1. Galaxies

2. The Universe Early in the history of the universe, hydrogen and helium (and other forms of matter) clumped together by gravitational attraction to form countless trillions of stars. Billions of galaxies, each a cluster of billions of stars, now form most of the visible mass in the universe.

3. When stars are viewed through a telescope, they appear as points of light. However some objects in the sky look like "fuzzy" clouds. Some are nebulae (star-forming regions) Others are actually islands of stars that are much farther from us than the individual stars we see in the night sky. These islands are galaxies.

4. © 2011 Pearson Education, Inc. Hubble’s Galaxy Classification This pair of images shows the Coma cluster of galaxies. Almost every object visible is a galaxy.

5. Galaxies Galaxies are systems of stars, gas and dust They exist in a wide variety of shapes and sizes

6. Galactic Inquiry Purpose: Recognize that galaxies are a collection of stars Understand that galaxies take a variety of forms Learn to develop your own classification scheme to understand how scientists classify Comprehend the four major categories of galaxies

7. Galaxy Classification Intro Activity Follow the instructions carefully, in the first part you will be developing your own classification of galaxies, then you will look at what Hubble thought.

8. Galaxies Galaxies are systems of stars, gas and dust They exist in a wide variety of shapes and sizes 4 basic types

9. Let’s Review Four basic types elliptical, spiral, barred spiral, and irregular

10. Hubble Tuning Fork Scheme

11. The Milky Way is a spiral galaxy. Most galaxies that we can see are spiral galaxies. Looking at other spiral galaxies, we can begin to learn more about how the spirals work.

12. Spirals

13. Spiral galaxies are classified according to the size of their central bulge Hubble’s Galaxy Classification

14. © 2011 Pearson Education, Inc. Type Sa has the largest central bulge, Type Sb is smaller, and Type Sc is the smallest. Type Sa tends to have the most tightly bound spiral arms with Types Sb and Sc progressively less tight, although the correlation is not perfect. Hubble’s Galaxy Classification

15. © 2011 Pearson Education, Inc. Hubble’s Galaxy Classification The Sombrero galaxy, with its large central bulge, is a type Sa. We cannot see the spiral arms, as they are edge-on.

16. Turn to your elbow partner  One of you hold up a text book or notebook for your partner with the edge facing your partner.  Now hold the book with the title facing your partner. How does the book look different. Which is more recognizable as a book?  Try this with a pen. Look down the top of the pen. Now look at it from the side. How is the image different?

17. Variety of Spiral Arms Flocculent spirals (fleecy) Grand-design spirals (highly organized)

18. What do you notice about the colors of the stars in the spiral arms of this galaxy?

19. The arms of spiral galaxies contain most of the bright, blue O and B type stars.

20. Which live longer, Red or Blue stars? Stellar Lifetimes

21. So the stars in the spiral arms are mostly bright, hot, and young stars! Stellar Lifetimes

22. Since O stars have such a short lifetime, it must be that: the arms of spiral galaxies are where star formation happens!

23. If stars form in the spiral arms, how do they end up getting spread out over the whole disk? Spiral arms are not permanent structures, rather they are locations where stars are forming.

24. If spiral arms are not permanent structures, then what is making these locations become active star forming regions? Spiral arms maybe caused by spiral density waves – a spiral shaped disturbances traveling through the disk of the galaxy that compressed gas and triggers star formation..

25. Elliptical galaxies Barred Spirals

26. Elliptical Galaxies About 60% of the galaxies are round to oval in shape

27. © 2011 Pearson Education, Inc. Elliptical galaxies have no spiral arms and no disk. They come in many sizes, from giant ellipticals of trillions of stars, down to dwarf ellipticals of less than a million stars. Ellipticals also contain very little, if any, cool gas and dust, and they show no evidence of ongoing star formation. Elipticals have large clouds of hot gas, extending far beyond the visible boundaries of the galaxy. Hubble’s Galaxy Classification

28. © 2011 Pearson Education, Inc. Ellipticals are classified according to their shape from E0 (almost spherical) to E7 (the most elongated) Hubble’s Galaxy Classification

29. © 2011 Pearson Education, Inc. What would you classify this galaxy? Tell your elbow partner why.

30. Galaxies that don’t seem to look like spirals or ellipticals are called…. Irregular

31. Irregular Galaxy These galaxies have little symmetry in their structure About 10% of the galaxies

32. © 2011 Pearson Education, Inc. The irregular galaxies have a wide variety of shapes. The small and large Magellanic Clouds are close neighbors to our own Milky Way. Hubble’s Galaxy Classification

33. © 2011 Pearson Education, Inc. Here are several other irregular galaxies: AM 0644-741 and its neighbors on the left, and NGC 1569 on the right. Hubble’s Galaxy Classification

34. © 2011 Pearson Education, Inc. Hubble’s “tuning fork” is a convenient way to remember the galaxy classifications. Hubble’s Galaxy Classification

35. Tutorial: Galaxy Classification Work with a partner! Read the instructions and questions carefully. Discuss the concepts and your answers with one another. Take time to understand it now!!!! Come to a consensus answer you both agree on. If you get stuck or are not sure of your answer, ask another group.

36. Galaxy Classification and Properties: Lecture Tutorial (handout) 1234 5678

37. 0/0 Cross-Tab Label A galaxy that appears to be populated by mostly red stars, likely: 1. never had blue stars in the galaxy 2. had blue stars that are not present anymore but were at one time long ago 3. has been around long enough for the blue stars to have already evolved into red stars 4. never contained enough gas to have blue stars develop 5. has blue stars that are being blocked by dust

38. Why are the arms of spiral galaxies typically blue in color? 1.They are usually moving toward us and are Doppler shifted to blue wavelengths. 2.The gas and dust in the arms filter out all but the blue light from stars in the arms 3.Stars are forming in the spiral arms so there are high mass, hot blue stars in the arms. 4.Almost all the stars are in the arms of the disk of the galaxy and their light makes the arms appear blue.

39. © 2011 Pearson Education, Inc. See if you can locate a few galaxies on Stellarium M31 in Andromeda a spiral galaxy M81 in Ursa Major a spiral galaxy M95 in Leo a barred spiral M87 in Virgo (near Mars) an elliptical

40. The Local Group

41. The Andromeda Galaxy The Andromeda Galaxy is the nearest large galaxy to the Milky Way. It is 2.5 million light years away. It takes the light from the stars and gas in Andromeda 2.5 million years to get to us. That means, we see Andromeda as it was 2.5 million years ago.

42. Tutorial: Looking At Distant Objects Work with a partner! Read the instructions and questions carefully. Discuss the concepts and your answers with one another. Take time to understand it now!!!! Come to a consensus answer you both agree on. If you get stuck or are not sure of your answer, ask another group.

43. Imagine that you simultaneously receive the satellite transmission of two pictures of two people that live on planets orbiting two different stars. Each image shows the people at their 21 st birthday parties. Consider the following possible interpretations that could be made from your observations. Which do you think is the most plausible interpretation? 1. Both people are the same age but at different distances from you. 2. The people are actually different ages but at the same distance from you. 3. The person that is closer to you is actually the older of the two people. 4. The person that is farther from you is actually the older of the two people

44. 0/0 Cross-Tab Label Fifteen years ago, a quasar was observed that was found to be located 8 billion light years away. If our universe is approximately 15 billion years old, when did the quasar emit the light that we observe? 1. 15 years ago 2. 7 billion years ago 3. 8 billion years ago 4. 15 billion years ago 5. 23 billion years ago

45. Colliding galaxies Take notes on the following https://www.youtub e.com/watch?v=U QNo1hkcrYUhttps://www.youtub e.com/watch?v=U QNo1hkcrYU

46. About 20 – 25% of galaxies don’t fit well into the Hubble scheme—they are far too luminous. Such galaxies are called active galaxies. They differ from normal galaxies in both the luminosity and type of radiation they emit. 24.4 Active Galactic Nuclei

47. high luminosity nonstellar energy emission variable energy output, indicating small nucleus jets and other signs of explosive activity broad emission lines, indicating rapid rotation Active galactic nuclei have some or all of the following properties:

48. This active galaxy has star-formation rings surrounding a very luminous core 24.4 Active Galactic Nuclei

49. Many active galaxies have jets, and most show signs of interactions with other galaxies.

50. Quasars—quasi- stellar objects—are starlike in appearance, but have very unusual spectral lines

51. Quasars (QSO’s) A quasi-stellar radio source is a very energetic and distant active galactic nucleus. Quasars are extremely luminous. A quasar is a compact region in the center of a massive galaxy surrounding a supermassive black hole. 10–10,000 times the Schwarzschild radius of the black hole.

52. Quasars

53. This is the leading theory for the energy source in an active galactic nucleus: a black hole, surrounded by an accretion disk. The strong magnetic field lines around the black hole channel particles into jets perpendicular to the magnetic axis. The Central Engine of an Active Galaxy

54. This pair of images shows evidence for a black hole at the center of NGC 4261.

55. Make your own Active Galaxy Read through the introduction and background information to Active Galaxies. Highlight anything that might make a good test question or is an important point. With our partners follow the instructions on the student worksheet to make your own active galaxy.