The Infra-Red Spectrum of C2H6

Abstract

The infra‐red spectrum of C₂H₆ gas has been studied in the region between 1.6 and 13μ with a spectrometer of high resolving power. From measurements on four resolved ∥ bands the value I_B0 = (42.234±0.011)×10⁻⁴⁰ g cm² has been obtained for the large moment of inertia in the ground state. From measurements on the three fundamental ⊥ bands the best value at present available for the small moment of inertia is I_A = 10.81×10⁻⁴⁰ g cm². Because of uncertainties concerning the perturbations of degenerate state ν₈, of which a semi‐quantitative explanation which is apparently basically correct has been obtained, this value is provisional but appears to be fairly reliable. With these values of I_B0 and I_A, if one assumes C–C = 1.55A, one obtains C–H = 1.098A and ≰HCC = 109° 3′. From the considerations of the perturbations of state ν₈ and of the frequencies and line spacings of the combination ⊥ bands, spectroscopic evidence indicating that the configuration of C₂H₆ is staggered (point group D_3d) has for the first time been obtained. Also from these considerations the reliable value ν₈ = 1472.2 cm⁻¹ and the values ν₄ = 290 cm⁻¹ for the torsion frequency and ν₁₂ = 1190 cm⁻¹ for the ``uncertain'' frequency have been obtained. The latter two values are perhaps somewhat more reliable and not inconsistent with values obtained previously by other methods. These and other results are summarized in Figs. 1 and 14 and in Tables XII—XV.