Projected rotational velocities and effective temperatures for 68 δ Sct stars as well as 41 non-variable stars of similar spectral type and luminosity are presented here. The rotational velocities have been calculated following the method developed in Gray (1992) and effective temperatures have been derived using the Balmer line profiles. The temperatures obtained from this method are shown to be in reasonable agreement with those calculated using the Infrared Flux Method (IRFM) or

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... etric methods. This result has allowed us to use our temperatures to compare different uvbyβ photometric calibrations. We find that the calibration given by Moon & Dworetsky (1985) is the most consistent. In the second part of this paper we have studied the relation between the pulsational properties (periods and amplitudes) and the physical parameters (v sin i and T eff ). Where pulsation modes have been determined, the low amplitude δ Scutis tend to be multimode (radial and non-radial) pulsators, consistent with the theory that non-linear coupling between modes acts to limit the amplitude in these stars. We have compared the distribution of v sin i for low amplitude δ Scutis and non-variable stars. This shows the δ Scutis have a broader distribution in v sin i suggesting that a high rotation velocity may favour pulsation. We find that the large amplitude δ Scuti stars tend to have longer periods, cooler temperatures and lower rotation velocities. Given that the large amplitude stars are also relatively rare all the above are consistent with the hypothesis that these stars are more evolved (sub-giants) than the low amplitude δ Scutis (main sequence or early post-main sequence). Send offprint requests to: E. Solano; esm@vilspa.esa.es Tables 3 and 4 are also available in electronic form. Tables 6 and 7 are only available in electronic form via ftp 130.79.128.5 or http://cdsweb.u-strasbg.fr/Abstract.html