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Galactic & Extragalactic Astrophysics - ASTC22

Galactic & Extragalactic Astrophysics - ASTC22. Lecture 1 History of the Milky Way Galileo, Hershel, Kapteyn and others The idea of spiral nebulae as island universes (Kant) The Great Debate of 1920: Curtis vs. Shapley. Milky Way (= the Galaxy). Discovery of the Milky Way.

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Galactic & Extragalactic Astrophysics - ASTC22

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  1. Galactic & Extragalactic Astrophysics - ASTC22 Lecture 1 History of the Milky Way Galileo, Hershel, Kapteyn and others The idea of spiral nebulae as island universes (Kant) The Great Debate of 1920: Curtis vs. Shapley

  2. Milky Way (= the Galaxy)

  3. Discovery of the Milky Way

  4. 20ft focal length reflector, magnif. x157 William Herschel (1738-1822) 1773 - aged 35, reads a book on astronomy 1774 - starts making mirrors, telescopes & observe 1781 - discovers a “comet” (in fact, Uranus) 1782 - appointed as Cours Astronomer, drops music as a profession 1783 - finds his first galaxy 1785 - finds his 1000th new object 1802 - a total of 2500 nebulae & clusters discovered

  5. Discovery of the Milky Way

  6. ‘Island universes’ of Immanuel Kant

  7. But... Through the 18th-century telescopes, spiral galaxies looked a lot like blurry, perhaps gaseous objects. Hence the idea that they’re much smaller parts of the Milky Way.

  8. English-Irish nobleman Lord Rosse (W. Parsons) and his Leviathan M51 then and now (1.8m, 1845) (HST, 2.4m, 1990)

  9. Carroll & Ostlie “Intro to Modern Astrophysics

  10. Distance measurement: Cepheids and RR Lyr variables The Cepheid variables are evolved young, massive stars and lie within the crowded spiral arms of a galaxy. There are few of them in a galaxy. Cepheid variables have periods 1-100 days. Henrietta Leavitt found them in 1912 in Large and Small Magellanic Clouds and noticed P vs. M relationship. This relationship can provide us with M (absolute magnitude) or equivalently L (luminosity) of a Cepheid variable. Since these stars are bright, they can now be seen and used out to distance of 40 Mpc.

  11. Distance measurement: RR Lyr variables The other class of variable stars are RR Lyrae variables (named after the prototype pop II star RR Lyrae or RR Lyr). Discovered by Wlliamina Fleming at Harvard in 1901. RR Lyrae stars are evolved old, low- mass stars, and can be seen in the uncrowded halos of galaxies, especially in globular clusters. M=+0.6...0.7 (e.g.,RR Lyr: 0.61, d= 262 pc from HST parallax) [d]=pc

  12. Distance measurement: RR Lyr variables They are a stage in the evolution of a lower-mass star, and therefore are generally more numerous than Cepheid variables. A single globular cluster may have dozens of RR Lyrae stars. Periods of RR Lyrae stars are typically 0.3 to 1 day, making it possible to see one or more periods (cycles) in a single night of observations. The period-absolute magnitude (or alternatively P vs. L) relations have been known but initially somewhat incorrectly calibrated. E.g, RR Lyrae stars’ AVERAGE absolute magnitude is +0.6, which corresponds to 49 L_sun. The P=M relation in I-band (near IR, ~9000A): M_I = +0.471 -1.132 log P + 0.205 log Z. The RR Lyr variables can be seen and used as standard candles out to distances up to about 0.74 Mpc.

  13. 1922-23 100 in Hooker telescope

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