Answer:
See figure 1
Explanation:
For this question, we have to remember that definition of an "isomer" in an isomer we have the same condensed formula (in this case [tex]C_6H_14[/tex]) and different structures. The first structure is a linear structure of 6 carbons (hexane). Then we can have a 5 carbon linear structure in which we have to add a methyl group. This methyl group can be attached to carbon 2 or carbon 3 (2-methylpentane and 3-methylpentane). Finally, we can have a 4 carbon linear structure in which we have to add 2 methyl groups. We can do this addition in carbon 2 (2,2-dimethylbutane) or we can do this addition in carbon 2 and carbon 3 (2,3-dimethylbutane).
See figure 1
I hope it helps!
The first component is a six-carbon linear structure. Then we'll need to add a methyl group to a five-carbon linear structure.
This methyl group can be linked to either carbon 2 or carbon 3 in the carbon chain. Finally, we can make a four-carbon linear structure by adding two methyl groups. This addition can be done with carbon 2 alone or with carbon 2 and carbon 3 together.
The constitutional isomers have the same chemical formula, but their atom connections are different. Chain isomers, position isomers, and functional group isomers are the three forms of constitutional isomers.
Find out more information about 'Constitutional isomers'.
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