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Chapter 10: Problem 47

Draw structural formulas for (a) 2 -pentanone, (b) hexanal, and (c) pentanoic acid.

Short Answer

Expert verified
(a) CH3-CO-CH2-CH2-CH3; (b) CH3-(CH2)4-CHO; (c) CH3-(CH2)3-COOH.

Step by step solution

01

Understanding 2-Pentanone

2-Pentanone is a ketone, which means it has a carbonyl group (C=O) bonded to carbon atoms on both sides. The number "2" indicates that the carbonyl group is on the second carbon in the chain. Therefore, the structure is CH3-CO-CH2-CH2-CH3.
02

Drawing 2-Pentanone

Start by drawing a five-carbon chain (pentane). Place the carbonyl group (C=O) on the second carbon. The resulting structure will be: \( CH_3 - CO - CH_2 - CH_2 - CH_3 \).
03

Understanding Hexanal

Hexanal is an aldehyde, which means it contains a terminal carbonyl group (C=O) with a hydrogen atom attached. The hex prefix signifies a six-carbon chain, so the carbonyl group (C=O) is at the end of this chain.
04

Drawing Hexanal

Draw a six-carbon chain (hexane) and attach a carbonyl group (C=O) to the terminal carbon to form an aldehyde. The resulting structure becomes: \( CH_3 - CH_2 - CH_2 - CH_2 - CH_2 - CHO \).
05

Understanding Pentanoic Acid

Pentanoic acid is a carboxylic acid, meaning it features a carboxyl group (COOH) at the end of the carbon chain. The root "penta" indicates a five-carbon chain.
06

Drawing Pentanoic Acid

Draw a five-carbon chain and attach a carboxyl group (COOH) to the terminal carbon. The resulting structure looks like: \( CH_3 - CH_2 - CH_2 - CH_2 - COOH \).

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Structural Formulas
In the world of organic chemistry, structural formulas are a crucial way to represent molecules. They show how atoms in a molecule are connected, not just the number of each type they contain. Understanding structural formulas allows for an appreciation of molecular geometry and bonding, which is essential when predicting chemical reactions and behaviors.
For example:
  • The molecule 2-pentanone is depicted as CH\(_3\)-CO-CH\(_2\)-CH\(_2\)-CH\(_3\). This shows that it contains a five-carbon backbone and a carbonyl group on the second carbon, proving it is a ketone.
  • Hexanal's structural formula (CH\(_3\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-CHO) illustrates a six-carbon chain with an aldehyde group at the end.
  • Pentanoic acid, written as CH\(_3\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-COOH, displays a five-carbon chain ending with a carboxylic acid group.
Understanding these formulas not only aids in visualizing the molecule but also in hypothesizing its chemical properties and reactivity.
Ketones
Ketones are a significant class of organic compounds, characterized by the presence of a carbonyl group (C=O) bonded within the carbon chain. Unlike aldehydes, ketones always have their carbonyl group bonded to two carbon atoms.
Some key points about ketones include:
  • Their general formula is RC(=O)R', where R and R' are carbon-containing substituents.
  • They are commonly found in many natural and synthetic materials.
  • 2-Pentanone, a representative ketone, features the carbonyl group on the second carbon in a five-carbon chain, written as CH\(_3\)-CO-CH\(_2\)-CH\(_2\)-CH\(_3\).
  • Ketones serve as solvents and are precursors in the synthesis of various chemical compounds.
Understanding the role of ketones in organic chemistry is essential for recognizing their importance in both natural processes and industrial applications.
Aldehydes
Aldehydes are organic compounds containing a carbonyl group (C=O) bonded to at least one hydrogen atom. This makes them an essential type of carbonyl-containing compound. They are often found in natural and synthetic substances.
Consider the following aspects of aldehydes:
  • Their typical formula is RCHO, where R can be a variety of carbon-based groups, but always includes a useful hydrogen atom next to the carbonyl.
  • Hexanal serves as an example with its structural formula: CH\(_3\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-CHO, showing the aldehyde group at the chain's end.
  • Aldehydes are known for their properties as flavor and fragrance molecules, as well as intermediates in production processes.
  • They efficiently participate in numerous reactions, making them valuable in chemical synthesis.
Recognizing aldehydes by their unique terminal carbonyl group helps in understanding a wide range of chemical and biological systems.
Carboxylic Acids
Carboxylic acids are a highly important group of organic compounds, defined by the presence of a carboxyl group (COOH) at the end of the carbon chain. This group not only conveys unique acidity but also plays a vital role in biological processes and industrial applications.
Here are some features of carboxylic acids:
  • Their general formula is RCOOH, with R representing any hydrocarbon group.
  • Pentanoic acid, depicted as CH\(_3\)-CH\(_2\)-CH\(_2\)-CH\(_2\)-COOH, is an example, demonstrating a five-carbon chain with a terminal carboxyl group.
  • The acidic nature of carboxylic acids comes from their ability to donate a hydrogen ion (H\(^+\)), making them quite reactive.
  • They are fundamental in synthesizing esters, anhydrides, and more, playing a role in pharmaceuticals, food processing, and polymers.
Grasping the concept of carboxylic acids enables one to appreciate their significant and multifaceted use in chemical and biological contexts.

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Most popular questions from this chapter

A single compound is formed by alkylation of 1,4-dimethylbenzene. Write the equation for the reaction of this compound with \(\mathrm{CH}_{3} \mathrm{Cl}\) and \(\mathrm{AlCl}_{3}\). What is the structure and name of the product?

Give structural formulas and systematic names for the three structural isomers of trimethylbenzene, \(\mathrm{C}_{6} \mathrm{H}_{3}\left(\mathrm{CH}_{3}\right)_{3}\)

Carbon atoms appear in organic compounds in several different ways with single, double, and triple bonds combining to give an octet configuration. Describe the various ways that carbon can bond to reach an octet, and give the name and draw the structure of a compound that illustrates that mode of bonding.

Draw the structure of 2 -butanol. Identify the chiral carbon atom in this compound. Draw the mirror image of the structure you first drew. Are the two molecules superimposable?

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