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© 2004 Pearson Education Inc., publishing as Addison-Wesley Todays News (www.cnn.com) Scientists find most Earth-like planet yet Planet could conceivably.

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Presentation on theme: "© 2004 Pearson Education Inc., publishing as Addison-Wesley Todays News (www.cnn.com) Scientists find most Earth-like planet yet Planet could conceivably."— Presentation transcript:

1 © 2004 Pearson Education Inc., publishing as Addison-Wesley Todays News (www.cnn.com) Scientists find most Earth-like planet yet Planet could conceivably house life outside our solar system Discovery a "significant step" on way to finding possible life in universe Planet, dubbed 581 c, orbits red dwarf star Gliese 581 Newly found planet full of liquid water, scientist believes

2 © 2004 Pearson Education Inc., publishing as Addison-Wesley Galaxy Evolution

3 © 2004 Pearson Education Inc., publishing as Addison-Wesley Looking Back Through Time What do we mean by galaxy evolution and how do we study it? Our goals for learning:

4 © 2004 Pearson Education Inc., publishing as Addison-Wesley Galaxy Evolution… …is the study of how galaxies form and how they change over time. As was the case with stars… we can not observe an individual galaxy evolve but we can observe different galaxies at various stages of their life cycles This is made easier the greater the redshift... the younger the galaxy!

5 © 2004 Pearson Education Inc., publishing as Addison-Wesley Modeling Galaxy Formation we have tried theoretical (computer) models to describe how galaxies formed The following assumptions are made when constructing these models: 1.the Universe was uniformly filled with Hydrogen & Helium gas for the first million years after the Big Bang 2.this uniformity was not quite perfect; some regions of the Universe were slightly denser than others All of the H & He gas expanded with the Universe at first. after about a billion years, the denser regions slowed down and began to collapse under self-gravity the collapsing gas became protogalactic clouds

6 © 2004 Pearson Education Inc., publishing as Addison-Wesley Modeling Galaxy Formation

7 © 2004 Pearson Education Inc., publishing as Addison-Wesley The Milky Way Provides Clues Studying the halo stars in our own Milky Way provides data for our models. random orientation of stellar obits implies that halo stars formed before the protogalactic cloud collapsed into a disk stars which formed in the disk orbit on the same plane in the same direction low content of heavy elements in halo stars implies that they formed before the star–gas– star cycle could significantly enrich the ISM Remaining key questions: where is the very first star generation? what caused the density enhancements in the early Universe?

8 © 2004 Pearson Education Inc., publishing as Addison-Wesley What Determines Galaxy Type? We can explore two options: the initial conditions of the protogalactic cloud; i.e. destined from birth later interactions with other galaxies; i.e. a life-altering conversion Two plausible explanations regarding the birth properties of the protogalactic cloud: Protogalactic spin…the initial angular momentum determines how fast the cloud will form a disk before it is completely turned into stars Protogalactic cooling…the initial density determines how fast the cloud can form stars before it collapses into a disk

9 © 2004 Pearson Education Inc., publishing as Addison-Wesley What Determines Galaxy Type? Galaxy Interactions when two spiral galaxies collide tidal forces randomize the orbits of stars gas either falls to the center to form stars or it is stripped out of the galaxies the disk is removed The galaxy becomes an elliptical.

10 © 2004 Pearson Education Inc., publishing as Addison-Wesley The Role of Galaxy Clusters Galaxy clusters provide evidence that some galaxies are shaped by interactions: elliptical galaxies are more common in cluster centers collisions will occur more often in crowded cluster centers central dominant (CD) galaxies are gigantic ellipticals found in cluster centers they grow large by consuming other galaxies These CD galaxies often contain tightly bound clumps of stars. They are probably the leftover cores of galaxies which were cannibalized by the CD. Some CD galaxies are more than 10 times as massive as the Milky Way. making them the largest galaxies in the Universe!

11 © 2004 Pearson Education Inc., publishing as Addison-Wesley Starburst Galaxies What is a starburst galaxy? How do we know that a starburst must be only a temporary phase in a galaxy’s life? What can cause starbursts? Our goals for learning:

12 © 2004 Pearson Education Inc., publishing as Addison-Wesley Starburst Galaxies An average of 1 new star per year forms in the Milky Way. We observe some galaxies with a star-forming rate of 100 per yr. We call them starburst galaxies. infrared image of Arp 220 They look normal in visible light (10 10 L  like Milky Way). but they are 100 times brighter in infrared light molecular clouds block the visible/UV light from new stars dust in the clouds absorbs this light and reemits the energy as infrared light With such a fast rate of star formation, the galaxy will use up its gas.. in only a few 100 million years starburst phase is temporary in light of fact that galaxy is billions of years old

13 © 2004 Pearson Education Inc., publishing as Addison-Wesley Starburst Galaxies 100 times star-forming rate also means 100 times supernova rate. ISM is full of hot superbubbles supernovae continue to pump energy into the superbubbles The hot (10 7 –10 8 K) gas breaks out and a galactic wind streams from galaxy NGC 1569 (X-ray–green; visible–red) Starburst galaxies are irregular in type. lots of dusty molecular clouds and usually two distinct clumps of stars This suggests that the starburst is caused by the collision of two spiral galaxies. although a close encounter could trigger starburst, e.g. Large Magellanic Cloud

14 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasars and Other Active Galactic Nuclei

15 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasars and Other Active Galactic Nuclei What are active galactic nuclei and quasars? The nature of quasars was once hotly debated. What evidence supports the idea that they are the active galactic nuclei of distant galaxies? What do we think is the source of power for active galactic nuclei? Do quasars still exist? Where do active galactic nuclei fit into the story of galaxy evolution? Our goals for learning:

16 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasars In the early 1960s, Maarten Schmidt identified the radio source 3C 273 with a faint, blue star. the “star’s” spectrum displayed emission lines the wavelengths of these lines matched no known element Schmidt realized that the emission lines belonged to Hydrogen, but they were highly redshifted. This object is very (> 10 10 light years) far away. other such objects were subsequently discovered they were called quasi-stellar radio sources or quasars for short

17 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasar Spectra Point-like objects which: have spectra that look nothing like a star highly redshifted emit a lot of power across all wavelengths

18 © 2004 Pearson Education Inc., publishing as Addison-Wesley Hubble ST confirms that quasars do live in galaxies…they are Active Galactic Nuclei!

19 © 2004 Pearson Education Inc., publishing as Addison-Wesley What are AGN? Most/all nucleated galaxies harbor a black hole at their center -we know this from studying the velocities of stars around galaxy nuclei We see that BH mass scales with galaxy bulge mass so the formation of the two must be linked, although unclear how. Many of these BHs “switched off” (dormant) However, few % of galaxies show large nuclear luminosity….or “activity” Quasars are the most luminous of these, less luminous but nearby AGN are Seyfert galaxies

20 © 2004 Pearson Education Inc., publishing as Addison-Wesley Only accretion is efficient enough to get this much radiation out of such a small region Angular momentum of accreted material means it forms an accretion disk Gravitational potential energy of material coming through the disk is converted to radiative/kinetic energy Disk shines in optical & UV bands with brightness 10,000 x stars in galaxy

21 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasars & other types of active galaxy… are extremely luminous. 10 40 watts 1,000 brighter than the entire Milky Way Galaxy are extremely variable. luminosity changes < 1 hour have redshifted emission lines. greatest is 6.8 times the rest wavelength

22 © 2004 Pearson Education Inc., publishing as Addison-Wesley Quasars are observed in the distant past (high redshift/far away). this implies that many galaxies had bright nuclei early in their histories, but those nuclei have since gone dormant So many galaxies which look “normal” today have supermassive black holes at their centers that have just stopped accreting such as Andromeda and Milky Way

23 © 2004 Pearson Education Inc., publishing as Addison-Wesley Shedding Light on Protogalactic Clouds How do quasars let us study gas between the galaxies? Our goals for learning:

24 © 2004 Pearson Education Inc., publishing as Addison-Wesley A “Forest” of Absorption Lines As light from a quasar travels toward Earth… it passes through intergalactic Hydrogen clouds and galaxies each cloud leaves absorption lines at a different redshift on quasar spectrum this is the only way we can “observe” protogalactic clouds Analysis so far has shown: more heavy element lines are seen at low redshift supports element enrichment of galaxies by supernovae These data support our models of galaxy evolution

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