We report measurements of the water vapor continuum using infrared cavity ringdown spectroscopy at frequencies of 931.002, 944.195, and 969.104 cm(-1). Our values of the water vapor continuum coefficients for self-broadening at T=296 K are C-s(0) (931 cm(-1))=2.23 +/-0.17, C-s(0)(944 cm(-1))=2.02 +/-0.13, and C-s(0)(969 cm(-1))=1.79 +/-0.21x10(-22) molecules(-1) cm(2) atm(-1). Our measurements are found to be in good agreement with the far wing line shape theory of Ma and Tipping, but we find that empirical models of the water vapor continuum, widely used in radiative transfer calculations, significantly overestimate the observed self-broadened continuum.