Pressure and void fluctuations were measured with a pressure transducer and with a Υ-ray attenuation device in a two-dimensional fluidized bed with a jet. The results were analyzed using a power spectrum analyzer with Fast Fourier Transform. Pressure and void fluctuations along the height of the bed were characterized as functions of static bed heights in the range of 11-40cm and of jet velocities in the range of 1-10m/s. The major frequency of void fluctuations in the bed could be defined as the same frequency of pressure fluctuations having unique value at every location of the bed. The major frequency could be correlated as functions of static bed heights and properties of solid, after modifying the correlations of bubble rise volocity and travolling distance. The major frequency decreases with static bed height and increases with jet velocity. The amplitude of pressure fluctuations at a certain location was found to have a relationship with the bubble size measured using a high speed movie camera.