| Abstract
| - Abstract. We investigate the influence of the star formation rate on the Tully-Fisher relation. We find that a simple model which combines the empirically determined star formation rate with the expected properties of galaxy haloes provides a remarkably good fit to the absolute magnitude-rotation speed correlation. We find that the power-law nature, and its slope, normalization and scatter are all readily accounted for if the Universe has a low density parameter, with or without a cosmological constant, and discs are assembled at z ∼ 1-1.5. Moreover, this agreement is found simultaneously in four wavebands. An Einstein-de Sitter universe produces discs that are too faint unless the discs are assembled at z ∼ 0.5. The scatter in the relation is due to a combination of the expected range of spin parameters of the haloes and the range of formation redshifts. The source of the scatter opens up possibilities of a better galactic distance indicator, if spectroscopic observations of globular clusters can be used to determine the halo rotation.
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