![The Effect of Carbonyl Substitution on the Strain Energy of Small Ring Compounds and Their Six-Member Ring Reference Compounds | Journal of the American Chemical Society The Effect of Carbonyl Substitution on the Strain Energy of Small Ring Compounds and Their Six-Member Ring Reference Compounds | Journal of the American Chemical Society](https://pubs.acs.org/cms/10.1021/ja055086g/asset/images/medium/ja055086gn00001.gif)
The Effect of Carbonyl Substitution on the Strain Energy of Small Ring Compounds and Their Six-Member Ring Reference Compounds | Journal of the American Chemical Society
![SOLVED: [. Torsional strain present 2. Angle (ring) strain not present 3 . Steric (van der Waals ) strain not present "CH3 SOLVED: [. Torsional strain present 2. Angle (ring) strain not present 3 . Steric (van der Waals ) strain not present "CH3](https://cdn.numerade.com/ask_images/73d40df3fdb04b4fa657078bc1e839d9.jpg)
SOLVED: [. Torsional strain present 2. Angle (ring) strain not present 3 . Steric (van der Waals ) strain not present "CH3
![There is no ring strain in cyclohexane, but cyclobutane has an angle strain of 9^(@) 44'. If Delta H(c)^(@) of cyclohexane per (CH(2)) group is 660 kJ mol^(-1) and Delta H(c)^(@) of There is no ring strain in cyclohexane, but cyclobutane has an angle strain of 9^(@) 44'. If Delta H(c)^(@) of cyclohexane per (CH(2)) group is 660 kJ mol^(-1) and Delta H(c)^(@) of](https://d10lpgp6xz60nq.cloudfront.net/ss/web/319214.jpg)