Given the expectations associated with modern observational facilities such as Herschel, ALMA and SOFIA, and the ubiquity of methanol in interstellar gas, precise knowledge of the methanol spectrum is critical. Abundant research has characterized the line positions and quantum assignments in the far infrared, but there is a dearth of line intensity information at most wavelengths. In this work, an empirical database of methanol line intensities from 300 to 500cm −1 has been compiled from far-infrared measurements recorded on the Bruker IFS 125 HR Fourier transform spectrometer located at the Jet Propulsion Laboratory. The sum of the integrated line intensities has been computed (∑Int=1.13×10−18cm−1/(moleculecm−2)) at 296K for 1317 measured features. These have been combined with known assignments for 2ν12–gs, ν12–gs, 2ν12–ν12 plus a few other bands with a small number of transitions in the spectral range of this study. Line intensities of 916 unblended features have been compared to available theoretical calculations of Mekhtiev et al., J. Mol. Spectrosc., 194, 171–178 (1999). These results support the analysis of astronomical observations taken from orbit by the Herschel HIFI instrument.