3-Methylbutanal is a compound that is found in low concentrations in many types of food. The structure of 3-methylbutanal is shown. (a) Draw a structural formula for a ketone that is an isomer of 3-methylbutanal. (b) Name a reagent which could be used to distinguish between 3-methylbutanal and a ketone. (c) Name the strongest intermolecular force that occurs between 3-methylbutanal molecules. (d) 3-Methylbutanal is found in olive oil. Explain fully what can happen to 3-methylbutanal that will cause the olive oil to develop an unpleasant taste. (e) 3-Methylbutanal can be used as a reactant in the production of other compounds. One reaction scheme involving 3-methylbutanal is shown. 3-Methylbutanal --> propanone Step 1 Step 2 Explain why step 1 is described as a condensation reaction. (ii) Give the systematic name for product A.

Scottish Highers Chemistry Fats and Oils: 3-Methylbutanal is a compound th

3-Methylbutanal is a compound that is found in low concentrations in many types of food - Scottish Highers Chemistry - Question 4 - 2018

Question 4

3-Methylbutanal is a compound that is found in low concentrations in many types of food. The structure of 3-methylbutanal is shown. (a) Draw a structural formula fo... show full transcript

Worked Solution & Example Answer:3-Methylbutanal is a compound that is found in low concentrations in many types of food - Scottish Highers Chemistry - Question 4 - 2018

Step 1

Draw a structural formula for a ketone that is an isomer of 3-methylbutanal.

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Answer

The structural formula of a ketone that is an isomer of 3-methylbutanal is pentan-2-one or pentan-3-one. This structure contains a carbonyl group (C=O) located within the carbon chain.

Step 2

Name a reagent which could be used to distinguish between 3-methylbutanal and a ketone.

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Answer

Fehling's solution or Tollen's reagent can be used to distinguish 3-methylbutanal from a ketone. These reagents will react with aldehydes but not with ketones.

Step 3

Name the strongest intermolecular force that occurs between 3-methylbutanal molecules.

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Answer

The strongest intermolecular force present between 3-methylbutanal molecules is permanent dipole-permanent dipole interaction due to the polar carbonyl (C=O) group.

Step 4

Explain fully what can happen to 3-methylbutanal that will cause the olive oil to develop an unpleasant taste.

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Answer

3-Methylbutanal can react with oxygen in a process known as oxidation. This leads to the formation of a carboxylic acid, which can contribute to the rancid taste of the olive oil.

Step 5

Explain why step 1 is described as a condensation reaction.

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Answer

Step 1 is described as a condensation reaction because it involves two molecules joining together with the loss of a water molecule.

Step 6

Give the systematic name for product A.

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Answer

The systematic name for product A is 6-methylheptan-2-one.

3-Methylbutanal is a compound that is found in low concentrations in many types of food - Scottish Highers Chemistry - Question 4 - 2018

Worked Solution & Example Answer:3-Methylbutanal is a compound that is found in low concentrations in many types of food - Scottish Highers Chemistry - Question 4 - 2018

Draw a structural formula for a ketone that is an isomer of 3-methylbutanal.

Name a reagent which could be used to distinguish between 3-methylbutanal and a ketone.

Name the strongest intermolecular force that occurs between 3-methylbutanal molecules.

Explain fully what can happen to 3-methylbutanal that will cause the olive oil to develop an unpleasant taste.

Explain why step 1 is described as a condensation reaction.

Give the systematic name for product A.

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