Chapter 21 Galaxy Evolution. How do we observe the life histories of galaxies?

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Transcription:

Chapter 21 Galaxy Evolution How do we observe the life histories of galaxies? Deep observations show us very distant galaxies as they were much earlier in time (old light from young galaxies). 1

Observing galaxies at different distances shows us how they age. We still can directly observe the earliest galaxies. How did galaxies form? Our best models for galaxy formation assume: Matter originally filled all of space almost uniformly. Gravity of denser regions pulled in surrounding matter. 2

Denser regions contracted, forming protogalactic clouds. Hydrogen and helium gas in these clouds formed the first stars. Why do galaxies differ? Conditions in Protogalactic Cloud? Density: Elliptical galaxies could come from dense protogalactic clouds that were able to cool and form stars before gas settled into a disk. Spin: The initial angular momentum of the protogalactic cloud could determine the size of the resulting disk. 3

Modeling such collisions on a computer shows that two spiral galaxies can merge to make an elliptical. What are starbursts? - Starburst galaxies are forming stars so quickly that they would use up all their gas in less than a billion years. - Intensity of supernova explosions in starburst galaxies can drive galactic winds. - A galactic wind in a small galaxy can drive away most of its gas 4

What are quasars? If the center of a galaxy is unusually bright, we call it an active galactic nucleus.quasars are the most luminous examples. Characteristics of Active Galaxies Their luminosities can be enormous (>10 12 L Sun ). Their luminosities can rapidly vary (come from a space smaller than solar system). They emit energy over a wide range of wavelengths (contain matter with a wide temperature range). Some galaxies drive jets of plasma at near light speed. 5

What is the power source for quasars and other active galactic nuclei? Energy from a Black Hole Gravitational potential energy of matter falling into black hole turns into kinetic energy. Friction in an accretion disk turns kinetic energy into thermal energy (heat). Heat produces thermal radiation (photons). This process can convert 10 to 40% of E = mc 2 into radiation. Black Holes in Galaxies Many nearby galaxies perhaps all of them have supermassive black holes at their centers. These black holes seem to be dormant active galactic nuclei. All galaxies may have passed through a quasarlike stage earlier in time. 6

Orbits of stars at center of Milky Way stars indicate a black hole with mass of 4 million M Sun. How do quasars let us study gas between the galaxies? Gas clouds between a quasar and Earth absorb some of the quasar s light. We can learn about protogalactic clouds by studying the absorption lines they produce in quasar spectra. 7

What have we learned? How do we observe the life histories of galaxies? Deep observations of the universe show us the history of galaxies because we are seeing galaxies as they were at different ages. How did galaxies form? Our best models for galaxy formation assume that gravity made galaxies out of regions in the early universe that were slightly denser than their surroundings. What have we learned? Why do galaxies differ? Some of the differences between galaxies may arise from the conditions in their protogalactic clouds. Collisions can play a major role because they can transform two spiral galaxies into an elliptical galaxy. What are starbursts? A starburst galaxy is transforming its gas into stars much more rapidly than a normal galaxy. 8

What have we learned? What are quasars? Active galactic nuclei are very bright objects seen in the centers of some galaxies, and quasars are the most luminous type. What is the power source for quasars and other active galactic nuclei? The only model that adequately explains the observations holds that supermassive black holes are the power source. What have we learned? Do supermassive black holes really exist? Observations of stars and gas clouds orbiting at the centers of galaxies indicate that many galaxies, and perhaps all of them, have supermassive black holes. How do quasars let us study gas between the galaxies? Absorption lines in the spectra of quasars tell us about intergalactic clouds between those quasars and Earth. 9

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