Question

Draw structural formulas for all primary amines with the formula \(\mathrm{C}_{4} \mathrm{H}_{9} \mathrm{NH}_{2}\)

Short answer

n-Butylamine: \(\mathrm{CH}_3\mathrm{CH}_2\mathrm{CH}_2\mathrm{CH}_2\mathrm{NH}_2\), Isobutylamine: \((\mathrm{CH}_3)_2\mathrm{CHCH}_2\mathrm{NH}_2\).

Step-by-step solution

Understand the Structure of Amines

Amines are classified into primary, secondary, and tertiary, based on the number of carbon-containing groups attached to the nitrogen atom. A primary amine has one alkyl or aryl group attached to the nitrogen atom, hence its general formula is \ \(\mathrm{RNH}_2\), where R represents an alkyl or aryl group.

Identify the Alkyl Groups for C4H9

The molecular formula \ \(\mathrm{C}_4\mathrm{H}_9\) represents a butyl group, which can have several structural isomers. The different butyl group structures that can be primary alkyl groups are: butyl, isobutyl, sec-butyl, and tert-butyl. However, only butyl and isobutyl form primary amines.

Draw the Primary Amine Structures

For each of the identified primary butyl and isobutyl groups, draw the primary amine structure by attaching the \ \(\mathrm{NH}_2\) group to the terminal carbon, ensuring it is a primary amine.

Structure 1: n-Butylamine

n-Butylamine is formed when the \ \(\mathrm{NH}_2\) group is attached to a straight-chain four-carbon alkyl group. Its structural formula is: \ \(\mathrm{CH}_3\mathrm{CH}_2\mathrm{CH}_2\mathrm{CH}_2\mathrm{NH}_2\).

Structure 2: Isobutylamine

Isobutylamine is formed when the \ \(\mathrm{NH}_2\) group is attached to the primary carbon of the branched isobutyl group. Its structural formula is: \ \((\mathrm{CH}_3)_2\mathrm{CHCH}_2\mathrm{NH}_2\).

Key concepts

Primary Amines

Primary amines are a fundamental type of amine that are characterized by having a single alkyl or aryl group linked to a nitrogen atom. This classification leads to the general formula \(\mathrm{RNH}_2\), where \(\mathrm{R}\) is the alkyl or aryl group.
The importance of this category is its simplicity, making them more accessible to understand than secondary and tertiary amines.

• In primary amines, the nitrogen atom is directly bonded to only one carbon atom.
• This single bond provides a straightforward path for substituting hydrogen atoms with nitrogen.

This singular configuration is one reason why primary amines often serve as starting materials in the synthesis of more complex amines.

Butyl Group

The butyl group is an alkyl moiety consistent with the molecular structure \(\mathrm{C}_4\mathrm{H}_9\). This group is utilized to form several structural isomers. When considering primary amine formation, butyl group's role is pivotal as it can yield different versions based on its structure.

• n-butyl denotes a straight chain structure with all carbons connected sequentially.
• Isobutyl, as a branched version, has three continuous carbons before another branches out.

This variability in the alkyl chain not only impacts the physical properties of the amines but also determines their chemical reactivity.

Isobutyl Group

An isobutyl group is a specific variant of the butyl group. It has a branched structure consisting of three continuous carbon atoms followed by a branch. This structure can be represented as \(\mathrm{(CH_3)_2CHCH_2}\).

• Its unique branched form distinguishes it from other butyl isomers, like sec-butyl or tert-butyl, which do not form primary amines.
• By attaching an \(\mathrm{NH_2}\) group to the terminal carbon of the isobutyl structure, an isobutylamine is synthesized.

The branches within the isobutyl group contribute to distinct physical and chemical properties, differentiating it from linear butyl chains.

C4H9NH2

The molecular formula \(\mathrm{C}_4\mathrm{H}_9\mathrm{NH}_2\) indicates a primary amine with a butyl framework. This can include structures like n-butylamine and isobutylamine, each with their unique arrangements of carbon and hydrogen.

• n-Butylamine forms when the \(\mathrm{NH}_2}\) group attaches to a straight, four-carbon chain: \(\mathrm{CH_3CH_2CH_2CH_2NH_2}\).
• Isobutylamine forms with a branched chain: \(\mathrm{(CH_3)_2CHCH_2NH_2}\).

These variations in attachment lead to different physical attributes and reactivity profiles, despite sharing a basic chemical family.

Amines Classification

Amines are versatile organic compounds classified into three main types based on the attachment of carbon-containing groups to the nitrogen atom: primary, secondary, and tertiary. Here, we focus on primary amines, crucial for their straightforward chemical behavior.

• Primary amines have one carbon group, allowing easy identification with the \(\mathrm{RNH}_2\) formula.
• In secondary amines, two carbon groups are linked to the nitrogen, creating \(\mathrm{R_2NH}\).
• Tertiary amines consist of three carbon groups, represented by \(\mathrm{R_3N}\).

Understanding this classification helps predict the properties and reactivity of different amine types, facilitating their application in various chemical processes.