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1. The Detection ofExtrasolar Planets Dr. Brooke P. Skelton
2. GRAVITY
3. Our Solar System
4. Our Solar System, seen from 4 billion miles
5. Formation of a Star
6. Proplyds in Orion Nebula
7. Detecting Extrasolar Planets Astrometry
8. Newtons Law of Gravity
G M1 M2
9. Astrometry
10. Detecting Extrasolar Planets Astrometry
11. Pulsar Timing Variations
12. Detecting Extrasolar Planets Astrometry
14. Radial Velocity Variations
15. Newtons Law of Gravity
G M1 M2
16. Keplers Laws The orbit of a planet is an ellipse with the Sun at one focus.
17. Deriving Planetary Masses Observe period and amplitude of stars motion.
18. Deriving Planetary Masses Observe period and amplitude of stars motion.
19. Deriving Planetary Masses Observe period and amplitude of stars motion.
20. Deriving Planetary Masses Observe period and amplitude of stars motion.
21. Deriving Planetary Masses Observe period and amplitude of stars motion.
22. Detecting Extrasolar Planets Astrometry
23. Microlensing
24. Detecting Extrasolar Planets Astrometry
25. Imaging in the near-infrared
26. Detecting Extrasolar Planets Astrometry
27. Seeing extrasolar planets
28. So what do we find?
29. Detected Extrasolar Planets Astrometry 0 candidates
30. The 61 Cygni system
31. Detected Extrasolar Planets Astrometry 0 candidates
32. PSR B1257+12
33. Detected Extrasolar Planets Astrometry 0 candidates
34. GQ Lup and AB Pic
35. Detected Extrasolar Planets Astrometry 0 candidates
36. OGLE 2005-BLG-390L
37. Detected Extrasolar Planets Astrometry 0 candidates
38. 51 Pegasi
40. A Very Eccentric Planet
41. Masses and Orbits of Extrasolar Planets
42. A Planetary System
43. Upsilon Andromedae
45. Newtons Form of Keplers Third Law
4p2
46. A Sample of Observed Planets