Table 5.13Energy differences (kJ mol#^1
) of some isomers, calculated at modest ab initio levels; plus at the G3(MP2) level, and from experiment. The energiesused were 298 K gas-phase enthalpies, thus the differences are differences in standard heats of formation, i.e.DDH
Yf298. The higher-energy molecule is shown first,
e.g. fulvene lies above benzene in energy. In parentheses, for each of the four levels the enthalpies of the two molecules are given, and their differences (D
), inhartrees; hartrees were converted to kJ mol#^1by multiplying by 2,626; for each of the experimental differences, the two heats of formation are shownIsomer pairHF/3–21G(*)HF/6–31GMP2/6–31G*G3(MP2)ExperimentFulvene>benzene>165.1150.0151.4132.1141.5a(#229.24281>(#230.53328>(#231.29393>(#231.77396>(224–82.5)#
229.30570#
230.59042#231.35158#
231.82428[^229/^230]D¼0.06289)D¼0.05714)D¼0.05765)D¼0.05032)Cyclopropane>propene>61.936.022.338.433.1(#116.30975>(#116.96743>(#117.36047>(#117.65305>(53.1–20.1)#
116.33333#
116.98113#117.36895#
117.66768[^231/^231]D¼0.02358)D¼0.01370)D¼0.00848)D¼0.01463)Dimethyl ether>ethanolOMeMe>CHCH 3OH 225.629.435.850.450.7(#153.12245>(#153.97345>(#154.41606>(#154.76644>(#184.1–#
153.13221#
153.98465#154.42971#
154.78565(#234.8)D¼0.00976)D¼0.01120)D¼0.01365)D¼0.01921)[^232/^233]Methylcyclopentane>cyclohexane
>16.519.516.717.318.6(#232.72152>(#234.01184>(#234.80454>(#235.38913>(#106.0–#
232.72781#
234.01925#234.81090#
235.39570(#124.6)D¼0.00629)D¼0.00741)D¼0.00636)D¼0.00657)[^230/^234]aIf the heat of formation of fulvene is really 214 kJ mol#^1[^229], then the enthalpy difference is 214#82.5¼131.5, essentially the same as the G2(MP2) value5.5 Applications of the Ab initio Method 331