Textbook Question
Predict the product of the Claisen reactions shown.
(b)
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Ch. 22 - Conjugated Systems II: Pericyclic Reactions
Mullins1st EditionOrganic Chemistry: A Learner Centered ApproachISBN: 9780137566471
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Table of contents
- Ch. 2 - General Chemistry Translated: Finding the Electrons114
- Ch. 3 - Alkanes and Cycloalkanes: Properties and Conformational Analysis109
- Ch. 4 - Acids and Bases: Electron Flow144
- Ch. 5 - Chemical Reaction Analysis: Thermodynamics and Kinetics118
- Ch. 6 - Stereoisomerism: Arrangement of Atoms in Space112
- Ch. 7 - Principles of Green (Organic) Chemistry3
- Ch. 8 - Alkenes I: Properties and Electrophilic Additions158
- Ch. 9 - Alkenes II: Oxidation and Reduction150
- Ch. 10 - Alkynes: Electrophilic Addition and Redox Reactions101
- Ch. 11 - Properties and Synthesis of Alkyl Halides: Radical Reactions108
- Ch. 12 - Substitution and Elimination: Reactions of Haloalkanes172
- Ch. 13 - Alcohols, Ethers and Related Compounds: Substitution and Elimination239
- Ch. 14 - Structural Identification I: Infrared Spectroscopy and Mass Spectrometry54
- Ch. 15 - Structural Identification II: Nuclear Magnetic Resonance Spectroscopy93
- Ch. 16 - Metals in Organic Chemistry48
- Ch. 17 - Carbonyl Addition Reactions: Aldehydes and Ketones45
- Ch. 18 - Nucleophilic Acyl Substitution I: Carboxylic Acids18
- Ch. 19 - Nucleophilic Acyl Substitution II: Carboxylic Acid Derivatives39
- Ch. 20 - Enolates: Carbonyl Addition and Substitution13
- Ch. 21 - Conjugated Systems I: Stability and Addition Reactions56
- Ch. 22 - Conjugated Systems II: Pericyclic Reactions54
- Ch. 23 - Benzene I: Aromatic Stability and Substitution Reactions64
- Ch. 24 - Benzene II: Reactions Influenced by the Aromatic Ring62
- Ch. 25 - Amines: Structure, Reactions, and Synthesis27
- Ch. 26 - Amino Acids, Proteins, and Peptide Synthesis9
- Ch. 27 - Carbohydrates, Nucleic Acids, and Lipids54
Mullins1st EditionOrganic Chemistry: A Learner Centered ApproachISBN: 9780137566471Not the one you use?Change textbook
Chapter 21, Problem 43a
Predict the product of the following reactions. [When all of the reactions from this chapter are shown together, you must first decide which type of reaction each is. Is it a Diels–Alder, an electrocyclic, or a sigmatropic rearrangement? Drawing the product will be easier once this determination is made.]
(a) 
Verified step by step guidance1
Identify the type of reaction: Examine the reactants and determine if the reaction is a Diels–Alder, electrocyclic, or sigmatropic rearrangement. Look for characteristic features such as conjugated dienes for Diels–Alder reactions or cyclic systems for electrocyclic reactions.
Analyze the reactants: For a Diels–Alder reaction, identify the diene and the dienophile. For an electrocyclic reaction, identify the cyclic system and the number of π electrons involved. For a sigmatropic rearrangement, identify the migrating group and the type of shift (e.g., [1,3]-shift).
Apply the reaction mechanism: For a Diels–Alder reaction, draw the cyclic transition state and predict the stereochemistry of the product. For an electrocyclic reaction, determine whether the reaction is conrotatory or disrotatory based on the number of π electrons. For a sigmatropic rearrangement, draw the transition state and predict the new position of the migrating group.
Draw the product: Based on the mechanism and stereochemistry, draw the structure of the product. Ensure that all atoms and bonds are correctly represented, and check for any stereochemical implications.
Verify the product: Double-check the reaction type and mechanism to ensure that the predicted product is consistent with the known outcomes of such reactions. Consider any possible side reactions or alternative products that might form under the given conditions.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Diels–Alder Reaction
The Diels–Alder reaction is a [4+2] cycloaddition between a conjugated diene and a dienophile, forming a six-membered ring. It is a pericyclic reaction that proceeds via a concerted mechanism, meaning bonds are formed and broken simultaneously. This reaction is stereospecific and often used to synthesize complex cyclic structures in organic chemistry.
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Diels-Alder Retrosynthesis
Electrocyclic Reaction
Electrocyclic reactions involve the conversion of a conjugated polyene into a cyclic compound through the rotation of a terminal bond. These reactions are governed by the Woodward-Hoffmann rules, which predict the stereochemistry based on the number of π electrons and whether the reaction is thermal or photochemical. Understanding these rules is crucial for predicting the product's stereochemistry.
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08:11Predicting Electrocyclic Products
Sigmatropic Rearrangement
Sigmatropic rearrangements are a type of pericyclic reaction where a σ-bond migrates across a π-system, resulting in a new σ-bond formation. These rearrangements are classified by the number of atoms involved in the migration, denoted as [i,j] shifts. The reaction's feasibility and stereochemistry are influenced by orbital symmetry and the number of electrons involved.
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03:20Nomenclature of Sigmatropic Shifts
Related Practice
Textbook Question
Predict the product of the following reactions. [When all of the reactions from this chapter are shown together, you must first decide which type of reaction each is. Is it a Diels–Alder, an electrocyclic, or a sigmatropic rearrangement? Drawing the product will be easier once this determination is made.]
(b)
617
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Textbook Question
Suggest a diene and a dienophile that would give the following products.
(c)
48
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Textbook Question
Predict the product of the Claisen reactions shown.
(c)
1236
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Textbook Question
By forming a Lewis acid–Lewis base complex with the dienophile, Lewis acids are able to increase the rate of Diels–Alder reactions. Why might this be true?
560
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Textbook Question
Predict the product of the Cope reactions shown.
(c)
1282
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