- Cyclohexane has the lowest heat of combustion per CH 2 group (658.7 kJ
mol–1).⇒ the same as unbranched alkanes (having no ring strain) ⇒ cyclohexane
has no ring strain. - Cycloporpane has the greatest heat of combustion per CH 2 group (697 kJ mol–1)
⇒ cycloporpane has the greatest ring strain (115 kJ mol–1) ⇒ cyclopropane
contains the greatest amount of potential energy per CH 2 group.
- The more ring strain a molecule possesses, the more potential energy it has
and the less stable it is.
- Cyclobutane has the second largest heat of combustion per CH 2 group (686.0 kJ
mol–1) ⇒ cyclobutane has the second largest ring strain (109 kJ mol–1). - Cyclopentane and cycloheptane have about the same modest amount of ring
strain (27 kJ mol–1).
4.11 THE ORIGIN OF RING STRAIN IN CYCLOPROPANE AND
CYCLOBUTANE: ANGLE STRAIN AND TORSIONAL STRAIN
- The carbon atoms of alkanes are sp^3 hybridized ⇒ the bond angle is 109.5°.
- The internal angle of cyclopropane is 60° and departs from the ideal value by a
very large amout — by 49.5°.
- The internal angle of cyclopropane is 60° and departs from the ideal value by a
CCCH HH
H HH60 oC
CCHHHH HHH
HH HHH1.510 A
1.089 AH
HHHCH 2
115 o(a) (b) (c)
Figure 4.10 (a) Orbital overlap in the carbon-carbon bonds of cyclopropane cannot