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Galaxies. I. Topics. The Milky Way Galaxies and Dark Matter Active Galaxies. The Milky Way. History – I. 1785 – William Herschel (German musician)
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Galaxies I
Topics • The Milky Way • Galaxies and Dark Matter • Active Galaxies
History – I • 1785 – William Herschel (German musician) • Discovered that the stellar system to which the Sun belongs was shaped like a disk. He did this by counting the number of stars in different directions. • 1845 – Earl of Rosse • Made first drawing of the Whirlpool Galaxy (M51).
The Whirlpool Galaxy – M51 Drawing by Earl of Rosse * * http://www.seds.org/messier/more/m051_rosse.html
History – II • 1912 – Henrietta Leavitt • Studied Cepheid variables in the Small Magellanic Cloud. • Cepheids dim and brighten in a regular manner. • The time between corresponding points on the light curve is called the period of the variable.
History – III Luminosity-Period Relation of Cepheid Variables Henrietta Leavitt discovered that the period of a Cepheid is related to its absolute luminosity.
History – IV • 1915 – Harlow Shapley • Measured the positions of dozens of globular clusters using RR Lyrae stars. • These stars, like Cepheids, are variables whose absolute luminosities are related to their periods of light variation. • Most of these clusters were found to be located in the direction of the constellation Sagittarius.
History – IV • 1917 • Shapley conjectured that the globular clusters orbit the galactic center and that the latter was in the direction of Sagittarius. • This would explain why the globular clusters appeared to be mostly in that direction of the sky.
History – V • 1920 – The Shapley-Curtis Debate • Harlow Shapley debated Heber D. Curtis. • Shapley argued that the nebulae (which later proved to be galaxies) lie within the Milky Way. • Curtis, however, argued that they resided far from our galaxy. • The issue was not resolved.
History – VI – Island Universes • 1923 – Edwin Hubble • Photographed the Andromeda Galaxy (M31) and showed (in 1924) that M31 is at about 2 million light years from us. • This was conclusive proof that the galaxy lay well beyond the Milky Way. • The universe was much vaster than previously thought.
The Andromeda Galaxy http://www.seds.org
Structure • Disk • Near the Sun the average density of stars is about 1star per 330 cubic light years. • Bulge • In the galactic nucleus there are about 10 millionstars per cubic light year. • Halo • The globular clusters form a halo about the galaxy.
Characteristics • Diameter • About 90,000 light years. • The sun is about 26,000 light years from the center and takes about 240 million years to make a complete orbit, at about 220 km/s. • Age • From the oldest stars we know that the galaxy is about 15 billion years old. • Luminous Mass • Between 100 to 500 billion solar masses.
Stellar Populations • Population I • Stars about 1 million to a few billion years old. • Found in the disk and spiral arms, like the Sun. • Relatively rich in heavier elements (about 3% by mass) because they are of the second or third generation. • Population II • Stars around 10 billion years old that populate the galactic bulge and halo. These stars contain only trace amounts of heavier elements.
Star Clusters • Open Clusters • Loose groupings of stars that contain a few hundred stars in a volume with a radius between 5 and 20 light years. • The stars are mainly population I stars. • A beautiful example is the Pleiades.
Star Clusters – II • Globular Clusters • These are spherical groupings of stars that contain thousands to millions of stars. • These clusters have radii in the range 40 to 160 light years. • A good example is the globular cluster, M13 in the constellation Hercules. • The stars are always (old) population II stars.
The Great Globular Cluster in Hercules Eddie Guscott, http://antwrp.gsfc.nasa.gov/apod/ap040511.html
Nebulae • Emission Nebula • Gas is ionized by ultraviolet light from hot stars. Electrons recombine with the ions to form atoms, which then drop down to lower energy levels by emitting photons. • Dark Nebula • Dust clouds that absorbs light from other nebulae and stars. • Reflection Nebula • Clouds of gas and dust that reflect rather than emit light.
The Galactic Center • The Great Galactic Shroud • Unfortunately, we cannot see the center of our galaxy in visible light because the light from the center is absorbed by the intervening dust. • But, fortunately, radio and infrared waves can penetrate the dust. • We have therefore been able to study the galactic center in detail, even though it is shrouded by dust and is 26,000 ly away.
Radio Observations of our Galaxy • 21-cm line of Hydrogen • The most-used radio emission line for studying the Universe is the 21-cm line of hydrogen. • The 21-cm radio photons are created when a spin-flip transition occurs in the spin of the electron.
The Galactic Center – III • The Galactic Nucleus • Diameter about 10 light years • Emits about 80 million Suns worth of infrared energy • Emits radio waves and variable amounts of x-rays. • Sgr A* • At the very center is a bright region called Sgr A*. It is now possible to measure the rotation speeds of stars very close to Sgr A*. • One star gets within 17 light hours of Sgr A*.
Sgr A* Mass of Sgr A* can be inferred from an application of Newton’s laws: M = V2 R / G The mass turns out to be about 2.6 million Solar masses http://ircamera.as.arizona.edu/NatSci102/lectures/milkyway.htm
Matter Between the Stars • The Interstellar Medium • The space between stars is filled with about 1 atom of hydrogen per cubic centimeter on average. • H I Regions • Regions of higher density that contain predominantly neutral hydrogen, sometimes in molecular form. • H II Regions • Regions of ionized hydrogen, that is, of electrons and protons.
Summary • The Milky Way • A disk of about 100 billion stars with spiral arms and a central bulge. The younger (Population I) lie in the disk and spiral arms; the old (Population 2) stars populate the bulge and halo. • The galaxy contains open clusters, globular clusters and nebulae of various kinds (emission, dark and reflection). • The Galactic Center • Measurements of stellar orbits around Sgr A* indicate it has a mass of 2.6 million Solar masses. The evidence indicates this could be a black hole.