Match each method of measuring distance with their correspor matching description. Choices - use a choice only once A. Tully-Fisher Relation B. Stellar Parallax

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Match each method of measuring distance with their corresponding description. Not all methods listed will have a matching description. Choices - use a choice only once A. Tully-Fisher Relation B. Stellar Parallax C. Variable Stars D. The Hubble Law E. Supernova Type la Match each of the following to a choice 1. The distance of far-away galaxies can be estimated based on the linear relationship between their recession velocity and the expansion rate of the universe. 2. 3. The luminosity of some objects depends on their total mass, which influences their rotation rate. The faster such objects rotate the greater their luminosity. The distance to some of these objects can be determined by comparing their apparent brightness with their luminosity, which can be determined based upon how quickly these objects change in brightness. 4. These are standard candles. When one of these is identified, its luminosity is a known value and so its distance can be calculated by comparing its apparent brightness to its luminosity. Select A. Tully-Fisher Relation B. Stellar Parallax C. Variable Stars D. The Hubble Law E. Supernova Type la Select A. Tully-Fisher Relation B. Stellar Parallax C. Variable Stars D. The Hubble Law E. Supernova Type la Select A. Tully-Fisher Relation B. Stellar Parallax C. Variable Stars D. The Hubble Law E. Supernova Type la Select A. Tully-Fisher Relation B. Stellar Parallax C. Variable Stars D. The Hubble Law E. Supernova Type la