Final answer:
To draw all isomers of C6H12 with a cyclopropane ring, you would start with the cyclohexane skeleton and replace one of the carbon-carbon bonds with a cyclopropane ring. There are two possible isomers: one with the cyclopropane ring attached to a side of the cyclohexane ring, and another with the cyclopropane ring attached to a corner of the cyclohexane ring.
Step-by-step explanation:
Cyclopropane is the simplest cycloalkane with a highly strained geometry. It consists of a planar ring with bond angles reduced to 60°. Due to the ring strain, cyclopropane is rather unstable and highly reactive.
To draw all isomers of C6H12 with a cyclopropane ring, you would start with the cyclohexane skeleton and replace one of the carbon-carbon bonds with a cyclopropane ring. There are two possible isomers: one with the cyclopropane ring attached to a side of the cyclohexane ring, and another with the cyclopropane ring attached to a corner of the cyclohexane ring. The structures of these two isomers would look like:
Isomer 1:
Isomer 2: