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Chapter 14: Contʼd 14.3 How did the Milky Way Galaxy Form? 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 3 Halo: No ionization nebulae, no blue stars ⇒ no star formation (and hence no recycling) Disk: Ionization nebulae, blue stars ⇒ star formation Milky Wayʼs star formation rate is about 1 MSun/yr. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 4 Halo Stars: Halo stars 0.02-0.2% heavy elements (O, Fe…), formed first, only old stars then stopped. Disk stars formed Disk Stars: later, & keep on 2% heavy elements, forming. stars of all ages 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 5 Our galaxy probably formed from a giant gas cloud 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 6 Halo stars formed first as gravity caused cloud to contract 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 7 Remaining gas settled into spinning disk due to conservation of angular momentum 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 8 Stars continuously form in disk as galaxy grows older 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 9 The collapsing cloud model explains the age, chemical, and orbital differences between halo and disk stars. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 10 More detailed studies Halo stars formed in clumps that later merged (“galactic cannibalism”). 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 11 What lies at the Center of our Galaxy 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 12 Galactic center in IR light 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 13 Galactic center in IR light 4/20/2009 Galactic center in radio Habbal Astro110-01 Chs. 14-15 Lecture 32 14 Galactic center in radio Strange radio sources in galactic center 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 15 Strange radio sources in galactic center 4/20/2009 Stars at galactic center Habbal Astro110-01 Chs. 14-15 Lecture 32 16 Stellar Orbits Use Newtonʼs version of Keplerʼs 3rd law: mass = 3-4 106 MS In size of solar system black hole in center of Milky Way Recent evidence from bright X-ray “flare” emission 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 17 End of Chapter 14 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 18 Chapter 15 A Universe of Galaxies 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 19 What is a galaxy? • An enormous collection of stars held together by their common gravity. • Have a wide range of masses: from 100 million stars (dwarf galaxies) to >1 trillion stars (giant galaxies). • Lower mass galaxies are more common. • Galaxies have a wide range of ages, stellar populations (the mix of stars in a galaxy), and gas content. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 20 How far away are other galaxies? • Light travels at a finite speed = 300,000 km/s. Destination Distance Sun 8 light-minutes Pluto 8 light-hours Nearest star (α Centauri) 4 light-years Center of our galaxy 30,000 light-years Nearest large galaxy 2.5 million light-years Nearest cluster of galaxies 50 million light-years Most distant known galaxy ~12 billion light-years • The farther away we look in distance, the further back we look in time. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 21 Hubble Ultra Deep Field (10 days of exposures) Elliptical Galaxy 4/20/2009 Irregular Galaxies Habbal Astro110-01 Chs. 14-15 Lecture 32 Spiral Galaxy 22 Spiral Galaxy halo disk bulge 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 NGC 4414 23 Barred Spiral Galaxy NGC 1300 – 110, 000 light years in diameter 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 24 Disk Component: Stars of all ages, & many gas clouds Spheroidal Component (halo & bulge): Old stars, few gas clouds NGC 4594 (The Sombrero Galaxy) – 82,000 light years across 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 25 Disk Component: stars of all ages, many gas clouds Blue-white color indicates ongoing star formation (massive stars) Spheroidal Component: bulge & halo, old stars, few gas clouds 4/20/2009 Red-yellow color indicates older star population Habbal Astro110-01 Chs. 14-15 Lecture 32 26 Elliptical Galaxies All spheroidal component, virtually no disk component. Red-yellow color indicates older star population. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 27 Irregular Galaxies The Large Magellanic Cloud – 30,000 lys across Blue-white color indicates ongoing star formation Irregulars are small and much lessLecture massive than spirals 4/20/2009 Habbal Astro110-01 Chs. 14-15 32 28 Role of Angular Momentum in Galaxy Formation 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 29 Recap: The 3 main types of galaxies • Spiral galaxies have prominent disks and spiral arms. • Elliptical galaxies are rounder and redder than spiral galaxies and contain less cool gas and dust. • Irregular galaxies are neither disk-like nor rounded in appearance. 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 30 Hubbleʼs galaxy classification scheme Spheroid Dominates 4/20/2009 Habbal Astro110-01 Chs. 14-15 Lecture 32 Disk Dominates31 Spirals Groups of galaxies Spiral galaxies are often found in groups of galaxies (up to a few dozen galaxies) Elliptical (Edge-on view) 4/20/2009 Hickson Compact Group 87 Habbal Astro110-01 Chs. 14-15 Lecture 32 32 Elliptical galaxies are much more common in huge clusters of galaxies (hundreds to thousands of galaxies) Central part ofHabbal galaxy cluster Abell 1689 Astro110-01 Chs. 14-15 Lecture 32 4/20/2009 33
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