1 / 29

Lab 09

Astronomy 105 Laboratory. Lab 09. Lab Quiz 09. Last week we used the “Main-sequence Fitting” technique to find the . distance to the Pleiades star cluster. size of the Pleiades star cluster. mass of the Pleiades star cluster. age of the Pleiades stars cluster.

briar
Download Presentation

Lab 09

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Astronomy 105 Laboratory Lab 09

  2. Lab Quiz 09

  3. Last week we used the “Main-sequence Fitting” technique to find the • distance to the Pleiades star cluster. • size of the Pleiades star cluster. • mass of the Pleiades star cluster. • age of the Pleiades stars cluster.

  4. All the stars within a given cluster are assumed to have the same ______. • spectral class • distance • color • luminosity class

  5. If you were to leave the Earth and travel 4 AUs from the Sun, how would the sun’s brightness change? • 1/2 as bright • 1/4 as bright • 1/8 as bright • 1/16 as bright • 1/32 as bright

  6. What two stellar properties are plotted on a color-magnitude diagram? • absolute magnitude and spectral class • absolute magnitude and color • apparent magnitude and color • apparent magnitude and distance

  7. Color is a measure of a star’s _____. • temperature • size • brightness • luminosity

  8. The “turn-off point” on the color-magnitude diagram of a star cluster can be used to find the cluster’s • temperature • distance • age • apparent magnitude

  9. Lab 09 Ages and Distances to Clusters

  10. Stellar Main-sequence Lifetime • Stellar Birth • Massive stars form quickly • Low mass stars form slowly • Main-sequence Stars • Fuse hydrogen in their cores • High mass stars • consume hydrogen at a furious rate • high luminosities • short lifetimes • Low mass stars • consume hydrogen at a low rate • low luminosities • long lifetimes • Giant Stars • Core hydrogen exhausted

  11. Main-Sequence Lifetimes

  12. Stars in a Cluster • Stars in a Cluster • Common Properties • Distance • Age • Chemical composition • Different Properties • Spectral Types (temperature) • Luminosity Class (size)

  13. Star clusters help us test models of stellar evolution because they contain stars of same age but at different life stages Massive blue stars die first, followed by white, yellow, orange, and red stars

  14. Pleiades - Open Cluster Distance - 380 ly Age - 100 million years B6 stars -- 100 million yrs. MS lifetime age of cluster = lifetime of stars at main-sequence turnoff point

  15. M3 - Globular Cluster distance - 32,000 ly age - 10 billion years old standard main-sequence G stars -- 10 billion yrs. MS lifetime age of cluster = lifetime of stars at main-sequence turnoff point

  16. Interstellar Dust • Reddens Light (makes stars appear cooler) • Dims Light (makes stars appear further away)

  17. Important: Do not write or mark on the Cluster Handout

  18. M45

  19. D.M. = 5.7

  20. M45 5.7

  21. Distance = 130 pc D.M. = 5.7 M45 5.7 130

  22. Color Excess = + 0.05

  23. 5.55 391 0.15 0.05 M45 5.7 130 120

  24. Color of Turn-off Point = - 0.01

  25. 5.55 391 0.15 0.05 -0.01 M45 5.7 130 120

  26. Age = 1 X 108 years Color of Turn-off Point = - 0.01 5.55 420 0.15 0.05 -0.01 M45 5.7 130 129 1x108

  27. 5.55 391 0.15 0.05 -0.01 M45 5.7 130 120 1x108

  28. The End

More Related