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a) Interpretation: The product formed when 2-hexyne reacts with 2 equivalents of bromine. Concept introduction: In addition reactions, alkynes when treated with two molar equivalents of a reagent yield the corresponding alkane or its derivatives as products. With one molar equivalent of a reagent they yield the corresponding alkene or its derivative as the products. The addition to unsymmetrical alkenes follows Markovnikov regiochemistry. The negative part of the reagent adds on to the more highly substituted carbon in triple bond. To give: The product formed when 2-hexyne reacts with two molar equivalents of bromine.

a) Interpretation: The product formed when 2-hexyne reacts with 2 equivalents of bromine. Concept introduction: In addition reactions, alkynes when treated with two molar equivalents of a reagent yield the corresponding alkane or its derivatives as products. With one molar equivalent of a reagent they yield the corresponding alkene or its derivative as the products. The addition to unsymmetrical alkenes follows Markovnikov regiochemistry. The negative part of the reagent adds on to the more highly substituted carbon in triple bond. To give: The product formed when 2-hexyne reacts with two molar equivalents of bromine.

Solution Summary: The author explains the product formed when 2-hexyne reacts with 2 molar equivalents of bromine.

ORGANIC CHEMISTRY-EBOOK>I<

ORGANIC CHEMISTRY-EBOOK>I<

9th Edition

ISBN: 9781305084414

Author: McMurry

Publisher: INTER CENG

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Question

Definition Definition Organic compounds that have a carbonyl group, C = O, as their functional group. The carbonyl group in ketones is placed somewhere in the middle of the molecular structure, which means, the C=O is attached to two alkyl groups or benzene rings. Just like all other homologous series, the naming of ketones is done using a common suffix “-one”. The general molecular formula is C n H 2n O. Functional group of a ketone

Chapter 9.SE, Problem 33AP

Interpretation Introduction

a)

Interpretation:

The product formed when 2-hexyne reacts with 2 equivalents of bromine.

Concept introduction:

In addition reactions, alkynes when treated with two molar equivalents of a reagent yield the corresponding alkane or its derivatives as products. With one molar equivalent of a reagent they yield the corresponding alkene or its derivative as the products. The addition to unsymmetrical alkenes follows Markovnikov regiochemistry. The negative part of the reagent adds on to the more highly substituted carbon in triple bond.

To give:

The product formed when 2-hexyne reacts with two molar equivalents of bromine.

Interpretation Introduction

b)

Interpretation:

The product formed when 2-hexyne reacts with 1 equivalent of HBr is to be predicted.

Concept introduction:

In addition reactions, alkynes when treated with two molar equivalents of a reagent yield the derivatives of the corresponding alkane as the product. With one molar equivalent of a reagent they yield a derivative of the corresponding alkene as the product. The addition to unsymmetrical alkenes follows Markovnikov regiochemistry. The negative part of the reagent adds on to the more highly substituted carbon in triple bond.

To predict:

The product formed when 2-hexyne reacts with 1 equivalent of HBr.

Interpretation Introduction

c)

Interpretation:

The product formed when 2-hexyne reacts with 1 equivalent of HBr is to be predicted.

Concept introduction:

In addition reactions, alkynes when treated with excess amount of a reagent yield the derivatives of the corresponding alkane as the product. The addition to unsymmetrical alkenes follows Markovnikov regiochemistry. The negative part of the reagent adds on to the more highly substituted carbon in triple bond.

To predict:

The product formed when 2-hexyne reacts with excess of HBr.

Interpretation Introduction

d)

Interpretation:

The product formed when 2-hexyne reacts with Li in ammonia.

Concept introduction:

Alkynes can be reduced by treatment with hydrogen in the presence of a catalyst. The hydrogenation occurs with anti stereochemistry to give a trans- alkene as product if Li in ammonia is used.

To predict:

The product formed when 2-hexyne reacts with Li in ammonia.

Interpretation Introduction

e)

Interpretation:

The product formed when 2-hexyne reacts with H₂O, H₂SO₄ in the presence of HgSO₄ is to be given.

Concept introduction:

When treated with H₂O, H₂SO₄ in the presence of HgSO₄ alkynes get hydrated to produce enols. The addition of water to unsymmetrical alkynes follows Markonikov regiochemistry while it cannot be applied in the case of symmetrical alkynes. The enols produced then undergo tautomerization to give a ketone as the product.

To predict:

The product formed when 2-hexyne reacts with H₂O, H₂SO₄ in the presence of HgSO₄.

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Chapter 9.SE, Problem 32AP

Chapter 9.SE, Problem 34AP

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Chapter 9 Solutions

ORGANIC CHEMISTRY-EBOOK>I<

Ch. 9.1 - Prob. 1P Ch. 9.1 - Prob. 2P Ch. 9.3 - What products would you expect from the following...Ch. 9.4 - Prob. 4P Ch. 9.4 - Prob. 5P Ch. 9.4 - Prob. 6P Ch. 9.4 - Prob. 7P Ch. 9.5 - Using any alkyne needed, how would you prepare the...Ch. 9.7 - The pKa of acetone, CH3COCH3, is 19.3. Which of...Ch. 9.8 - Prob. 10P

Ch. 9.8 - Prob. 11P Ch. 9.9 - Show the terminal alkyne and alkyl halide from...Ch. 9.9 - Beginning with acetylene and any alkyl halide...Ch. 9.SE - Name the following alkynes, and predict the...Ch. 9.SE - From what alkyne might each of the following...Ch. 9.SE - Prob. 16VC Ch. 9.SE - The following cycloalkyne is too unstable to...Ch. 9.SE - Prob. 18MP Ch. 9.SE - Assuming that strong acids add to alkynes in the...Ch. 9.SE - Prob. 20MP Ch. 9.SE - Prob. 21MP Ch. 9.SE - Prob. 22MP Ch. 9.SE - Prob. 23MP Ch. 9.SE - Prob. 24MP Ch. 9.SE - Reaction of acetone with D3O+ yields...Ch. 9.SE - Give IUPAC names for the following compounds:Ch. 9.SE - Draw structures corresponding to the following...Ch. 9.SE - Prob. 28AP Ch. 9.SE - Prob. 29AP Ch. 9.SE - Prob. 30AP Ch. 9.SE - Predict the products from reaction of l-hexyne...Ch. 9.SE - Prob. 32AP Ch. 9.SE - Prob. 33AP Ch. 9.SE - Propose structures for hydrocarbons that give the...Ch. 9.SE - Identify the reagents a-c in the following scheme:Ch. 9.SE - Prob. 36AP Ch. 9.SE - Prob. 37AP Ch. 9.SE - Prob. 38AP Ch. 9.SE - How would you carry out the following...Ch. 9.SE - Prob. 40AP Ch. 9.SE - Synthesize the following compounds using 1-butyne...Ch. 9.SE - Prob. 42AP Ch. 9.SE - Prob. 43AP Ch. 9.SE - Prob. 44AP Ch. 9.SE - Prob. 45AP Ch. 9.SE - A hydrocarbon of unknown structure has the formula...Ch. 9.SE - Compound A(C9H12) absorbed 3 equivalents of H2 on...Ch. 9.SE - Hydrocarbon A has the formula C12H8. It absorbs 8...Ch. 9.SE - Occasionally, a chemist might need to invert the...Ch. 9.SE - Prob. 50AP Ch. 9.SE - Prob. 51AP Ch. 9.SE - Prob. 52AP Ch. 9.SE - Prob. 53AP Ch. 9.SE - Prob. 54AP Ch. 9.SE - Prob. 55AP Ch. 9.SE - Prob. 56AP Ch. 9.SE - Prob. 57AP

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