects: An Introduction to the Reactions of Benzene148
- Ch. 9 - Substitution and Elimination Reactions of Alkyl Halides212
- Ch. 10 - Reactions of Alcohols, Ethers, Epoxides, Amines, and Sulfur-Containing Compounds131
- Ch. 11 - Organometallic Compounds60
- Ch. 12 - Radicals90
- Ch. 13 - Mass Spectrometry; Infrared Spectroscopy; UV/Vis Spectroscopy62
- Ch. 14 - NMR Spectroscopy95
- Ch. 15 - Reactions of Carboxylic Acids and Carboxylic Acid Derivatives123
- Ch. 16 - Reactions of Aldehydes and Ketones • More Reactions of Carboxylic Acid Derivatives141
- Ch. 17 - Reactions at the Alpha-Carbon101
- Ch. 18 - Reactions of Benzene and Substituted Benzenes144
- Ch. 19 - More About Amines • Reactions of Heterocyclic Compounds49
- Ch. 20 - The Organic Chemistry of Carbohydrates80
- Ch. 21 - Amino Acids, Peptides, and Proteins57
- Ch. 22 - Catalysis in Organic Reactions and in Enzymatic Reactions35
- Ch. 23 - The Organic Chemistry of the Coenzymes—Compounds Derived from Vitamins1
- Ch. 28 - Pericyclic Reactions58
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Bruice 8th EditionCh. 8 - Delocalized Electrons: Their Effect on Stability, pKa, and the Products of a Reaction • Aromaticity and Electronic Effects: An Introduction to the Reactions of BenzeneProblem 46a
Bruice 8th EditionCh. 8 - Delocalized Electrons: Their Effect on Stability, pKa, and the Products of a Reaction • Aromaticity and Electronic Effects: An Introduction to the Reactions of BenzeneProblem 46aChapter 9, Problem 46a
Explain why the following compounds are not optically active:
a. the product obtained from the reaction of 1,3-butadiene with cis-1,2-dichloroethene
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Identify the type of reaction occurring between 1,3-butadiene and cis-1,2-dichloroethene. This is a Diels-Alder reaction, which is a [4+2] cycloaddition reaction where a conjugated diene (1,3-butadiene) reacts with a dienophile (cis-1,2-dichloroethene) to form a cyclic product.
Analyze the stereochemistry of the reactants. Cis-1,2-dichloroethene has a plane of symmetry due to the cis arrangement of the chlorine atoms, making it achiral. 1,3-butadiene is also achiral because it is a planar molecule with no stereogenic centers.
Determine the stereochemistry of the product. The Diels-Alder reaction is stereospecific, meaning the stereochemistry of the dienophile (cis-1,2-dichloroethene) is preserved in the product. The product will have the substituents (chlorine atoms) on the same side of the newly formed six-membered ring, resulting in a meso compound.
Explain why the product is not optically active. A meso compound has an internal plane of symmetry, which makes it achiral even though it contains stereogenic centers. The presence of this symmetry prevents the compound from rotating plane-polarized light, rendering it optically inactive.
Conclude that the lack of optical activity in the product is due to the formation of a meso compound, which arises from the stereospecific nature of the Diels-Alder reaction and the symmetry of the reactants.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Optical Activity
Optical activity refers to the ability of a chiral compound to rotate the plane of polarized light. A compound is considered optically active if it lacks an internal plane of symmetry and has a non-superimposable mirror image. This property is crucial for distinguishing between enantiomers, which are pairs of chiral molecules that are mirror images of each other.
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Chirality and Symmetry
Chirality is a geometric property of some molecules that makes them non-superimposable on their mirror images. A molecule is chiral if it has at least one carbon atom bonded to four different substituents, leading to two distinct enantiomers. Conversely, if a molecule has an internal plane of symmetry, it is achiral and cannot exhibit optical activity.
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Reaction Products and Stereochemistry
The stereochemistry of reaction products is essential in determining their optical activity. In the case of the reaction between 1,3-butadiene and cis-1,2-dichloroethene, the resulting product may have a symmetrical structure that leads to the cancellation of optical activity. Understanding the spatial arrangement of atoms in the product helps in assessing whether it is chiral or achiral.
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Related Practice
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What are the products of the following reactions?
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What diene and what dienophile should be used to synthesize the following?
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What two products are formed from each of the following reactions?
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Textbook Question
Explain why the following compounds are not optically active:
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What are the products of the following reactions?
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