1. A105 Stars and Galaxies  Homework 4 due Sept. 21  Telescopes  Read units 26, 27  News Quiz Today Today’s APODAPOD ROOFTOP & SOLAR LAB Sept. 20

2. OBSERVING OPPORTUNITIES Rooftop session Sept. 20 at 8:30 PM –SWAIN WEST roof – take the elevator to the 3 rd floor and follow the signs Solar Lab Sept. 20 at 2:00 PM –Kirkwood Observatory, 2 nd floor

3. Picking Up Homework Pick up your homework from the bins by the elevator We’ll put homework in the back of the lecture room the first day it’s returned ELEVATOR BIN

4. GRADES!  Homeworks – 100 pts, best 10 of 13  Quizzes – 100 pts, best 10 of 13  Exams – 600 pts  Project – 100 pts (100 only for outstanding projects)  Observing – 100 pts, 4 activities required DON’T GET FOOLED!

5. Three types of spectra  Continuous – Thermal Radiator  Emission – from hot gas  Absorption – continuous spectrum passes through cooler gas

6. Continuous Spectrum The spectrum of a common (incandescent) light bulb spans all visible wavelengths, without interruption

7. Emission Line Spectrum A thin or low-density cloud of gas emits light only at specific wavelengths that depend on its composition and temperature, producing a spectrum with bright emission lines

8. Absorption Line Spectrum A cloud of gas between us and a light bulb can absorb light of specific wavelengths, leaving dark absorption lines in the spectrum

9. Review: The Doppler Shift for Light Astronomers us the Doppler effect to measure the “radial” velocities of astronomical objects Radial velocities are motions toward or away from us

10. Measuring the Shift Stationary Moving Away Away Faster Moving Toward Toward Faster Doppler shift tells us ONLY about the part of an object’s motion toward or away from us The amount of blue or red shift tells us an object’s speed toward or away from us:

11. Beginnings… This sketch of a telescope was included in a letter written by Giovanpattista della Porta in August 1609

12. Thomas Harriet’s Drawings of the Moon and Sun

13. Technology moves forward… Telescopes get BIGGER

14. Think about a square telescope…

15. Round ones work the same way The amount of light a telescope collects increases as the area of the primary mirror (the square of the diameter)

16. Telescopes and how they work from lenses… to mirrors

17. Kirkwood Observatory 12” refracting telescope (uses lenses to form an image) Built in 1901 Used for public outreach and teaching

18. The 3.5-meter WIYN telescope Kitt Peak, Arizona

19. The WIYN Telescope Mirror: 3.5 meter diameter Located at Kitt Peak, Arizona Built in 1995 IU has a share

20. New Telescope Technology “Fast” mirror Lightweight mirror Mirror shape controlled Mechanically simpler mount Temperature control

21. Casting the WIYN Mirror

22. Polishing the WIYN Mirror

23. The WIYN New Technology “Dome” Compact telescope chamber Open for ventilation Insulated to keep cool Heated spaces kept separate

24. Breaking the “cost curve” New technology provides better performance at lower cost WIYN

25. in 6-8 meter telescopes WIYN TECHNOLOGY

26. Going Observing To observe at a major observatory, an astronomer must: –Submit a proposal –Plan ahead –Work day and night Astronomers may also “observe” via the Internet –Space observatories –Data archives –Remote observing

27. Computers Operating a computer and being able to program are as important as knowing how to use a telescope Computers accomplish several tasks: –Solve equations –Move telescopes and feed information to detectors –Convert data into useful form –Communicate and distribute data

28. Who are the Astronomers? Come from various backgrounds and countries Studied physics and astronomy in college with more specialized work in graduate school Share deep passion for understanding the Universe and how it works

29. Detecting the Light Electronic Detectors –Incoming light strikes an array of semiconductor pixels that are coupled to a computer –Efficiencies of 95% are possible –CCD (Charged-coupled Device) The Human Eye Once used with a telescope to record observations or make sketches Not good at detecting faint light, even with the 10-meter Keck telescopes Photographic plates chemically stores data to record fainter light Very inefficient: only 4% of the light recorded on film

30. Observing at Nonvisible Wavelengths Astronomical objects radiate in wavelengths other than visible (thermal radiators) –Cold gas clouds –Dust clouds –Hot gases around black holes Telescopes for each wavelength region –Require their own unique design –All collect and focus radiation and resolve details –False-color pictures to show images –Some wavelengths must be observed from space

31. Is the Atmosphere Transparent or Opaque? Applets\light_absorption.swf

32. Radio Telescopes Radio telescopes work the same way as optical telescopes Large metal “mirror” reflects radio waves

33. Why Observatories in Space? Even at wavelengths where the atmosphere is transparent, the atmosphere “blurrs” light –Why to stars “twinkle” (scintillation)? –The condition of the sky for viewing is referred to as seeing –Distorted seeing can be improved by adaptive optics

34. Space vs. Ground- Based Observatories Space-Based Advantages –Freedom from atmospheric blurring –Observe at wavelengths not transmitted by air Ground-Based Advantages –Larger collecting power –Equipment easily fixed Ground-Based Problems –Weather, humidity, and haze –Light pollution

36. Light Pollution artificial lighting threatens all observatories on the ground shield all outdoor lights

37. Exploring New Wavelengths: Gamma Rays 1967 gamma-ray bursts from space discovered by military satellites watching for Soviet nuclear bomb explosions Source of gamma-ray bursts is now (almost) understood Gamma rays from Milky Way center and remnants of exploded stars

38.  Read unit 30  News Quiz on Tuesday  NovaSearch homework (#5) worksheet due Thursday  EXAM Sept 28  Units 26, 27  Homework #4 due (telescopes)  Solar Lab 2 PM Weds.  Rooftop 8:30 PM Weds.