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Galaxies (And a bit about distances). This image shows galaxy M 100 in which the Hubble Space Telescope detected Cepheid variables.

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Presentation on theme: "Galaxies (And a bit about distances). This image shows galaxy M 100 in which the Hubble Space Telescope detected Cepheid variables."— Presentation transcript:

1 Galaxies (And a bit about distances)

2 This image shows galaxy M 100 in which the Hubble Space Telescope detected Cepheid variables.

3 As their period is related to their luminosity, Cepheid variable stars are reliable standard candles. – If you know the period of the star’s variation, you can use the period–luminosity relation to learn its absolute magnitude. – By comparing its absolute and apparent magnitudes, you can find its distance. Cepheid variable stars

4 Other ways to measure distance: The Distance Ladder

5 Supernovae as “Standard Candles”

6 Edwin Hubble discovered a relationship between a galaxy’s redshift (an indicator of speed) and its distance. Like runners that begin at the crack of a gunshot, the fastest move the farthest along the track. Unlike runners, these galaxies aren’t really moving on their own…the redshift observed is called cosmological redshift and is due to the expansion of space! (But this idea came along after Hubble’s pioneering discovery.)

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8 When you look at a more distant galaxy, you look back into the past by an amount called the look-back time. – This is the time in years equal to the distance to the galaxy in light-years. Telescopes as Time Machines

9 Galaxy Types: Spirals

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11 Spiral arms and contain gas and dust, although some have very little. Their hot, bright and young stars make the arms very luminous, blue in color and easy to see. Among spiral galaxies, about two-thirds are barred spirals. Spiral Galaxies

12 Galaxy Types: Barred Spirals

13 Galaxy Types: Ellipticals

14 These old galaxies have no disk, no spiral arms, and almost no gas and dust. Star formation has ceased. Elliptical galaxies range from huge giants to small dwarfs. Elliptical Galaxies

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16 Irregular galaxies may be fragments left over by the merger of larger galaxies.

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18 The table above suggests there are more spirals, but in reality, elliptical galaxies are more abundant and irregulars make up about 25 percent of all galaxies. The luminous young stars of spirals make it much easier to notice them than other galaxy types. The Selection Effect

19 Recent studies in the deep universe have revealed blue elliptical and “green pea” galaxies. Still Much to Learn…

20 Astronomers now suspect that most elliptical galaxies are formed by the merger of at least two or more galaxies. Evidence supports that they are often found near the center of galaxy clusters. The Origin and Evolution of Galaxies

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25 Interacting galaxies can distort each other with tides— producing tidal tails, rings or shells of stars. – They may trigger new star formation episodes – They may create spiral arms in galaxies previously without them. – Large galaxies can even absorb smaller galaxies by merger or acts of cannabalism.

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27 Evidence left inside galaxies reveals that they have suffered past interactions and mergers. – The Milky Way is a cannibal galaxy—snacking on the Magellanic Clouds (and other galaxies) as they orbit it. – Its tides are pulling apart the Sagittarius and the Canis Major Dwarf galaxies. – This produces great streamers of stars wrapped around the Milky Way. – Almost certainly, our galaxy has dined on other small galaxies in the past.

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29 M82: A Starburst Galaxy

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31 Beautiful ring galaxies and other peculiar features are bull’s-eyes and artifacts left behind by high-speed collisions. Peculiar Galaxies

32 Centaurus A – A Galaxy Merger?

33 The Local Group of galaxies

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35 Bubble and void structure

36 In 1943, astronomer Carl Seyfert conducted a study of spiral galaxies. He noted that about two percent of spirals have small, highly luminous nuclei in their bulges. Many of these galaxies have powerful radio sources at their centers. This indicates the presence of a supermassive black hole as the power source. These are now called AGN: Active Galactic Nuclei Seyfert Galaxies: A type of AGN

37 Quasars are the most luminous AGN. They often look like a star, due to their great distance (the rest of their galaxy structure can’t be seen). Many quasars reveal more structure when viewed in radio wavelengths. Quasars: Quasi- Stellar Objects

38 Quasars represent the earliest observed stages of galaxies. They are the farthest visible objects. The most distant ones we see represent a time when the universe was very young, less than a billion years old. Quasars Through Time

39 Quasars exhibit strange spectra, showing emission lines in places where no known elements could create them. In 1963, astronomer Maarten Schmidt calculated that if hydrogen Balmer lines were redshifted by z = 0.158, they would fit the observed lines in 3C 273’s spectrum. Quasars: Mystery Solved

40 Seeing far away Galaxies: Gravitational Lensing

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