- Theshapeof a molecular species can provide clues to the existence of theoreti-
cal principles (why is it that benzene has six equal-length CC bonds, but
cyclobutadiene has two “short” and two “long” bonds [ 246 ]?), or act as a
guide to designing useful molecules (docking a candidate drug snugly into the
active site of an enzyme requires a knowledge of the shapes of the drug and of
the active site [ 109 ]). Although shape is one of the fundamental characteristics
of a molecule, it is amusing and yet thought-provoking that the question has
been asked whether this is really a necessary property [ 247 ]! The basic problem
here seems to be that according to quantum mechanics, for any observable
property of a system there is a corresponding operator, which in principle allows
the property (its expectation value, actually) to be calculated using the wave-
function (Section 5.2.3.3); however, there is no shape operator. Trindle has
worked on reconciling this quantum mechanical conundrum with reality [ 248 ].
Molecular shape has been treated at book length by Mezey [ 249 ].
806040200IR_INTENS037731.1e+0024000
40003000
3500 30002000
FREQ_VAL
2500 20001000
1500 1000 5003091
Benzene
Experimental3050HF / 6-31G* 33761653766114310406741480IR_INTENS037731.1e+0024000 3500 3000FREQ_VAL(^2500200015001000500)
3239
MP2 / 6-31G
1540
1083
689
Fig. 5.34 Experimental (gas phase), HF/6–31G and MP2(fc)/6–31G* calculated IR spectra of
benzene
338 5 Ab initio Calculations