The active corona of HD 35850 (F8 V)

We present Extreme Ultraviolet Explorer (EUVE) spectroscopy and photometry of the nearby F8 V star HD 35850 (HR 1817). The EUVE short-wavelength 75-17 5 Angstrom and medium-wavelength 160-365 Angstrom spectra reveal 28 emissio n lines from Fe rx and Fe xv to Fe XXIV. The Fe XXI lambda lambda 102, 129 ratio yields an upper limit for the coronal electron density, log n(e) < 11 .6 cm(-3). The EUVE short-wavelength spectrum shows a small but clearly det ectable continuum. The 75-150 Angstrom line-to-continuum ratio indicates ap proximately solar Fe abundances, with 0.8 < Z < 1.6 (90% confidence interva l). Upper limits have been derived for a dozen high-emissivity Fe x through Fe XIV lines. The resulting emission measure distribution is characterized by two broad temperature components at log T of 6.8 and 7.4. Over the cour se of the 1 week observation, large-amplitude, long-duration flares were no t seen in the EUVE Deep Survey light curve, although the light curve does s how signs of persistent, low-level flaring and possible rotational modulati on. The EUVE spectra have been compared with nonsimultaneous ASCA SIS spect ra of HD 35850 obtained in 1995. The SPEX DEM analysis of the SIS spectrum indicates the same temperature distribution as the EUVE DEM analysis. Howev er, the SIS spectra suggest subsolar abundances, 0.34 < Z < 0.81. Although some of the discrepancy may be the result of incomplete X-ray line lists, w e cannot explain the disagreement between the EUVE line-to-continuum ratio and the ASCA-derived Fe abundance. The X-ray surface flux on HD 35850 is co mparable to that of cooler dwarfs of comparable age and rotation like EK Dr aconis (GO V) and AB Doradus (K1 V). Given its youth (t approximate to 100 Myr), its rapid rotation (v sin i approximate to 50 km s(-1)), and its high X-ray activity (L-x approximate to 1.5 x 10(30) ergs s(-1)), HD 35850 may represent an activity extremum for single, main-sequence F-type stars. The variability and emission measure distribution can be reconstructed using th e continuous flaring model of Gudel provided that the flare distribution ha s a power-law index alpha approximate to 1.8. Similar results obtained for other young solar analogs suggest that continuous flaring is a viable coron al heating mechanism on rapidly rotating, late-type, main-sequence stars.