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| Line 240: |
Line 240: |
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| 16. What do you see in the Milky Way, at the edge of the Southern Cross? | | 16. What do you see in the Milky Way, at the edge of the Southern Cross? |
|
| |
|
| |
| Beginning at about 11 minutes into the film, the camera's fisheye view shows the entire
| |
| sky. At first you see the zodiacal light coming up from the western horizon,
| |
| dimming as it gets higher and farther from the Sun. Then, starting at about
| |
| 11:10 into the film ad at 2011-08-30 18:06 UT you'll see that this light
| |
| continues across the sky, through the Milky Way and is visible quite distinctly.
| |
| In this geometry, the light is called "Gegenshein", meaning "counter" shine,
| |
| opposite in direction to the Sun.
| |
|
| |
| 17. At this time of year, when the Sun is under
| |
| our feet in Nambian, where does the Gegenshein appear? Look at the frames
| |
| beginning at 013:25.
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
| Under Namibian Skies is a film by Lorenzo Comolli, based on images take by him,
| |
| Luigi Fontana, Giosue Ghioldi, and Emmanuele Sordini, with music by Vladimir
| |
| Sterzer. It is Copyright 2011 and the version
| |
| we offer in our immersive video room for this class is used with
| |
| permission.
| |
|
| |
| As you will see when you view it, the
| |
| film is based on time lapse images of the sky, and it compresses them into an
| |
| experience of an entire night in a brief 15 minutes. To do this, they have
| |
| selected image sequences looking in different directions over a few nights in
| |
| late August and early September, 2011. It
| |
| starts with a view to the west, then follows with ones to the north, then
| |
| the east and finally the south.
| |
| Begin this lab activity by watching it
| |
| it all the way through now, full screen and in the darkened visualization room.
| |
| After that, we will return to have you consider
| |
| some of the ideas it raises while you review parts of it frame by frame.
| |
|
| |
| Return here after you have seen the film in its entirety.
| |
|
| |
|
| |
| When you viewed the film there was a date and time indicated on the bottom left.
| |
| These are in "Universal Time" or "UT", that is, the time on the prime meridian
| |
| that is the reference line for geographic longitude on Earth.
| |
|
| |
| 1. Where is Namibia? Identify the continent it is in, above or below the
| |
| equator, its latitude in degrees, east or west of the prime meridian, and
| |
| longitude in hours.
| |
|
| |
| 2. When it is 10 PM in Namibia, what time is it where you presently are on
| |
| Earth?
| |
|
| |
| About 20 seconds into the film, the Sun sets in the west (notice the palm
| |
| trees), and soon after the cresent Moon appears. Notice that the track of the
| |
| Moon (and a hint of of the earlier track of the Sun) suggests it is coming from
| |
| above you and behind you, that is, on an arc that goes back toward the north.
| |
|
| |
| Short after this, about 40 seconds into the film, you see sunset again. Oddly
| |
| now the the Sun is setting more north of those palm trees. The film identifies
| |
| the date as August 24, 2011.
| |
|
| |
|
| |
| 3. Based on the images in the film,
| |
| make a reasoned estimate of what season it was when the first sunset (at
| |
| 20 seconds) was filmed. Explain your reasoning!
| |
|
| |
|
| |
|
| |
| Later that night the camera has panned more toward the southwest, and at 1 minute
| |
| into the film you see Alpha Centauri, the Sun's close celestial neighbor, with
| |
| the Milky way as a backdrop. Just below Alpha Centauri is Beta Centauri, the
| |
| second brightest star in Centaurus. The Milky Way, our own galaxy, streaks
| |
| upward from the horizon. Notice the bright object about half way toward the
| |
| horizon and a little toward the south (right) at this moment. It is not a star,
| |
| but it's name is Omega Centauri. You may need Google to find this answer!
| |
|
| |
|
| |
| 4. What is Omega Centauri, where is it with respect to our galaxy the Milky
| |
| Way, and how much farther is it from us than the closest star, Alpha Centauri?
| |
| While you answer these questions, ponder this view, with both Alpha and Omega
| |
| apparently separated by only 16 degrees in this beautiful dark sky.
| |
|
| |
|
| |
|
| |
| Moments later in the film it is the following night (now August 25, 2011) and
| |
| soon after sunset. The annotation in the film points out the zodiacal light.
| |
| This is dust in the plane of our solar system, scattering sunlight that we see
| |
| as a faintly glowing column. To experience this almost as you would if you were
| |
| there, freeze the move at this point. Sit close to the screen so that the wide
| |
| high definition (HD) field seems to surround you. The movie shows a field that
| |
| is about 180 degrees wide and 100 degrees high.
| |
|
| |
| The "ZODIACAL LIGHT" label coincidentally is also pointing toward a star-like
| |
| object. It's Saturn. The bright star above it and slightly south (left) is
| |
| Spica, Alpha Virginis, the brightest star in the constellation Virgo. The
| |
| bright star under the label is Arctaurus, Alpha Bootes, the brightest star in
| |
| Bootes.
| |
|
| |
|
| |
| 5. Explain why Saturn appears to be in the Zodiacal Light.
| |
|
| |
|
| |
| At 1:15 into the film a label "Milky Way Bulge" appears. Pause at this point
| |
| and consider the view you have now. The time is 20:15 UT, a few hours after
| |
| sunset. The Milky Way would be overhead in the real sky, and even here, seen as
| |
| an image on a flat screen, it is stunning as it spans upward from the southern
| |
| horizon on your left (west is nearly in front of you). The bright star Antares,
| |
| Alpha Scorpi, is below the bulge and left of the label.
| |
|
| |
| 6. What constellation is above the bulge, near the top of he frame? Hint: on a
| |
| sky map it is east of Scorpius and it looks like a teapot. In this case, the
| |
| teapot's spigot is down and its handle is up.
| |
|
| |
| Let the movie run and the Milky Way will drop toward the horizon. At UT 00:00
| |
| it is nearly parallel to the horizon, the the bulge is just above one of the
| |
| palm trees. The teapot is almost upside down, above the tall tree on the left.
| |
|
| |
| Nearly fours hours later, at UT 03:45, Jupiter is visible as the Earth's
| |
| rotation carries us around to bring it into view at the upper right. Those are
| |
| the Pleiades, a cluster of stars about 125 light years from us , just above and
| |
| right of Jupiter. The Pleiades are in Taurus, and most of the constellation is
| |
| off the image. Jupiter is in Aries. The bright star above Jupiter close to
| |
| the top of the frame is Menkar, Alpha Ceti.
| |
|
| |
|
| |
| 7. What is that hazy patch of light, near the left side of the image at the top
| |
| of the frame? The south celestial pole is just to the edge of this frame, to
| |
| the left close to the top. Use Google to find its distance in light years. If
| |
| Jupiter was about 30 light minutes from us at that time, how much farther is it to this hazy
| |
| patch?
| |
|
| |
|
| |
| As the film continues it takes you to sunset of the following night, now with a
| |
| view centered toward the north, with east to your left. The lights of
| |
| the nearby town on the horizon at your right make a convenient reference point.
| |
| At 01:56 the film labels the three bright stars of the summer triangle, a
| |
| configuration of stars that is familiar to sky watchers in the northern
| |
| hemisphere.
| |
|
| |
|
| |
| 8. What are the three stars of the Summer Triangle, and what constellations are
| |
| they in?
| |
|
| |
| Just afteward we see a geostationary satellite appear as it glints sunlight.
| |
|
| |
|
| |
| 9. In addition to its sudden appearance and then disappearance, what is it
| |
| about the geostationary satellite that tells us it is not a star? Explain.
| |
|
| |
|
| |
| At 02:24 into the film, Jupiter is seen above the northern horizon and Orion has
| |
| risen int he east. It's upside down from how we would see it in the northern
| |
| hemisphere (or more correctly, we are upside down compared to the familiar view
| |
| when we are in Namibia). Locate Orion.
| |
|
| |
|
| |
| 10. What is that bright reddish star on the lower right corner of the upside
| |
| down constellation?
| |
|
| |
|
| |
| On your left, which would be toward the west because in this view you're looking
| |
| north with east on your right, the Great Square of Pegasus is bove the horizon,
| |
| almost directly over the second red light from the edge. Look carefully and you
| |
| may be able to pick out the Andromeda Galaxy to the right of that light and 20
| |
| degrees above the horizon. In the northern hemisphere this galaxy is just
| |
| visible to the unaided eye when it is overhead in the fall.
| |
|
| |
|
| |
| At 02:33 the film shows us the sky seen looking southeast. The south celestial
| |
| pole is highlighted at 18:14 UT, just after sunset, and by 22:35 UT we see the
| |
| Large and Small Magellanic Clouds (LMC and SMC) rising.
| |
|
| |
| As the night goes by and morning twilight arrives around 04 UT, both of
| |
| theses small neighboring galaxies are above the south celestial pole. In the
| |
| frames that follow sunrise that morning, the movie shows a "star trail" view
| |
| that illustrates the track of stars around the south celestial pole. Draw an
| |
| imaginary line from the pole through the LMC and toward the upper left.
| |
|
| |
|
| |
| 11. What familiar constellation is on that line, close to the upper left corner
| |
| of the image? It might be easiest to pick out in the frame at 03:09, before the
| |
| star trail sequence.
| |
|
| |
|
| |
|
| |
| In the frames that follow you see the sky setting in the west, and then the view
| |
| pans around toward the south again to see the Magellanic Clouds high over the
| |
| pole before sunrise. The bright stars Achernar and Canopus are highlighted at
| |
| 04:09 into the film, seen at 02:24 UT in Namibia that night. These are two fo
| |
| the brightest southern sky stars, and Canopus is Alpha Carinae, the brightest
| |
| star in Carina while Achernar is the brightest star in Eridanus. Canopus has a
| |
| declination of about -52.6 degrees, that is, it is about 52.6 degrees below the
| |
| celestial equator.
| |
|
| |
|
| |
| 12. Identify a city in the United States from which Canopus would be visible.
| |
| The best answer would be one where Canopus could probably be sighted easily at
| |
| the right time of year.
| |
|
| |
|
| |
| Remember that on the first night of the film we had a faint crescent Moon just
| |
| visible above the horizon at sunset. As the film progresses it spans several
| |
| nights, and the camera lens has changed to show less of the sky, but more
| |
| detail.
| |
|
| |
|
| |
| 13. On 2011-08-31, what time did the Moon set (UT)? Use the palm trees as a
| |
| reference to get a sense of direction. Was the moonset south of,
| |
| north of , or exactly the same as the sunset
| |
| direction?
| |
|
| |
|
| |
|
| |
| As the film continues you will see again things you have noticed already, but
| |
| now they will be more familiar. There are new things to look at too. Around
| |
| 06:33, at 2011-08-25 20:38 UT, the two bright stars Alpha and Beta Centauri come
| |
| into our view looking southwest. Moments later, the film briefly hightlights
| |
| the Southern Cross. See if you can find this moment.
| |
|
| |
|
| |
| 14. What do you see in the Milky Way, at the edge of the Southern Cross?
| |
|
| |
|
| |
| At about 07:15 the camera is looking toward the
| |
| roll-off-roof telescope shelter, and the film highlights the line over which
| |
| geostationary satellites may appear.
| |
|
| |
|
| |
| 15. How many geostationary satellites did you pick out? Hint: It's more than
| |
| one!
| |
|
| |
|
| |
| Watch the view from inside the observatory and over the following nights. By
| |
| 2011-09-02 the gibbous Moon sets just before sunrise.
| |
|
| |
| 16. What direction is it to moonset now? Is it the same as it was when it was
| |
| a crescent? Explain.
| |
|
| |
|
| |
| Beginning at about 11 minutes into the film, the camera's fisheye view shows the entire
| |
| sky. At first you see the zodiacal light coming up from the western horizon,
| |
| dimming as it gets higher and farther from the Sun. Then, starting at about
| |
| 11:10 into the film ad at 2011-08-30 18:06 UT you'll see that this light
| |
| continues across the sky, through the Milky Way and is visible quite distinctly.
| |
| In this geometry, the light is called "Gegenshein", meaning "counter" shine,
| |
| opposite in direction to the Sun.
| |
|
| |
| 17. At this time of year, when the Sun is under
| |
| our feet in Nambian, where does the Gegenshein appear? Look at the frames
| |
| beginning at 013:25.
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
| Under Namibian Skies is a film by Lorenzo Comolli, based on images take by him,
| |
| Luigi Fontana, Giosue Ghioldi, and Emmanuele Sordini, with music by Vladimir
| |
| Sterzer. It is Copyright 2011 and the version
| |
| we offer in our immersive video room for this class is used with
| |
| permission.
| |
|
| |
| As you will see when you view it, the
| |
| film is based on time lapse images of the sky, and it compresses them into an
| |
| experience of an entire night in a brief 15 minutes. To do this, they have
| |
| selected image sequences looking in different directions over a few nights in
| |
| late August and early September, 2011. It
| |
| starts with a view to the west, then follows with ones to the north, then
| |
| the east and finally the south.
| |
| Begin this lab activity by watching it
| |
| it all the way through now, full screen and in the darkened visualization room.
| |
| After that, we will return to have you consider
| |
| some of the ideas it raises while you review parts of it frame by frame.
| |
|
| |
| Return here after you have seen the film in its entirety.
| |
|
| |
|
| |
| When you viewed the film there was a date and time indicated on the bottom left.
| |
| These are in "Universal Time" or "UT", that is, the time on the prime meridian
| |
| that is the reference line for geographic longitude on Earth.
| |
|
| |
| 1. Where is Namibia? Identify the continent it is in, above or below the
| |
| equator, its latitude in degrees, east or west of the prime meridian, and
| |
| longitude in hours.
| |
|
| |
| 2. When it is 10 PM in Namibia, what time is it where you presently are on
| |
| Earth?
| |
|
| |
| About 20 seconds into the film, the Sun sets in the west (notice the palm
| |
| trees), and soon after the cresent Moon appears. Notice that the track of the
| |
| Moon (and a hint of of the earlier track of the Sun) suggests it is coming from
| |
| above you and behind you, that is, on an arc that goes back toward the north.
| |
|
| |
| Short after this, about 40 seconds into the film, you see sunset again. Oddly
| |
| now the the Sun is setting more north of those palm trees. The film identifies
| |
| the date as August 24, 2011.
| |
|
| |
|
| |
| 3. Based on the images in the film,
| |
| make a reasoned estimate of what season it was when the first sunset (at
| |
| 20 seconds) was filmed. Explain your reasoning!
| |
|
| |
|
| |
|
| |
| Later that night the camera has panned more toward the southwest, and at 1 minute
| |
| into the film you see Alpha Centauri, the Sun's close celestial neighbor, with
| |
| the Milky way as a backdrop. Just below Alpha Centauri is Beta Centauri, the
| |
| second brightest star in Centaurus. The Milky Way, our own galaxy, streaks
| |
| upward from the horizon. Notice the bright object about half way toward the
| |
| horizon and a little toward the south (right) at this moment. It is not a star,
| |
| but it's name is Omega Centauri. You may need Google to find this answer!
| |
|
| |
|
| |
| 4. What is Omega Centauri, where is it with respect to our galaxy the Milky
| |
| Way, and how much farther is it from us than the closest star, Alpha Centauri?
| |
| While you answer these questions, ponder this view, with both Alpha and Omega
| |
| apparently separated by only 16 degrees in this beautiful dark sky.
| |
|
| |
|
| |
|
| |
| Moments later in the film it is the following night (now August 25, 2011) and
| |
| soon after sunset. The annotation in the film points out the zodiacal light.
| |
| This is dust in the plane of our solar system, scattering sunlight that we see
| |
| as a faintly glowing column. To experience this almost as you would if you were
| |
| there, freeze the move at this point. Sit close to the screen so that the wide
| |
| high definition (HD) field seems to surround you. The movie shows a field that
| |
| is about 180 degrees wide and 100 degrees high.
| |
|
| |
| The "ZODIACAL LIGHT" label coincidentally is also pointing toward a star-like
| |
| object. It's Saturn. The bright star above it and slightly south (left) is
| |
| Spica, Alpha Virginis, the brightest star in the constellation Virgo. The
| |
| bright star under the label is Arctaurus, Alpha Bootes, the brightest star in
| |
| Bootes.
| |
|
| |
|
| |
| 5. Explain why Saturn appears to be in the Zodiacal Light.
| |
|
| |
|
| |
| At 1:15 into the film a label "Milky Way Bulge" appears. Pause at this point
| |
| and consider the view you have now. The time is 20:15 UT, a few hours after
| |
| sunset. The Milky Way would be overhead in the real sky, and even here, seen as
| |
| an image on a flat screen, it is stunning as it spans upward from the southern
| |
| horizon on your left (west is nearly in front of you). The bright star Antares,
| |
| Alpha Scorpi, is below the bulge and left of the label.
| |
|
| |
| 6. What constellation is above the bulge, near the top of he frame? Hint: on a
| |
| sky map it is east of Scorpius and it looks like a teapot. In this case, the
| |
| teapot's spigot is down and its handle is up.
| |
|
| |
| Let the movie run and the Milky Way will drop toward the horizon. At UT 00:00
| |
| it is nearly parallel to the horizon, the the bulge is just above one of the
| |
| palm trees. The teapot is almost upside down, above the tall tree on the left.
| |
|
| |
| Nearly fours hours later, at UT 03:45, Jupiter is visible as the Earth's
| |
| rotation carries us around to bring it into view at the upper right. Those are
| |
| the Pleiades, a cluster of stars about 125 light years from us , just above and
| |
| right of Jupiter. The Pleiades are in Taurus, and most of the constellation is
| |
| off the image. Jupiter is in Aries. The bright star above Jupiter close to
| |
| the top of the frame is Menkar, Alpha Ceti.
| |
|
| |
|
| |
| 7. What is that hazy patch of light, near the left side of the image at the top
| |
| of the frame? The south celestial pole is just to the edge of this frame, to
| |
| the left close to the top. Use Google to find its distance in light years. If
| |
| Jupiter was about 30 light minutes from us at that time, how much farther is it to this hazy
| |
| patch?
| |
|
| |
|
| |
| As the film continues it takes you to sunset of the following night, now with a
| |
| view centered toward the north, with east to your left. The lights of
| |
| the nearby town on the horizon at your right make a convenient reference point.
| |
| At 01:56 the film labels the three bright stars of the summer triangle, a
| |
| configuration of stars that is familiar to sky watchers in the northern
| |
| hemisphere.
| |
|
| |
|
| |
| 8. What are the three stars of the Summer Triangle, and what constellations are
| |
| they in?
| |
|
| |
| Just afteward we see a geostationary satellite appear as it glints sunlight.
| |
|
| |
|
| |
| 9. In addition to its sudden appearance and then disappearance, what is it
| |
| about the geostationary satellite that tells us it is not a star? Explain.
| |
|
| |
|
| |
| At 02:24 into the film, Jupiter is seen above the northern horizon and Orion has
| |
| risen int he east. It's upside down from how we would see it in the northern
| |
| hemisphere (or more correctly, we are upside down compared to the familiar view
| |
| when we are in Namibia). Locate Orion.
| |
|
| |
|
| |
| 10. What is that bright reddish star on the lower right corner of the upside
| |
| down constellation?
| |
|
| |
|
| |
| On your left, which would be toward the west because in this view you're looking
| |
| north with east on your right, the Great Square of Pegasus is bove the horizon,
| |
| almost directly over the second red light from the edge. Look carefully and you
| |
| may be able to pick out the Andromeda Galaxy to the right of that light and 20
| |
| degrees above the horizon. In the northern hemisphere this galaxy is just
| |
| visible to the unaided eye when it is overhead in the fall.
| |
|
| |
|
| |
| At 02:33 the film shows us the sky seen looking southeast. The south celestial
| |
| pole is highlighted at 18:14 UT, just after sunset, and by 22:35 UT we see the
| |
| Large and Small Magellanic Clouds (LMC and SMC) rising.
| |
|
| |
| As the night goes by and morning twilight arrives around 04 UT, both of
| |
| theses small neighboring galaxies are above the south celestial pole. In the
| |
| frames that follow sunrise that morning, the movie shows a "star trail" view
| |
| that illustrates the track of stars around the south celestial pole. Draw an
| |
| imaginary line from the pole through the LMC and toward the upper left.
| |
|
| |
|
| |
| 11. What familiar constellation is on that line, close to the upper left corner
| |
| of the image? It might be easiest to pick out in the frame at 03:09, before the
| |
| star trail sequence.
| |
|
| |
|
| |
|
| |
| In the frames that follow you see the sky setting in the west, and then the view
| |
| pans around toward the south again to see the Magellanic Clouds high over the
| |
| pole before sunrise. The bright stars Achernar and Canopus are highlighted at
| |
| 04:09 into the film, seen at 02:24 UT in Namibia that night. These are two fo
| |
| the brightest southern sky stars, and Canopus is Alpha Carinae, the brightest
| |
| star in Carina while Achernar is the brightest star in Eridanus. Canopus has a
| |
| declination of about -52.6 degrees, that is, it is about 52.6 degrees below the
| |
| celestial equator.
| |
|
| |
|
| |
| 12. Identify a city in the United States from which Canopus would be visible.
| |
| The best answer would be one where Canopus could probably be sighted easily at
| |
| the right time of year.
| |
|
| |
|
| |
| Remember that on the first night of the film we had a faint crescent Moon just
| |
| visible above the horizon at sunset. As the film progresses it spans several
| |
| nights, and the camera lens has changed to show less of the sky, but more
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| detail.
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|
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|
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| 13. On 2011-08-31, what time did the Moon set (UT)? Use the palm trees as a
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| reference to get a sense of direction. Was the moonset south of,
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| north of , or exactly the same as the sunset
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| direction?
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|
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|
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|
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| As the film continues you will see again things you have noticed already, but
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| now they will be more familiar. There are new things to look at too. Around
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| 06:33, at 2011-08-25 20:38 UT, the two bright stars Alpha and Beta Centauri come
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| into our view looking southwest. Moments later, the film briefly hightlights
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| the Southern Cross. See if you can find this moment.
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|
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|
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| 14. What do you see in the Milky Way, at the edge of the Southern Cross?
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|
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|
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| At about 07:15 the camera is looking toward the
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| roll-off-roof telescope shelter, and the film highlights the line over which
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| geostationary satellites may appear.
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|
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|
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| 15. How many geostationary satellites did you pick out? Hint: It's more than
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| one!
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|
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|
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| Watch the view from inside the observatory and over the following nights. By
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| 2011-09-02 the gibbous Moon sets just before sunrise.
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|
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| 16. What direction is it to moonset now? Is it the same as it was when it was
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| a crescent? Explain.
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|
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|
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| Beginning at about 11 minutes into the film, the camera's fisheye view shows the entire
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| sky. At first you see the zodiacal light coming up from the western horizon,
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| dimming as it gets higher and farther from the Sun. Then, starting at about
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| 11:10 into the film ad at 2011-08-30 18:06 UT you'll see that this light
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| continues across the sky, through the Milky Way and is visible quite distinctly.
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| In this geometry, the light is called "Gegenshein", meaning "counter" shine,
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| opposite in direction to the Sun.
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|
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| 17. At this time of year, when the Sun is under
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| our feet in Nambian, where does the Gegenshein appear? Look at the frames
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| beginning at 013:25.
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| Under Namibian Skies is a film by Lorenzo Comolli, based on images take by him,
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| Luigi Fontana, Giosue Ghioldi, and Emmanuele Sordini, with music by Vladimir
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| Sterzer. It is Copyright 2011 and the version
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| we offer in our immersive video room for this class is used with
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| permission.
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|
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| As you will see when you view it, the
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| film is based on time lapse images of the sky, and it compresses them into an
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| experience of an entire night in a brief 15 minutes. To do this, they have
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| selected image sequences looking in different directions over a few nights in
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| late August and early September, 2011. It
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| starts with a view to the west, then follows with ones to the north, then
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| the east and finally the south.
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| Begin this lab activity by watching it
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| it all the way through now, full screen and in the darkened visualization room.
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| After that, we will return to have you consider
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| some of the ideas it raises while you review parts of it frame by frame.
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|
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| Return here after you have seen the film in its entirety.
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|
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|
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| When you viewed the film there was a date and time indicated on the bottom left.
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| These are in "Universal Time" or "UT", that is, the time on the prime meridian
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| that is the reference line for geographic longitude on Earth.
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|
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| 1. Where is Namibia? Identify the continent it is in, above or below the
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| equator, its latitude in degrees, east or west of the prime meridian, and
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| longitude in hours.
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|
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| 2. When it is 10 PM in Namibia, what time is it where you presently are on
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| Earth?
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|
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| About 20 seconds into the film, the Sun sets in the west (notice the palm
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| trees), and soon after the cresent Moon appears. Notice that the track of the
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| Moon (and a hint of of the earlier track of the Sun) suggests it is coming from
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| above you and behind you, that is, on an arc that goes back toward the north.
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|
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| Short after this, about 40 seconds into the film, you see sunset again. Oddly
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| now the the Sun is setting more north of those palm trees. The film identifies
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| the date as August 24, 2011.
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|
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|
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| 3. Based on the images in the film,
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| make a reasoned estimate of what season it was when the first sunset (at
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| 20 seconds) was filmed. Explain your reasoning!
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|
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|
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|
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| Later that night the camera has panned more toward the southwest, and at 1 minute
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| into the film you see Alpha Centauri, the Sun's close celestial neighbor, with
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| the Milky way as a backdrop. Just below Alpha Centauri is Beta Centauri, the
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| second brightest star in Centaurus. The Milky Way, our own galaxy, streaks
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| upward from the horizon. Notice the bright object about half way toward the
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| horizon and a little toward the south (right) at this moment. It is not a star,
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| but it's name is Omega Centauri. You may need Google to find this answer!
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|
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|
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| 4. What is Omega Centauri, where is it with respect to our galaxy the Milky
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| Way, and how much farther is it from us than the closest star, Alpha Centauri?
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| While you answer these questions, ponder this view, with both Alpha and Omega
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| apparently separated by only 16 degrees in this beautiful dark sky.
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|
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|
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|
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| Moments later in the film it is the following night (now August 25, 2011) and
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| soon after sunset. The annotation in the film points out the zodiacal light.
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| This is dust in the plane of our solar system, scattering sunlight that we see
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| as a faintly glowing column. To experience this almost as you would if you were
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| there, freeze the move at this point. Sit close to the screen so that the wide
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| high definition (HD) field seems to surround you. The movie shows a field that
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| is about 180 degrees wide and 100 degrees high.
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|
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| The "ZODIACAL LIGHT" label coincidentally is also pointing toward a star-like
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| object. It's Saturn. The bright star above it and slightly south (left) is
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| Spica, Alpha Virginis, the brightest star in the constellation Virgo. The
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| bright star under the label is Arctaurus, Alpha Bootes, the brightest star in
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| Bootes.
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|
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|
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| 5. Explain why Saturn appears to be in the Zodiacal Light.
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|
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|
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| At 1:15 into the film a label "Milky Way Bulge" appears. Pause at this point
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| and consider the view you have now. The time is 20:15 UT, a few hours after
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| sunset. The Milky Way would be overhead in the real sky, and even here, seen as
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| an image on a flat screen, it is stunning as it spans upward from the southern
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| horizon on your left (west is nearly in front of you). The bright star Antares,
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| Alpha Scorpi, is below the bulge and left of the label.
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|
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| 6. What constellation is above the bulge, near the top of he frame? Hint: on a
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| sky map it is east of Scorpius and it looks like a teapot. In this case, the
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| teapot's spigot is down and its handle is up.
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|
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| Let the movie run and the Milky Way will drop toward the horizon. At UT 00:00
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| it is nearly parallel to the horizon, the the bulge is just above one of the
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| palm trees. The teapot is almost upside down, above the tall tree on the left.
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|
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| Nearly fours hours later, at UT 03:45, Jupiter is visible as the Earth's
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| rotation carries us around to bring it into view at the upper right. Those are
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| the Pleiades, a cluster of stars about 125 light years from us , just above and
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| right of Jupiter. The Pleiades are in Taurus, and most of the constellation is
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| off the image. Jupiter is in Aries. The bright star above Jupiter close to
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| the top of the frame is Menkar, Alpha Ceti.
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|
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|
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| 7. What is that hazy patch of light, near the left side of the image at the top
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| of the frame? The south celestial pole is just to the edge of this frame, to
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| the left close to the top. Use Google to find its distance in light years. If
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| Jupiter was about 30 light minutes from us at that time, how much farther is it to this hazy
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| patch?
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|
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|
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| As the film continues it takes you to sunset of the following night, now with a
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| view centered toward the north, with east to your left. The lights of
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| the nearby town on the horizon at your right make a convenient reference point.
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| At 01:56 the film labels the three bright stars of the summer triangle, a
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| configuration of stars that is familiar to sky watchers in the northern
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| hemisphere.
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|
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|
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| 8. What are the three stars of the Summer Triangle, and what constellations are
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| they in?
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|
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| Just afteward we see a geostationary satellite appear as it glints sunlight.
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|
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|
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| 9. In addition to its sudden appearance and then disappearance, what is it
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| about the geostationary satellite that tells us it is not a star? Explain.
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|
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|
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| At 02:24 into the film, Jupiter is seen above the northern horizon and Orion has
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| risen int he east. It's upside down from how we would see it in the northern
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| hemisphere (or more correctly, we are upside down compared to the familiar view
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| when we are in Namibia). Locate Orion.
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|
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|
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| 10. What is that bright reddish star on the lower right corner of the upside
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| down constellation?
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|
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|
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| On your left, which would be toward the west because in this view you're looking
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| north with east on your right, the Great Square of Pegasus is bove the horizon,
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| almost directly over the second red light from the edge. Look carefully and you
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| may be able to pick out the Andromeda Galaxy to the right of that light and 20
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| degrees above the horizon. In the northern hemisphere this galaxy is just
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| visible to the unaided eye when it is overhead in the fall.
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|
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|
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| At 02:33 the film shows us the sky seen looking southeast. The south celestial
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| pole is highlighted at 18:14 UT, just after sunset, and by 22:35 UT we see the
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| Large and Small Magellanic Clouds (LMC and SMC) rising.
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|
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| As the night goes by and morning twilight arrives around 04 UT, both of
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| theses small neighboring galaxies are above the south celestial pole. In the
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| frames that follow sunrise that morning, the movie shows a "star trail" view
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| that illustrates the track of stars around the south celestial pole. Draw an
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| imaginary line from the pole through the LMC and toward the upper left.
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|
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|
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| 11. What familiar constellation is on that line, close to the upper left corner
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| of the image? It might be easiest to pick out in the frame at 03:09, before the
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| star trail sequence.
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|
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|
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|
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| In the frames that follow you see the sky setting in the west, and then the view
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| pans around toward the south again to see the Magellanic Clouds high over the
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| pole before sunrise. The bright stars Achernar and Canopus are highlighted at
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| 04:09 into the film, seen at 02:24 UT in Namibia that night. These are two fo
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| the brightest southern sky stars, and Canopus is Alpha Carinae, the brightest
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| star in Carina while Achernar is the brightest star in Eridanus. Canopus has a
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| declination of about -52.6 degrees, that is, it is about 52.6 degrees below the
| |
| celestial equator.
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|
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|
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| 12. Identify a city in the United States from which Canopus would be visible.
| |
| The best answer would be one where Canopus could probably be sighted easily at
| |
| the right time of year.
| |
|
| |
|
| |
| Remember that on the first night of the film we had a faint crescent Moon just
| |
| visible above the horizon at sunset. As the film progresses it spans several
| |
| nights, and the camera lens has changed to show less of the sky, but more
| |
| detail.
| |
|
| |
|
| |
| 13. On 2011-08-31, what time did the Moon set (UT)? Use the palm trees as a
| |
| reference to get a sense of direction. Was the moonset south of,
| |
| north of , or exactly the same as the sunset
| |
| direction?
| |
|
| |
|
| |
|
| |
| As the film continues you will see again things you have noticed already, but
| |
| now they will be more familiar. There are new things to look at too. Around
| |
| 06:33, at 2011-08-25 20:38 UT, the two bright stars Alpha and Beta Centauri come
| |
| into our view looking southwest. Moments later, the film briefly hightlights
| |
| the Southern Cross. See if you can find this moment.
| |
|
| |
|
| |
| 14. What do you see in the Milky Way, at the edge of the Southern Cross?
| |
|
| |
|
| |
| At about 07:15 the camera is looking toward the
| |
| roll-off-roof telescope shelter, and the film highlights the line over which
| |
| geostationary satellites may appear.
| |
|
| |
|
| |
| 15. How many geostationary satellites did you pick out? Hint: It's more than
| |
| one!
| |
|
| |
|
| |
| Watch the view from inside the observatory and over the following nights. By
| |
| 2011-09-02 the gibbous Moon sets just before sunrise.
| |
|
| |
| 16. What direction is it to moonset now? Is it the same as it was when it was
| |
| a crescent? Explain.
| |
|
| |
|
|
| |
|