Our Universe

1. Our Universe

2. Universe TEKS (8.13)  Science concepts. The student knows characteristics of the universe. The student is expected to: (8.13A)  describe characteristics of the universe such as stars and galaxies. (8.13B)  explain the use of light years to describe distances in the universe. (8.13C)  research and describe historical scientific theories of the origin of the universe.

3. Universe TAKS Objectives Objective 5: The student will demonstrate an understanding of earth and space systems. Components in the universe may also be included, such as stars, nebulae, and comets. Characteristics of the universe such as stars and galaxies may be integrated with all grade 8 objectives to make them more relevant.

4. Once Upon a Time…..12- 15 Billion Years ago all the contents of the Universe were gathered into a small area under extreme heat and pressure. THEN

5. The Big Bang The Big Bang Theory is one theory of the formation of the Universe. It states that the universe began with a tremendous explosion http://hrw.com

6. Evidence to Support the Big BangTheory 1. The even Spread of Radiation Thermal energy from the original explosion was distributed in every direction.

7. Even Spread of Background Radiation

8. Evidence to Support the Big BangTheory 2. The Red Shift of Galaxies The spectrum of thedistant galaxiesis shifted to the red end.

9. Red Shift Of a Galaxies Spectrum Galaxies moving away from us would have their light waves stretched out and the spectrum would shift to the red end. Galaxies moving toward us would have their light waves compressed and the spectrum would shift to the blue end. All distant Galaxies have a red shift.

10. Doppler Effect • Just like light waves, sound waves will also be compressed as an object moves toward you and they will be stretched as the object moves away.

11. Universe contains: • Galaxies • Stars • Nebulae • Quasars • Comets

12. Galaxies • There are three main types of Galaxies • Spiral • Elliptical • Irregular

13. Galaxies Spiral • Characterized by a bulge at the center and spiral arms • Spiral shape is caused by the rotation of the galaxy http://hrw.com

14. Galaxies Elliptical • Characterized by a very bright centers and very little dust and gas • Appear elongated or spherical and are basically massive blobs of stars • Composed of mostly old stars http://hrw.com

15. Galaxies Irregular • Galaxies that do not fit into any other class • As their name indicates they have irregular shapes http://hrw.com

16. Stars • Composition • Brightness • Temperature • Mass • Life Cycle

17. Stars Composition • Made up of different elements in the form of gasses • When viewed through a spectrograph the specific gasses can be identified through an absorption spectrum which is a continuous spectrum with dark lines where less light gets through.

18. Stars Composition http://hrw.com

19. Stars Brightness • Apparent Magnitude – how bright a star looks from Earth • Absolute Magnitude – how bright a star actually is (How bright the star would appear to the human eye if it were at a distance of 10 parsecs from the earth)

20. Stars Temperature • Determined by the color of a star • Classified by the following letter categories (O, B, A, F, G, K, M) http://hrw.com

21. Stars http://hrw.com The Hertzsprung Russell Diagram (H-R) is a graph showing the relationship between a star’s surface temperature and its absolute magnitude

22. StarsIllustrating the relationship between temperature and brightness http://hrw.com

23. Stars Mass • Single most important determiner of a stars life cycle • High Mass • Low Mass http://www.enchantedlearning.com/subjects/astronomy/stars/lifecycle/

24. StarsIllustrating the relationship between mass and star life time http://hrw.com

25. Stars Illustrating the relationship between mass and brightness http://hrw.com

26. Nebula Latin for “Cloud” • Giant clouds of gas and dust • Where new stars are formed • Found in spiral galaxies • Not found in elliptical galaxies http://nssdc.gsfc.nasa.gov/photo_gallery/photogallery-astro-nebula.html

27. Quasars • The most powerful energy source in the universe • May be the core of young galaxies forming • Among the most distant objects in space from Earth http://hubblesite.org/newscenter/newsdesk/archive/releases/category/galaxy/quasar_active%20nucleus/

28. Comets • A comet is made of dirty ice, dust, and gas. • When a comet gets close to the Sun, part of the ice starts to melt. This lets the dust and gas out. • Solar winds then push them away from the comet. This makes the comet's tail. • Every time a comet comes close to the Sun, a part of it melts. Over time, it will completely disappear. • A comet does not give off any light of its own. Ice in the comet acts just like a mirror. What we see is sunlight bouncing off the comet. http://www.nasa.gov/audience/forkids/home/F_SC_comet.html

29. Comets Halebopp Comet http://www.nashttp://deepimpact.jpl.nasa.gov/science/comets.html

30. Looking through the center of the Milky Way http://www.nashttp://deepimpact.jpl.nasa.gov/science/comets.html

31. Questions and Discussion 1. Which characteristics are used to classify stars? A. temperature B. brightness (magnitude) C. mass D. All of the above

32. Questions and Discussion 1. Which characteristics are used to classify stars? A. temperature B. brightness (magnitude) C. mass D. All of the above

33. Questions and Discussion 1. Temperature and brightness are both used to classify stars as seen on the HR diagram, but mass is also important because it determines a stars temperature and brightness. http://hrw.com

34. Questions and Discussion 2. If a star becomes a black hole at the end of its life, it is a? A. high mass star B. nebula C. low mass star D. All of the above

35. Questions and Discussion 2. If a star becomes a black hole at the end of its life, it is a? A. high mass star B. nebula C. low mass star D. All of the above

36. Questions and Discussion 2. Becoming a black hole would mean that the star was a high mass star, giant actually as seen in the following illustration. http://www.enchantedlearning.com/subjects/astronomy/stars/lifecycle/

37. Questions and Discussion 3. Galaxies are classified based on their? A. composition B. color C. shape D. All of the above

38. Questions and Discussion 3. Galaxies are classified based on their? A. composition B. color C. shape D. All of the above

39. Questions and Discussion 3. Galaxies are classified based on their shape. This is evident because of their name categories. The categories of galaxies are spiral, elliptical and irregular. http://hrw.com

40. Questions and Discussion 4. Scientist believe that quasars give off as much light as 10 trillion suns because of their? A. composition B. distance and brightness C. shape D. color

41. Questions and Discussion 4. Scientist believe that quasars give off as much light as 10 trillion suns because of their? A. name B. distance and brightness C. shape D. color

42. Questions and Discussion 4. Scientist know the absolute brightness of a quasar known as PKS 0637-152, and they know that it gives off as much light as 10 trillion suns because of its calculated distance using parallax. http://hrw.com