15 research outputs found
The Potential Functions of the Methyl Halides
The problem of the potential functions of the methyl halides is reâexamined in an attempt to find a function which is both adequate and simple. A valence form of potential was tried which contained four constants: k1, the CâH elongation; c, the CâX elongation; k2, the deformation of the HâCâH angle; and k3, the deformation of the XâCâH angle. It was found that this simple valence potential must be modified by the inclusion of a cross product term between the XâC distance and the XâCâH angle, thus introducing a fifth constant, k4.The constants k1 and k2 were determined from the methane frequencies (k1=4.88Ă105 and k2=0.443Ă105) and were taken to be the same for all the methyl halides. By adjusting the three remaining constants it was possible to predict eight quantities, the six fundamental frequencies and two of the fine structure spacings. The agreement with the observed values was satisfactory, the average deviation being less than 1 percent.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/70083/2/JCPSA6-7-7-522-1.pd
The Centrifugal Distortion of Axial Molecules
The theory of the semiârigid rotator developed by Wilson and Howard has been applied to the axial molecules YX3 and ZYX3. It is found that the change in rotational energy, ÎŽW, caused by the centrifugal distortion, can be expressed in terms of the quantum numbers J and K and as a function of the potential constants and the molecular dimensions. The formula is evaluated explicitly for NH3, and ND3, and for the former is, in cmâ1:ÎŽWJKhC=â0.000625J2(J+1)2+0.000950K2J(J+1)+0.000799J(J+1)â0.000630K4â0.00189K2.The pure rotation lines of NH3 and of ND3 are calculated and compared with the observations of Wright and Randall, and of Barnes. The agreement is very satisfactory. The theory predicts that the rotation lines are multiple. The spacing of this fine structure was too small to be observable in the region mapped by Wright and Randall but should be possible to detect in the case of the higher members of the rotation series.We have also calculated the pure rotation spectrum of PH3 by using Howard's approximate values of the dimensions and force constants of this molecule. The agreement with experimental values is as good as could be expected from such rough data.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/69550/2/JCPSA6-7-7-509-1.pd