- Theenergyof a molecular species relative to the energies of other species
on a potential energy surface is fundamental to a knowledge of its kinetic
and thermodynamic behaviour, and this can be important in attempts to
synthesize it. - Thevibrational frequenciesof a molecule provide information about the elec-
tronic nature of its bonds, and prediction of the spectra represented by these
frequencies may be useful to experimentalists.
A fourth important characteristic of a molecule is thedistribution of electron
densityin it. Calculation of the electron density distribution enables one to predict
the dipole moment, the charge distribution, the bond orders, and the shapes of
various molecular orbitals.
80
60
40
20
0
IR_INTENS
0
5.3
1.1e+002
1.6e+002
4000
4000
3000
3500 3000
2000
FREQ_VAL
FREQ_VAL
2500 2000
1000
1500 1000 500
Dichloromethane
Experimental
HF / 6-31G*
1451
1378
817
843
1261
757
1276
IR_INTENS
0
4.3
87
1.3e+002
4000 3500 3000 2500 2000 1500 1000 500
MP2 / 6-31G*
Fig. 5.35 Experimental (gas phase), HF/6–31G and MP2(fc)/6–31G calculated IR spectra of
dichloromethane
5.5 Applications of the Ab initio Method 339