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Which structure correctly represents the bonding in a hydrocarbon molecule?

A.
6 carbon atoms forming single bonds with 13 hydrogen atoms; the second carbon from the right has a methyl group attached to it
B.
8 carbon atoms forming single bonds with 18 hydrogen atoms; a triple bond exists between the third and fourth carbon atom from the right
C.
four carbon atoms forming single bonds with seven hydrogen atoms; a methyl group forms a single bond with the second carbon from the left
D.
three carbon atoms forming single bonds with seven hydrogen atoms with; a double bond exists between the first and second carbon atom from the right

Respuesta :

Answer:

A.  6 carbon atoms forming single bonds with 13 hydrogen atoms the second carbon from the right has a methyl group attached to it.

Explanation:

Here 6 carbon atoms forming single bonds with 13 hydrogen atoms the second carbon from the right has a methyl group attached to it,has a chemical formula of [tex]C_7H_1_6[/tex].

It is in the form of [tex]CNH_2N+2[/tex],Which is the general formula for alkanes.

So here,the formula is [tex]C_7H_1_6[/tex],which is the general formula of Heptane.

Answer:

A

Explanation:

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