Numerical tidal models are used to investigate the relationships between tides and arctic sea ice development, polynya dynamics, and turbulent mixing. Therefore, in order to evaluate numerical tidal models, we present observations of M2 tidal amplitude and propagation collected by pressure sensors attached to moorings off the west coast of Spitsbergen, in Hornsund, Isfjorden, and the Yermak Plateau. Through harmonic analysis, M2 tidal amplitude is calculated to be 0.50m in Hornsund and Isfjorden, and between 0.34m and 0.42m on the Yermak Plateau. M2 amplitude maximums occur simultaneously at Hornsund and Isfjorden, and 1.3 hours later on the Yermak Plateau. M2 tidal amplitude is shown to decay away from the coast on the Yermak Plateau with maximum amplitude of 0.42m at the mooring nearest to the coast, 0.41m 8km farther away from the coast, 0.37m 48km farther away from the coast, and 0.34m 66km farther out to sea than the nearest shore mooring. These observations agree reasonably well with numerical tidal models and Kelvin wave propagation and amplitude decay theory. However, AOTIM-5 modeled M2 amplitudes are shown to be biased low, 0.04m on the west coast of Spitsbergen.