2. NASA's Chandra X-ray Observatory, which was launched and deployed by Space Shuttle Columbia on July 23, 1999, is the most sophisticated X-ray observatory built to date. Chandra X-ray Observatory CXC

3. On July 23, 1999 at 12:31 a.m. EDT, the solid rocket motors in the Solid Rocket Boosters on NASA Shuttle Transportation System 93 (STS-93) ignited. Under the command of Col. Eileen Collins, the shuttle lifted off the launch pad at John F. Kennedy Space Center in Cape Canaveral, Florida. Its mission: to carry NASA's Chandra X-ray Observatory into space. Chandra X-ray Observatory CXC

4. From left are Mission Specialist Michel Tognini of France, Pilot Jeffrey S. Ashby, Commander Eileen M. Collins, and Mission Specialists Steven A. Hawley (Ph.D.) and Catherine G. Coleman (Ph.D.). Chandra X-ray Observatory CXC

5. Chandra X-ray Observatory CXC STS-93 Launch Two minutes after launch, the burn from the Solid Rocket Boosters was completed and the boosters separated from the shuttle. Parachutes blossomed and carried the boosters gently into the Atlantic Ocean where they were recovered

6. Forty-five minutes after launch the shuttle orbiter Columbia achieved a circular orbit 320 kilometers (200 miles) above Earth. Chandra X-ray Observatory CXC

7. Chandra X-ray Observatory CXC Deployment of Chandra, July 23, 1999 At two hours into the mission, the payload doors opened and the astronauts prepared to deploy the Chandra X-ray Observatory. For six hours, while Columbia silently orbited Earth, all the systems on the Chandra spacecraft were checked out and the satellite reached equilibrium with the conditions in space.

8. Eight hours and 42 minutes after launch, a small spring gently catapulted Chandra Deployment the giant satellite into space. Columbia pulled away a safe distance, and at 9 hours and 41 minutes into the mission, the first of two solid rocket motors attached to Chandra's spacecraft module ignited. The rocket burned for two minutes before shutting off and separating from the spacecraft. Three minutes later the second rocket fired. Chandra X-ray Observatory CXC

9. Chandra X-ray Observatory CXC Chandra’s Instruments These firings lifted the Chandra X-ray Observatory into a highly elliptical orbit that took the satellite 64,000 kilometers away from Earth before returning to a closest approach of 320 kilometers. The solar panels deployed and the second solid rocket motor separated.

10. Chandra X-ray Observatory CXC Chandra in Orbit Over the course of the next nine days a 2nd propulsion system fired 5 times to take the observatory to its final orbit. In this orbit, the distance of Chandra from Earth ranged from 10,000 miles) to about 83,000 miles), more than 1/3 of the way to the moon. The time to complete an orbit is 64 hours and 18 minutes. This allows for observation times as long as 52 hours, much longer than can be achieved with the low-Earth orbit used by most satellites. Earth Chandra Moon

11. Chandra X-ray Observatory The Chandra science team was rewarded with beautiful images about one month after launch. Cas A is the remnant of a star that exploded about 300 years ago. CXC

12. Chandra X-ray Observatory CXC

13. 1.Chandra flies 200 times higher than Hubble - more than 1/3 of the way to the moon! 2.Chandra can observe X-rays from clouds of gas so vast that it takes light five million years to go from one side to the other! 3.During maneuvers from one target to the next, Chandra slews more slowly than the minute hand on a clock. 4.At 45 feet long, Chandra is the largest satellite the shuttle has ever launched! 5.If Colorado were as smooth as Chandra's mirrors, Pikes Peak would be less than one inch tall! 6.Chandra's resolving power is equivalent to the ability to read a stop sign at a distance of twelve miles. 7.The electrical power required to operate the Chandra spacecraft and instruments is 2 kilowatts, about the same power as a hair dryer. 8.The light from some of the quasars observed by Chandra will have been traveling through space for ten billion years. 9.STS-93, the space mission that deployed Chandra, was the first NASA shuttle mission commanded by a woman. 10.Chandra can observe X-rays from particles up to the last second before they fall into a black hole!!!

14. Match up the date and the time of night you are stargazing. During Daylight Savings Time (about from April to October, you will have to set your SkyWheel one hour behind.) Hold the SkyWheel overhead. If you are facing north, hold your SkyWheel so that the words “Northern Horizon” are in front (facing north).

15. Set your Sky Wheel for the date and time above! What constellation is in the red oval? GRRR!

16. Pointer stars in the Big Dipper North Star (Polaris) Part of Ursa Major is called the Big Dipper. Once you have found this, it is easy to find the North Star (Polaris). In Brunswick, ME, if you point one arm straight up and point the other towards north along the horizon, you will find the North Star about halfway in between.

17. What constellation is in the red oval? grrr! North Star (Polaris)

18. What else can you see? Watch out! One might breathe fire!

19. Do the outlines help?

20. Were you right?

21. Left: M82, at a distance of 11 million light years, is a rare nearby starburst galaxy where stars are forming and expiring at a rate ten times higher than in our galaxy. Right: Chandra images evidence for a black hole in M82. Chandra scientists discovered a glowing bubble of hot gas and an unexpected X-ray bright central star within Cat's Eye Nebula. Chandra image Hubble image Artist’s image of a black hole My eye? This image of the large spiral galaxy NGC 2841 shows multimillion degree gas (blue/X-ray) rising above the disk of stars and cooler gas (gray/optical). composite image

22. Turn your Sky Wheel so that the words “Eastern Horizon” face to the front. Whose “belt” is in the red box?

23. The star in his left shoulder (Betelgeuse) is a red giant and even looks pink with the naked eye! The star “twins” Castor and Pollux are part of what constellation?

24. The stars in this red box are part of what constellation? Hint: It is Neptune, the sea god, riding his seahorse drawn chariot across the sky!

25. Do the outlines help?

26. Were you right?

27. Image of the Orion Nebula Cluster showing young stars producing violent X-ray outbursts, or flares, much more frequent and energetic than anything seen today from our 4.6 billion-year-old Sun. Supernova remnant, IC 443 The yellow arrow points to a neutron star that is spewing out a comet-like wake of high- energy particles as it races through space. A superdense neutron star left behind by a stellar death or supernova in 1054 A.D is spewing out a blizzard of extremely high-energy particles into the expanding debris field known as the Crab Nebula. composite image Chandra image composite image There are 10,000,000 of us! How will we ever fit? A neutron star would have the same density as 10 million full-sized African elephants in the space of a thimble.

28. Turn your Skywheel so that the words “Western Horizon” face to the front. What is the constellation in the red box? Hint: This constellation is sometimes called the Northern Cross.

29. Do the outlines help?

30. Were you right?

31. This Chandra image shows a giant football- shaped cavity (yellow/light orange inner region) within X- ray emitting hot gas surrounding the galaxy Cygnus A. This image reveals dramatic details of a portion of the Crescent Nebula, a giant gaseous shell created by powerful winds blowing from the massive star The X-ray emission from Cygnus X-3 is due to matter falling from a normal star onto a nearby neutron star or black hole. A game of intergalactic toss?

32. Turn your Skywheel so that the words “Southern Horizon” face to the front. What is the constellation in the red box?

33. What other constellations can you see? Part of one is in the red circle.

34. Here are the outlines…

35. Pices Were you right?

36. This composite X-ray (red)/optical (blue & white) image of the spiral galaxy M74 highlights an ultraluminous X-ray source (ULX) which radiates 10 to 1000 times more X-ray power than neutron stars and stellar mass black holes. This image of the Cartwheel Galaxy combines data from four different observatories: the Chandra X-ray Observatory (purple); the Galaxy Evolution Explorer satellite (ultraviolet/blue); the Hubble Space Telescope (visible/green); the Spitzer Space Telescope (infrared/red). The Chandra image shows Mira A (right), a highly evolved red giant star, and Mira B (left), a white dwarf. To the right of the image is an artist's conception Pices

37. Don’t forget to look directly over your head! Cepheus Cassiopeia Happy Stargazing! Cas A – The youngest supernova remnant in the Milky Way NGC 40: This image shows hot gas around a dying, Sun-like star.