Textbook Question
Would you expect ∆S to be greater than, less than, or equal to zero in the following reactions?
(b)
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Ch. 18 - Nucleophilic Acyl Substitution I: Carboxylic Acids
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
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Mullins 1st EditionCh. 18 - Nucleophilic Acyl Substitution I: Carboxylic AcidsProblem 5a
Mullins 1st EditionCh. 18 - Nucleophilic Acyl Substitution I: Carboxylic AcidsProblem 5aChapter 17, Problem 5a
Calculate the oxidation numbers for the indicated atoms.
a. 
Verified step by step guidance1
Identify the structure of the starting material. The image shows a benzene ring with a side chain, which is likely a primary alcohol or an aldehyde, given the context of oxidation reactions.
Recognize the oxidizing agent. In this case, H₂CrO₄ (chromic acid) is a strong oxidizing agent commonly used to oxidize primary alcohols to carboxylic acids and secondary alcohols to ketones.
Determine the oxidation state of the carbon atom in the side chain before the reaction. If the side chain is a primary alcohol (R-CH₂OH), the carbon attached to the OH group is in the -1 oxidation state.
Predict the product of the reaction. H₂CrO₄ will oxidize the primary alcohol to a carboxylic acid (R-COOH), changing the oxidation state of the carbon from -1 to +3.
Calculate the change in oxidation number for the carbon atom. The change from -1 to +3 indicates an increase in oxidation state, confirming that oxidation has occurred.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Oxidation Numbers
Oxidation numbers are a way to keep track of electrons in atoms as they undergo chemical reactions. They represent the hypothetical charge an atom would have if all bonds were ionic. In organic chemistry, oxidation numbers help determine how electrons are transferred in reactions, especially in redox processes. For example, in the reaction with H2CrO4, identifying the oxidation state of carbon atoms in the benzene ring is crucial.
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Strong oxidizing agents
Chromic Acid (H2CrO4) as an Oxidizing Agent
Chromic acid (H2CrO4) is a strong oxidizing agent commonly used in organic chemistry to oxidize alcohols to ketones or carboxylic acids. It works by increasing the oxidation state of carbon atoms, typically converting primary alcohols to carboxylic acids and secondary alcohols to ketones. Understanding its role in the reaction helps predict the changes in oxidation numbers of the involved atoms.
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Benzene Ring Structure
The benzene ring is a stable, aromatic hydrocarbon with a hexagonal structure and alternating double bonds. Its stability is due to resonance, where electrons are delocalized over the ring. In reactions, the benzene ring can influence the reactivity of attached groups, such as the side chain in the given structure. Recognizing the benzene ring's properties is essential for understanding how it affects the oxidation process in the reaction.
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Related Practice
Textbook Question
Calculate the oxidation numbers for the indicated atoms.
(c)
1179
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Textbook Question
Would you expect ∆S to be greater than, less than, or equal to zero in the following reactions?
a.
642
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Textbook Question
Calculate Keq for the acid–base reaction shown. Which side is favored and why?
1221
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Textbook Question
Calculate the oxidation numbers for the indicated atoms.
(d)
1367
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Textbook Question
Calculate the oxidation numbers for the indicated atoms.
b.
1197
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