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Chapter 24: Problem 45

Draw the molecular structure for (a) an aldehyde that is an isomer of acetone, (b) an ether that is an isomer of 1-propanol.

Short Answer

Expert verified
The aldehyde isomer of acetone is propanal with the molecular structure H2C-CHO, and the ether isomer of 1-propanol is methoxyethane with the molecular structure CH3-O-CH2-CH3.

Step by step solution

01

1. Drawing an aldehyde isomer of acetone

An aldehyde molecule consists of a carbonyl group attached to an alkyl or an aryl group and a hydrogen atom. The general structure for an aldehyde is RCHO, where R is an alkyl or aryl group. We are given the molecular formula for the aldehyde as C3H6O (same as acetone). Let's find the aldehyde structure: 1. Identify the carbonyl group in the molecule (C=O). This group will be part of the aldehyde. 2. Attach an alkyl group (R) to the carbonyl group. 3. Following the molecular formula, we must add two more carbon atoms and six hydrogen atoms. 4. The final structure is: H2C-CHO (propanal) The aldehyde isomer of acetone is propanal with the molecular structure H2C-CHO.
02

2. Drawing an ether isomer of 1-propanol

An ether molecule consists of an oxygen atom connected to two alkyl or aryl groups. The general structure for an ether is R-O-R', where R and R' are alkyl or aryl groups. We are given the molecular formula for the ether as C3H8O (same as 1-propanol). Let's find the ether structure: 1. Identify the oxygen atom in the molecule. This atom will be part of the ether. 2. Attach two alkyl groups (R and R') to the oxygen atom. 3. Following the molecular formula, we must add three carbon atoms and eight hydrogen atoms. 4. The final structure is: CH3-O-CH2-CH3 (methoxyethane) The ether isomer of 1-propanol is methoxyethane with the molecular structure CH3-O-CH2-CH3.

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Most popular questions from this chapter

(a) Are \(\alpha\)-glucose and \(\beta\)-glucose enantiomers? (b) Show the condensation of two glucose molecules to form a disaccharide with an \(\alpha\) linkage. (c) Repeat part (b) but with a \(\beta\) linkage.

Predict the ideal values for the bond angles about each carbon atom in the following molecule. Indicate the hybridization of orbitals for each carbon. $$ \mathrm{CH}_{3} \mathrm{CCCH}_{2} \mathrm{COOH} $$

A typical amino acid with one amino group and one carboxylic acid group, such as serine, can exist in water in several ionic forms. (a) Suggest the forms of the amino acid at low pH and at high \(\mathrm{pH}\). (b) Amino acids generally have two \(\mathrm{p} K_{a}\) values, one in the range of 2 to 3 and the other in the range of 9 to 10. Serine, for example, has \(\mathrm{pK} K_{4}\) values of \(2.19\) and \(9.21\). Using species such as acetic acid and ammonia as models, suggest the origin of the two \(\mathrm{pK}_{\mathrm{a}}\) values. (c) Glutamic acid is an amino acid that has three \(\mathrm{pK}_{a}\) ' \(\times 2.10,4.07\), and 9.47. Draw the structure of glutamic acid, and assign each \(\mathrm{p} K_{a}\) to the appropriate part of the molecule. (d) An unknown amino acid is titrated with strong base, producing the following titration curve. Which amino acids are likely candidates for the unknown?

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An unknown organic compound is found on elemental analysis to contain \(68.1 \%\) carben, \(13.7 \%\) hydrogen, and \(18.2 \%\) oxygen by mass. It is slightly soluble in water. Upon careful oxidation it is converted into a compound that behaves chemically like a ketone and contains \(69.7 \%\) carbon, \(11.7 \%\) hydrogen, and \(18.6 \%\) oxygen by mass, Indicate twe or more reasonable structures for the unknown.
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