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Space Telescopes and Astronomy Physics 113 Goderya Chapter(s): 6 Learning Outcomes:

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Presentation on theme: "Space Telescopes and Astronomy Physics 113 Goderya Chapter(s): 6 Learning Outcomes:"— Presentation transcript:

1 Space Telescopes and Astronomy Physics 113 Goderya Chapter(s): 6 Learning Outcomes:

2 Space Astronomy

3 The Hubble Space Telescope Avoids turbulence in the Earth’s atmosphere Extends imaging and spectroscopy to (invisible) infrared and ultraviolet Launched in 1990; maintained and upgraded by several space shuttle service missions throughout the 1990s and early 2000’s

4 NASA’s Space Infrared Telescope Facility (SIRTF)

5 Infrared Astronomy However, from high mountain tops or high- flying air planes, some infrared radiation can still be observed. NASA infrared telescope on Mauna Kea, Hawaii Most infrared radiation is absorbed in the lower atmosphere.

6 Ultraviolet Astronomy Ultraviolet radiation with < 290 nm is completely absorbed in the ozone layer of the atmosphere. Ultraviolet astronomy has to be done from satellites. Several successful ultraviolet astronomy satellites: IRAS, IUE, EUVE, FUSE Ultraviolet radiation traces hot (tens of thousands of degrees), moderately ionized gas in the Universe.

7 X-Ray Astronomy X-rays are completely absorbed in the atmosphere. X-ray astronomy has to be done from satellites. NASA’s Chandra X-ray Observatory X-rays trace hot (million degrees), highly ionized gas in the Universe.

8 Gamma-Ray Astronomy Gamma-rays: most energetic electromagnetic radiation; traces the most violent processes in the Universe The Compton Gamma-Ray Observatory

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