Convert the following condensed formula into a skeletal structure – [Free] A10
Convert the following condensed formula into a skeletal structure
![Convert the following condensed formula into a skeletal structure - [Free] A10](data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20viewBox='0%200%20640%20104'%3E%3C/svg%3E)
Answer
Skeleton Structure of CH3(CH2)2CO2C(CH3)3
The molecular formula CH3(CH2)2CO2C(CH3)3 represents an ester compound composed of a straight-chain alkyl group and a branched alkyl group. Let’s break it into parts:
π¬ Functional Group and Chain Identification
- CH3(CH2)2 β This is a 3-carbon straight-chain alkyl group (propyl).
- CO2 β This indicates the ester functional group (βCOOβ).
- C(CH3)3 β This is a tert-butyl group, a central carbon bonded to three methyl groups.
π§ͺ Skeleton Structure Explanation
The skeletal (line-angle) structure omits hydrogen atoms attached to carbon. Each vertex and end of a line represents a carbon atom. Hereβs how the groups are assembled:
- The propyl group (CH3CH2CH2) is connected to the ester carbon (C=O).
- The ester carbon is bonded to one oxygen (double bond) and one single bonded oxygen.
- The single bonded oxygen is connected to the tert-butyl group β a central carbon atom bonded to three methyl groups.
This structure clearly shows the ester linkage between the straight chain and branched chain carbon groups.
β Summary
The molecule is an ester with a 3-carbon straight alkyl chain on one side and a tert-butyl group on the other. The skeletal diagram precisely illustrates the connectivity between atoms while simplifying hydrogen representation.