1. What’s Getting Through to You? Science of SOFIA: NASA’s Airborne Infrared Observatory Presented by: Kathy Ivey Wilson, Comal ISD Steven Biles, McKinney ISD

2. Presentation Outline ● TEKS for Activity ● Why Airborne Astronomy? ● SOFIA program history ● SOFIA Advantages and Capabilities ● SOFIA Education Outreach ● Active Astronomy activity: Hidden Images

3. 8th Grade Science (8)(8) Earth and Space. The student knows characteristics of the universe. The student is expected to : (C) explore how different wavelengths of the electromagnetic spectrum such as light and radio waves are used to gain information about distances and properties of components in the universe TEKS What’s Getting Through to You? Science of SOFIA

4. Astronomy (2)Scientific processes. The student uses scientific methods during laboratory and field investigations. The student is expected to: (G)organize, analyze, evaluate, make inferences, and predict trends from data, including making new revised hypotheses when appropriate; (11)Science concepts. The student knows the characteristics and life cycle of stars. The students is expected to: (F)relate the use of spectroscopy in obtaining physical data on celestial objects such as temperature, chemical composition, and relative motion

5. Chemistry (6)Science concepts. The student knows and understands the historical development of atomic theory. The student is expected to: (B)understand the electromagnetic spectrum and the mathematical relationships between energy, frequency, and wavelength of light

6. Integrated Physics and Chemistry (5)Science concepts. The student recognizes multiple forms of energy and knows the impact of energy transfer and energy conservation in everyday life. The student is expected to: (G)explore the characteristics and behaviors of energy transferred by waves, including acoustic, seismic, light, and waves on water as they superpose on one another, bend around corners, reflect off surfaces, are absorbed by materials, and change direction when entering new materials

7. Physics (2)Scientific processes. The student uses a systematic approach to answer scientific laboratory and field investigative questions. The student is expected to: (J)organize and evaluate data and make inferences from data, including the use of tables, charts,, and graphs (K)communicate valid conclusions supported by the data through various methods such as lab reports, labeled drawings, graphic organizers, journals summaries, oral reports, and technology-based reports (7)Science concepts. The students knows the characteristics and behavior of waves. The student is expected to: (C)compare characteristics and behaviors of transverse waves, including electromagnetic waves and the electromagnetic spectrum, and characteristics and behaviors of longitudinal waves, including sound waves

10. Constellation Orion in visible wavelength NASA SOFIA Mission

11. Objects appear different depending on type of light Constellation Orion in far-infrared wavelength NASA SOFIA Mission

13. Stratospheric Observatory for Infrared Astronomy Joint venture of NASA and the German Aerospace Center SETI

14. SOFIA's relatively high operating altitude (39,000 to 45,000 feet) is above 99% of the water vapor in the atmosphere

15. SOFIA conducts observations that ground based telescopes cannot. Since SOFIA flies almost anywhere in the world, can use a variety of instruments, and make modifications as needed, it is more adaptable than any space-based telescope.

16. NASA allocated funding for study of aircraft astronomy in mid 1980’s. Funding postponed year after year. Finally in 1997 dedication ceremony held at NASA Ames and proposals went out to observing community. http://vathena.arc.nasa.gov/curric/space/lfs/kao_abov.jpg

17. ● First Light Instruments selected. ● In 2000 1st two instruments were completed. ● In 2002 telescope arrived in Waco from Germany. ● April of 2007 SOFIA completes first flight in Waco, Texas. ● In May 2007 SOFIA was flown to Dryden Flight Research Center for systems installation and integration. NASA-SOFIA

18. ● In 2009 SOFIA achieved first 100% open door flight. ● First Light achieved on May 25/26, 2010. Objects targeted were Jupiter and Messier 82 galaxy. ● Science observing phase begins in 2010 with first two instruments. ● Early 2012 educators selected to fly on SOFIA. ● In April 2013 SOFIA made 100th science flight. ● November 2013 Comet ISON targeted. ● Another 1st generation instrument delivered. ● In April 2013 SOFIA made 100th science flight. NASA SOFIA

19. EXES instrument flew in April 2014 for first time.

21. SOFIA advantages relative to the Hubble Space Telescope: ●IR: objects much cooler than normal stars like the Sun ●IR: objects inside or behind interstellar dust clouds; ●IR: organic molecules in space SOFIA relative to the Herschel Space Observatory: ●SOFIA has 7 (1st-gen) instruments vs. Herschel’s 3 ●SOFIA will have 2nd-, 3rd- and 4th-generation instruments ●SOFIA’s design lifetime of 20 yrs vs. Herschels 4 yrs

22. Adaptable to multiple instruments Faint Object Infrared Camera for the SOFIA Telescope Field Imaging Far Infraredl Line Spectrometer Echelon-Cross-Echelle Spectrograph German Receiver for Astronomy at Terahertz Frequencies First Light Infrared Test Experiment Camera High Speed Imaging Photometer for Occulation

25. SteveKathy

26. Teacher Associate Project for EXES Goal: prepare teachers to promote astronomy in community prepare teachers for flight experience on SOFIA provide opportunities for teachers to learn principles of astronomy and technology behind instrument development provide hands-on activities and interactive talks with co- investigators provide opportunities to attend national conferences and visit McDonald Observatory When: 3 Saturdays per semester--next meeting December 6th Where: University of Texas--Austin Contact: Dr. Keely Finkelstein http://www.as.utexas.edu/astronomy/research/exes/epo/announce.html http://www.as.utexas.edu/astronomy/research/exes/epo/announce.html

27. SOFIA’s Airborne Astronomy Ambassadors SOFIA’s Airborne Astronomy Ambassadors (AAA) effort is a professional development program aspiring to improve teaching, inspire students, and inform the community. Applications are due by December 22, 2014. Apply to Fly.

28. © 2014 Pearson Education, Inc. Radiation!

29. © 2014 Pearson Education, Inc. Information from the Skies Electromagnetic radiation: Transmission of energy through space without physical connection through varying electric and magnetic fields

30. © 2014 Pearson Education, Inc. Wave motion: Transmits energy without the physical transport of material

31. © 2014 Pearson Education, Inc. Waves in What? Water waves, sound waves, and so on, travel in a medium (water, air, …) Electromagnetic waves need no medium Created by accelerating charged particles

32. © 2014 Pearson Education, Inc. Waves in What? Electromagnetic waves: Oscillating electric and magnetic fields. Changing electric field creates magnetic field, and vice versa.

33. Spectroscopy

34. Spectroscope: Splits light into component colors Spectral Lines

35. Emission lines: Single frequencies emitted by particular atoms Spectral Lines

36. Emission spectrum can be used to identify elements Spectral Lines

37. Absorption spectrum: If a continuous spectrum passes through a cool gas, atoms of the gas will absorb the same frequencies they emit Spectral Lines

38. An absorption spectrum can also be used to identify elements. These are the emission and absorption spectra of sodium: Spectral Lines

39. Kirchhoff’s Laws: Luminous solid, liquid, or dense gas produces continuous spectrum Low-density hot gas produces emission spectrum Continuous spectrum striking a cool, thin gas produces absorption spectrum Spectral Lines

40. Kirchhoff’s laws illustrated: Spectral Lines

41. Emission lines can be used to identify atoms The Formation of Spectral Lines

42. Molecular spectra are much more complex than atomic spectra, even for hydrogen: (a) Molecular hydrogen(b) Atomic hydrogen Molecules

43. Information that can be gleaned from spectral lines: Chemical composition Temperature Radial velocity Spectral-Line Analysis

44. Active Astronomy (“AA”)classroom kit Middle School physical science / High School physics ● 4 activities comparing and contrasting visual & infrared light ● Teachers’ guide including curricular material, pre-/post-tests, parts list available for download at: http://www.sofia.usra.edu/Edu/materials/edu_materials.html ● Can request more EM spectrum posters via same page

45. Active Astronomy (AA) classroom kit Four activities comparing and contrasting V & IR light ◆ What’s Getting Through To You (EM Spectrum, Colors, Bandpasses) > Light Filters (Gels) ◆ Seeing the Invisible (Detecting Infrared Light) > Detector Circuit & Holographic Grating ◆ Reflection of Visual and Infrared Light > Mirror and Detector Circuit ◆ Listening to Light (Transmitting information using Infrared Light) > CD player, Transmitter Circuit, Detector Circuit

46. Further information: ◆ SOFIA Science Center home page / my e-mail address http://www.sofia.usra.edu dbackman@sofia.usra.edu ◆ SETI Institute http://www.seti.org ◆ Astronomical Society of the Pacific http://www.astrosociety.org ◆ Spitzer Space Telescope’s award-winning infrared tutorial http://coolcosmos.ipac.caltech.edu (includes instructions for home-made Herschel demo)

47. Helpful Links: What’s Getting Through... Teacher and Student Materials http://www.sofia.usra.edu/Edu/materials/activeAstronomy/section2.pdf Images for Activity http://www.sofia.usra.edu/Edu/materials/activeAstronomy/section2-images.pdf Other Activities for Learning About Infrared Light http://www.sofia.usra.edu/Edu/materials/activeAstronomy/activeAstronomy.html About SOFIA http://www.sofia.usra.edu/Sofia/sofia.html EXES Education and Public Outreach http://www.as.utexas.edu/astronomy/research/exes/epo/announce.html http://www.as.utexas.edu/astronomy/research/exes_epo.html SOFIA Airborne Astronomy Ambassadors Program http://www.sofia.usra.edu/Edu/programs/ambassadors/ambassadors.html

48. Credits NASA University of California Davis, EXES Program SOFIA Education and Public Outreach Space Daily Google Images