HR 178 is a probablebinary star in the constellationAndromeda. Located approximately 124 parsecs (400 ly) distant, it is an evolvedAm star[9] with a combined apparent magnitude of 6.06, meaning that it can only be seen with the naked eye on dark, clear nights. The star is suspected of variability, possibly varying between magnitudes 6.04 and 6.06.[4] The variable magnitude period of HD 3883 is about 9.17 min.[10]
The spectrum of HR 178 has been extensively studied for establishing element abundances in the evolved Am stars. It is given a spectral class of kA5hF1mF2, meaning its spectral type is A5, F1, or F2, depending on the particularspectral lines examined. The evolutionary stage of the star, and its mass determined from comparison with theoreticalevolutionary tracks, is not precisely determined. However, it is very close to the end of itsmain sequence evolution and the margin of error in its mass is only about 0.1 M☉.[9]
HR 178 has been suspected of being a binary star since 1938 when its spectrum was interpreted as being composite.[11] The pair were resolved usingspeckle interferometry in 1983.[12] The companion is modelled to be between 1.5 and 3 magnitudes fainter than the primary star.[13] Although there have since been several failed attempts to resolve the pair, a tentative orbit has been calculated with a period of 21.26 years and an eccentricity of 0.5.[6]
^Hynek, J. A. (1938). "A survey of stars with composite spectra".Contributions of Perkins Observatory.1: 10.Bibcode:1938CoPer...1...10H.
^McAlister, H. A.; Hendry, E. M.; Hartkopf, W. I.; Campbell, B. G.; Fekel, F. C. (1983). "Speckle interferometric measurements of binary stars. VIII".The Astrophysical Journal Supplement Series.51: 309.Bibcode:1983ApJS...51..309M.doi:10.1086/190851.
^Bonneau, D.; Carquillat, J. M.; Vidal, J. L. (1984). "Observations d'etoiles doubles par interferometrie des tavelures AU T2m du PIC du Midi".Astronomy and Astrophysics Supplement Series.58: 729.Bibcode:1984A&AS...58..729B.
