Astronomy 100 Class Schedule and Grading Information

1. Astronomy 100Tuesday, Thursday 2:30 - 3:45 pmTom Burbinetburbine@mtholyoke.eduwww.xanga.com/astronomy100

2. Exam • Average = 30.3/40 = 76% • Grades ranged from 0 to 40 • If you guess randomly, a 0 should happen 0.013% of the time • Should happen every 7523 tests

3. Grade Distribution • 2 scores between 0 and 10 • 19 scores between 11 and 20 • 47 scores between 21 and 25 • 66 scores between 26 and 30 • 112 scores between 31 and 35 • 65 scores between 36 and 40

4. Schedule • Apr 12  Tue  The Milky Way                                              • Apr 14  Thu      Galaxies                                                   • Apr 19  Tue        Life of a Galaxy                                        • April 21 Thu No class • Apr 26  Tue       Dark Matter                                                 • Apr 28  Thu      Cosmology and the Big Bang                         • May 3   Tue       Is there life elsewhere in the Solar System?     • May 5   Thu      Is there life elsewhere in the Universe?           • May 10  Tue      Exam 4 (material from April 12 – May 5) • May 12  Thu      Exam 5 (Comprehensive) • May 20 Fri Final Exam (Comprehensive) (Optional)

5. Exam 5 and Final • Cumulative • I will take 10 questions from Exams 1-4 • No question will be exactly the same as ones on previous exams • Most questions will be very similar to those on previous exams

6. HW and PRS • You need 20 PRS points to get 10% of your grade 100% • You need 20 HW points to get 10% of your grade 100% • We will use the PRS about twice a class • We will have about 10 more HW points

7. Exams • I am taking the top 4 exams out of 6 exams

8. If your exam average is 55% and your HW/PRS score is 100%, your average is 64% • If your exam average is 60% and your HW/PRS score is 100%, your average is 68% • If your exam average is 65% and your HW/PRS score is 100%, your average is 72% • If your exam average is 70% and your HW/PRS score is 100%, your average is 76% • If your exam average is 75% and your HW/PRS score is 100%, your average is 80% • If your exam average is 80% and your HW/PRS score is 100%, your average is 84% • If your exam average is 85% and your HW/PRS score is 100%, your average is 88% • If your exam average is 90% and your HW/PRS score is 100%, your average is 92%

9. Grading • I want a class average at the end of the semester (top 4 exam scores, PRS, HW) to be at least 80% • If the class average at the end of the semester is less than 80% • I will multiply everybody’s average by a number that equals ___________80%______________ class average at end of semester

10. Grading • If the class average is 80% or higher, your grade will be based on your top 4 exam scores, PRS, and HW

11. If the class average is 80% or higher, the grade distribution will be something like this • A 92.50 - 100 • A- 89.50 – 92.49 • B+ 87.50 – 89.49 • B 82.50 – 87.49 • B- 79.50 – 82.49 • C+ 77.50 – 79.49 • C 72.50 – 77.49 • C- 69.50 – 72.49 • D+ 67.50 – 69.49 • D 62.50 – 67.49 • D- 59.50 – 62.49 • ? below 59.49

12. OWL assignment (Due Thursday) • There is be an OWL assignment due on Thursday April 14 at 11:59 pm. • There are 15 questions and a perfect score will give you 2 homework points.

13. Homework Assignment(Due May 3) • Make up a test question for next test • Multiple Choice • A-E possible answers • 1 point for handing it in • 1 point for me using it on test • The question needs to be on material that will be on the 3rd exam • 15 people got extra HW credit for me using their question (or inspiring a question)

14. What is a Galaxy? • A Galaxy is a huge collection of stars that are bound together by gravity

15. Number of Galaxies • There are thought to be 80 billion galaxies in the observable universe

18. We live • We live in the Milky Way Galaxy • Thought to be 13.6 ± 0.8 billion years old

19. Why is it called Milky Way? • It looked like a flowing ribbon of Milk to the Greeks

21. Milky Way • Contains between 200 and 400 billion stars • Diameter is 100 thousand light years across

26. PRS question • What two elements are the two largest constituents of the Milky Way Galaxy? • A) Helium and Carbon • B) Helium and Oxygen • C) Hydrogen and Iron • D) Carbon and Iron • E) Hydrogen and Helium

27. PRS question • What two elements are the two largest constituents of the Milky Way Galaxy? • A) Helium and Carbon • B) Helium and Oxygen • C) Hydrogen and Iron • D) Carbon and Iron • E)Hydrogen and Helium

28. Our Galaxy • There is a disk part • And Spherical Part –Bulge and Halo

30. Disk • The disk includes all of the material (gas, dust, stars, and star clusters) which are confined to the plane of rotation of the galaxy • Contains lots of gas and dust and is therefore the site of active star formation • Lots of blue stars (O and B stars)

31. Why are O and B stars evidence of active star formation? • A) Because they tend to be massive • B) Because they tend to be older • C) Because they tend to be younger • D) Because they tend to be less massive • E) Because they tend to be cooler

32. Why are O and B stars evidence of active star formation? • A) Because they tend to be massive • B) Because they tend to be older • C) Because they tend to be younger • D) Because they tend to be less massive • E) Because they tend to be cooler

33. Spiral Arms • 6 spiral arms

34. Spiral Arms • Can’t be fixed patterns of stars • Stars nearer the center would complete an orbit much quicker than stars farther out • Would cause the arms to wrap up into a tight coil • We do not see that among spiral galaxies

37. Spiral Arms • Spiral Arms are actively forming new stars • In spiral arms, see clusters of young, bright, blue stars • In spiral arms, we also see lots of gas and dust • Between the arms, you see old, red stars

40. Bulge • The bulge is at the center of the galaxy, is a flattened spheroid • This is a high density region where red stars predominate, which are very old and about 10 billion years old • There is growing evidence for a very massive black hole at its center

41. Rotation curve

42. Rotation curve

43. Things you need to remember • Higher the Force of Gravity • The faster the velocity of an object rotating around a larger object

44. Balancing Forces • Like a spinning hammer thrower • Faster you spin the hammer • Stronger the Force needed to keep it from flying off

45. Rotation Curve • Rotation curve of galaxy does not fall off with distance from center • The mass of our galaxy is not concentrated in center • More evenly distributed

46. What’s the problem • The stars in the disk do not have enough mass to produce this rotation curve • The unseen mass is thought to be primarily in the halo

47. Dark Matter • Most (~90%) of the Milky Way Galaxy is thought to be made of Dark Matter • Dark Matter is matter where its force of gravity can be felt but you can’t actually see it

48. Possible Dark Matter Candidates • neutrinos with mass • undetected brown dwarfs • white dwarf stars • black holes • exotic subatomic particles

50. Halo • The halo is a diffuse spherical region, which surrounds the disk. • It has a low density of old stars mainly in globular clusters (these consist of between 10,000 - 1,000,000 stars). • The halo is believed to be composed mainly of dark matter