EXAMPLE 27-8 Cycloalkenes
Write the skeletal representation of 3-methylcyclohexene.
Plan
We draw the ring of the specified size with one double bond in the ring. We number the ring
so the double bond is between atoms 1 and 2. Then we add the designated substituents at the
indicated positions.
Solution
We number the six-membered ring so that the double bond is between atoms 1 and 2.A methyl group is attached at carbon 3; the correct structure isRemember that each intersection of two lines represents a carbon atom; there are enough H
atoms at each C atom to make a total of four bonds to carbon.You should now work Exercise 21.ALKYNES
The alkynes,or acetylenic hydrocarbons, contain one or more carbon–carbon triple
bonds, XCmCX. The noncyclic alkynes with one triple bond per molecule have the
general formula CnH 2 n 2. The bonding in all alkynes is similar to that in acetylene (Section27-4
1 36452 CH 3136452105 8CHAPTER 27: Organic Chemistry I: Formulas, Names, and Properties
Problem-Solving Tip:How to Draw Skeletal RepresentationsThe rules for drawing skeletal representations follow.
1.A carbon atom is assumed to be at each intersection of two lines and at the end of
each line. All carbon–carbon bonds are shown as lines. A carbon atom might be shown
for clarity.
2.Because carbon has four bonds, we mentally supply hydrogens to give each carbon
its four bonds.
3.Atoms other than hydrogen and carbon are shown. The following skeletal represen-
tation is that of 3-chloro-4-ethyl-cis-3-heptene.and its formula is C 9 H 17 Cl.Cl