Provided is an ultrasonic diagnostic apparatus configured to perform speed measurement while lessening the influence of the wave surface feature and scattering resulting from the shear wave propagation, which transmits burst wave as first ultrasonic wave to the subject from the probe 11 and ultrasonic transmission-reception section 13 to apply radiation pressure. The track pulse wave as the second ultrasonic wave is transmitted to and received from the subject to detect displacement of medium in the subject resulting from the shear wave propagation in the subject at the radiation pressure. The elasticity evaluation section 17 of the controller 12 measures the first arrival time at the first depth and the second arrival time at the second depth of the shear wave with the single track pulse wave at the predetermined angle θ(≠0) to the subject depth direction using the data received from the ultrasonic transmission-reception section 13. The display section 15 displays the elasticity information of the subject by calculating the shear wave propagation velocity based on the difference between the first and the second arrival time values.
