1. Studying for the Exam Relevant chapters: E, 1, 2 & 3 To prepare for the exam it is helpful to … –review readings –review lecture notes online (esp. concept questions) –revisit homework –look over the activities

2. Studying for the Exam Filter out the relevant information, don’t focus on details Properties of relevant information: –Information appears repeatedly in course materials (readings, slides, homework,…) –It is not an isolated fact, but can be “reasoned out” –It is an important concept (e.g. daily & monthly motion, scientific method)

3. Exam Questions About 30 multiple choice questions A few short answer problems Types of questions NOT on the exam: –What’s Galileo’s birth year? –What is the frequency of yellow light? –What is the distance of the Earth to the Sun? –What is the mathematical formula for the Hydrogen energy levels?

4. Exam Questions Types of questions that could be on the exam: –Why isn’t there a lunar eclipse every full moon? –It is noon in Westerville. Is it earlier/ later/different day/different season in Paris, France? –What is the difference between a sidereal and a solar day? –How high above the horizon is the polar star at noon if you are at 23 degrees northern latitude? –Given the wavelength of yellow light, what is its frequency?

5. Light hits Matter: Refraction Light travels at different speeds in vacuum, air, and other substances When light hits the material at an angle, part of it slows down while the rest continues at the original speed – results in a change of direction –Different colors bend different amounts – prism, rainbow

6. Application for Refraction Lenses use refraction to focus light to a single spot

7. Light hits Matter (II): Reflection Light that hits a mirror is reflected at the same angle it was incident from Proper design of a mirror (the shape of a parabola) can focus all rays incident on the mirror to a single place

8. Application for Reflection Curved mirrors use reflection to focus light to a single spot

9. Telescopes From Galileo to Hubble

10. Telescopes Light collectors Two types: –Reflectors (Mirrors) –Refractors (Lenses) Magnification: –ratio of focal lengths of objective and eyepiece –M = f obj /f eye –Example: 2000mm telescope with 40mm eyepiece: 50x

11. Reflecting Telescopes

12. Problems with Refractors Different colors (wavelengths) bent by different amounts – chromatic aberration Other forms of aberration Deform under their own weight Absorption of light Have two surfaces that must be optically perfect

13. Telescope Size A larger telescope gathers more light (more collecting area) Angular resolution is limited by diffraction of light waves; this also improves with larger telescope size

14. Resolving Power of Telescopes Andromeda Galaxy Telescope 1 Telescope 2 of double size

15. Resolving Power of Telescopes (II) Andromeda Galaxy Resolution: (a)10’ (b)1’ (c)5” (d)1”

16. Magnification The magnification of a telescope can easily be changed by plugging in a different eyepiece with a different focal length M= focal length of main lense or mirror focal length of eyepiece Example: F= 2000mm, f = 40 mm  M= 50

17. Atmospheric Limitations

18. Radio Window Optical Window IR Window

19. Largest Earth-Based Telescopes Hobby-Eberly Telescope, Davis Mountains, TX –11 m diameter –Cannot see all parts of the sky Keck I and II, Mauna Kea, HI –36  1.8 m hexagonal mirrors; equivalent to 10 m –Above most of atmosphere (almost 14,000 ft ASL) –Operating since 1993

20. Other Techniques Put telescopes on satellites –Hubble Space Telescope: 2.4 m, since 1990 Use computers to correct optics during light gathering: adaptive and active optics Interferometry Radio astronomy

21. Other Wavelengths Must be carried out on satellites (or rockets, balloons, etc.) due to strong absorption in the atmosphere Infrared astronomy High-energy (UV, X-ray, gamma-ray) astronomy

22. Full-Spectrum Coverage  Each region of the electromagnetic spectrum gives us valuable information about the universe (only these frequency bands can be observed with ground- based telescopes) Radio Infrared Visible X-Ray Gamma -ray