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Ephemeris: 11/29/2024 – Previewing December skies

November 29, 2024 Comments off

This is Ephemeris for Native American Heritage Day, Friday, November 29th. Today the Sun will be up for 9 hours and 5 minutes, setting at 5:04, and it will rise tomorrow at 7:59. The Moon, 2 days before new, will rise at 7:39 tomorrow morning.

Let’s look at December skies. We are now in the holiday season and about to celebrate the southernmost travel of the Sun in the sky and its return northward. So there is not much change in sunrise and sunset times. The Sun will stop its travel south, the winter solstice, on the 21st at 4:20 am. It will make that day the shortest day in terms of daylight hours. However, the earliest sunset will occur on the 9th. The Geminid meteor shower will be hampered by the bright Moon when it reaches its peak on the evening of the 13th, near the full moon. This month continues the surprisingly active sunspot cycle that started four years ago and is nearing its peak.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum (Updated 11/29/2024)

December Evening Star Chart

Star Chart for December 2024 (9 p.m. EST December 15, 2024). Click on image to enlarge. Created using my LookingUp program. Click on image to enlarge. Credit: my LookingUp program.

The planets and stars are plotted for the 15th at 9 pm EST in the evening and 6 a.m. for the morning chart. These are the chart times. Note that Traverse City is located approximately 45 minutes behind our time meridian, West 75° longitude. (An hour 45 minutes behind our daylight saving time meridian during EDT).

December Morning Star Chart

Star Chart for December mornings, 2024 (6 a.m. EST December 16, 2024). Click on image to enlarge. Created using my LookingUp program.

For a list of constellation names to go with the abbreviations, click here.

  • Pointer stars at the front of the bowl of the Big Dipper point to Polaris, the North Star.
  • The leaky bowl of the Big Dipper drips on Leo.
  • Follow the arc of the handle of the Big Dipper to the star Arcturus, then
  • Follow the spike to Spica.
  • The Summer Triangle is in red.
  • GemR on the star charts is the radiant of the Geminid meteor shower, which peaks on the evening of the 13th.

Twilight Limits, Nautical and Astronomical

      EST        
  Morning Twilight Evening Twilight Dark Night Moon
Date Astro. Nautical Nautical Astro. Start End Illum.
2024-12-01 6h17m 6h52m 18h12m 18h47m 18h47m 6h17m 0.01
2024-12-02 6h18m 6h53m 18h12m 18h47m 18h47m 6h18m 0.04
2024-12-03 6h19m 6h54m 18h12m 18h47m 18h49m 6h19m 0.09
2024-12-04 6h20m 6h55m 18h11m 18h47m 20h00m 6h20m 0.16
2024-12-05 6h21m 6h56m 18h11m 18h47m 21h15m 6h21m 0.24
2024-12-06 6h22m 6h57m 18h11m 18h47m 22h31m 6h22m 0.34
2024-12-07 6h22m 6h58m 18h11m 18h47m 23h47m 6h22m 0.45
2024-12-08 6h23m 6h59m 18h11m 18h47m 6h23m 0.57
2024-12-09 6h24m 6h59m 18h11m 18h47m 1h03m 6h24m 0.68
2024-12-10 6h25m 7h00m 18h11m 18h47m 2h20m 6h25m 0.78
2024-12-11 6h26m 7h01m 18h12m 18h47m 3h39m 6h26m 0.87
2024-12-12 6h26m 7h02m 18h12m 18h47m 5h01m 6h26m 0.94
2024-12-13 6h27m 7h02m 18h12m 18h47m 6h24m 6h27m 0.98
2024-12-14 6h28m 7h03m 18h12m 18h48m 1.00
2024-12-15 6h28m 7h04m 18h12m 18h48m 0.99
2024-12-16 6h29m 7h05m 18h13m 18h48m 0.96
2024-12-17 6h30m 7h05m 18h13m 18h49m 18h49m 19h23m 0.90
2024-12-18 6h30m 7h06m 18h13m 18h49m 18h49m 20h37m 0.83
2024-12-19 6h31m 7h06m 18h14m 18h49m 18h49m 21h48m 0.75
2024-12-20 6h31m 7h07m 18h14m 18h50m 18h50m 22h55m 0.66
2024-12-21 6h32m 7h07m 18h15m 18h50m 18h50m 0h00m 0.57
2024-12-22 6h32m 7h08m 18h15m 18h51m 18h51m 0.47
2024-12-23 6h33m 7h08m 18h16m 18h51m 18h51m 1h03m 0.38
2024-12-24 6h33m 7h09m 18h17m 18h52m 18h52m 2h06m 0.29
2024-12-25 6h34m 7h09m 18h17m 18h53m 18h53m 3h10m 0.21
2024-12-26 6h34m 7h09m 18h18m 18h53m 18h53m 4h16m 0.14
2024-12-27 6h34m 7h10m 18h18m 18h54m 18h54m 5h24m 0.08
2024-12-28 6h34m 7h10m 18h19m 18h55m 18h55m 6h33m 0.03
2024-12-29 6h35m 7h10m 18h20m 18h55m 18h55m 6h35m 0.01
2024-12-30 6h35m 7h10m 18h21m 19h00m 19h00m 6h35m 0.00
2024-12-31 6h35m 7h11m 18h21m 19h01m 19h01m 6h35m 0.02

Twilight calendar was generated using Cartes du Ciel (Sky Charts).

See my blog post: Twilight Zone for the definitions of the different periods of twilight here: https://bobmoler.wordpress.com/2018/09/27/.

NASA Calendar of Planetary Events

Dec  1  Su            Venus: 43.6° E
     1  Su   1:21 am  New Moon
     2  Mo   5:31 pm  Moon South Dec.: 28.5° S
     3  Tu   7:08 am  Mars-Beehive: 1.6° N
     4  We   5:40 pm  Moon-Venus: 2.4° N
     5  Th   9:11 pm  Mercury Inferior Conj.
     7  Sa   3:19 pm  Jupiter Opposition
     8  Su   3:49 am  Moon-Saturn:  .3° S
     8  Su  10:27 am  First Quarter
     9  Mo   2:36 pm  Moon Ascending Node
    12  Th   8:18 am  Moon Perigee: 365400 km
    13  Fr  12:13 pm  Moon-Pleiades:  .1° S
    13  Fr   8:12 pm  Geminid Shower: ZHR = 120
    15  Su   4:02 am  Full Moon
    15  Su   3:12 pm  Moon North Dec.: 28.4° N
    17  Tu   7:12 am  Moon-Pollux: 2.1° N
    18  We   3:46 am  Moon-Mars: 1° S
    18  We   6:28 am  Moon-Beehive: 2.8° S
    20  Fr  12:37 am  Moon-Regulus: 2.6° S
    21  Sa   4:20 am  Winter Solstice
    22  Su   5:00 am  Ursid Shower: ZHR = 10
    22  Su   5:18 pm  Last Quarter
    22  Su   6:21 pm  Moon Descending Node
    23  Mo   4:39 pm  Mercury-Antares: 6.8° N
    24  Tu   2:25 am  Moon Apogee: 404500 km
    24  Tu   2:28 pm  Moon-Spica:  .2° S
    24  Tu   8:59 pm  Mercury Elongation: 22° W
    28  Sa   9:37 am  Moon-Antares:  .1° N
    30  Mo  12:06 am  Moon South Dec.: 28.4° S
    30  Mo   5:27 pm  New Moon
Jan  1  We            Venus: 47° E

Generated using my LookingUp for DOS program.

Sun and Moon Rising and Setting Events

LU                  Ephemeris of Sky Events for Interlochen/TC
December, 2024    Local time zone: EST
+-----------------------------------------------------------------------+
| DATE |  SUN     SUN  DAYLIGHT|   TWILIGHT*    |MOON  RISE OR    ILLUM |
|      |  RISE    SET    HOURS |  END    START  |PHASE SET** TIME FRACTN|
+=======================================================================+
|Sun  1| 08:00a  05:03p  09:02 | 06:12p  06:51a |New   Set  04:56p    1%|
|Mon  2| 08:01a  05:03p  09:01 | 06:12p  06:52a |      Set  05:47p    3%|
|Tue  3| 08:02a  05:02p  09:00 | 06:12p  06:53a |      Set  06:48p    8%|
|Wed  4| 08:03a  05:02p  08:58 | 06:12p  06:54a |      Set  07:59p   14%|
|Thu  5| 08:04a  05:02p  08:57 | 06:12p  06:54a |      Set  09:14p   23%|
|Fri  6| 08:05a  05:02p  08:56 | 06:12p  06:55a |      Set  10:31p   32%|
|Sat  7| 08:06a  05:02p  08:55 | 06:12p  06:56a |      Set  11:47p   43%|
+------+-----------------------+----------------+-----------------------+
|Sun  8| 08:07a  05:02p  08:54 | 06:12p  06:57a |F Qtr Set  01:03a   54%|
|Mon  9| 08:08a  05:02p  08:53 | 06:12p  06:58a |      Set  02:20a   65%|
|Tue 10| 08:09a  05:02p  08:52 | 06:12p  06:59a |      Set  03:39a   76%|
|Wed 11| 08:10a  05:02p  08:51 | 06:12p  07:00a |      Set  05:00a   85%|
|Thu 12| 08:11a  05:02p  08:51 | 06:12p  07:00a |      Set  06:24a   92%|
|Fri 13| 08:12a  05:02p  08:50 | 06:13p  07:01a |      Set  07:45a   97%|
|Sat 14| 08:12a  05:02p  08:49 | 06:13p  07:02a |      Set  08:57a  100%|
+------+-----------------------+----------------+-----------------------+
|Sun 15| 08:13a  05:02p  08:49 | 06:13p  07:02a |Full  Rise 05:01p   99%|
|Mon 16| 08:14a  05:03p  08:48 | 06:13p  07:03a |      Rise 06:09p   96%|
|Tue 17| 08:14a  05:03p  08:48 | 06:14p  07:04a |      Rise 07:23p   92%|
|Wed 18| 08:15a  05:03p  08:48 | 06:14p  07:04a |      Rise 08:36p   85%|
|Thu 19| 08:16a  05:04p  08:48 | 06:15p  07:05a |      Rise 09:47p   77%|
|Fri 20| 08:16a  05:04p  08:48 | 06:15p  07:05a |      Rise 10:55p   68%|
|Sat 21| 08:17a  05:05p  08:48 | 06:16p  07:06a |      Rise 11:59p   59%|
+------+-----------------------+----------------+-----------------------+
|Sun 22| 08:17a  05:05p  08:48 | 06:16p  07:06a |L Qtr Rise 01:02a   49%|
|Mon 23| 08:18a  05:06p  08:48 | 06:17p  07:07a |      Rise 02:05a   40%|
|Tue 24| 08:18a  05:07p  08:48 | 06:17p  07:07a |      Rise 03:10a   31%|
|Wed 25| 08:18a  05:07p  08:48 | 06:18p  07:08a |      Rise 04:16a   23%|
|Thu 26| 08:19a  05:08p  08:49 | 06:19p  07:08a |      Rise 05:24a   15%|
|Fri 27| 08:19a  05:09p  08:49 | 06:19p  07:08a |      Rise 06:32a    9%|
|Sat 28| 08:19a  05:09p  08:50 | 06:20p  07:09a |      Rise 07:38a    4%|
+------+-----------------------+----------------+-----------------------+
|Sun 29| 08:19a  05:10p  08:50 | 06:21p  07:09a |      Rise 08:36a    1%|
|Mon 30| 08:19a  05:11p  08:51 | 06:21p  07:09a |New   Set  04:37p    0%|
|Tue 31| 08:20a  05:12p  08:52 | 06:22p  07:09a |      Set  05:46p    1%|
+-----------------------------------------------------------------------+
* Nautical Twilight
** Moonrise or moonset, whichever occurs between sunset and sunrise

Generated using my LookingUp for DOS program.

Categories: Ephemeris Program, Month preview Tags:

Ephemeris: 11/27/2024 – Checking up on the naked-eye planets this week

November 27, 2024 Comments off

This is Ephemeris for Wednesday, November 27th. Today the Sun will be up for 9 hours and 9 minutes, setting at 5:05, and it will rise tomorrow at 7:57. The Moon, 4 days before new, will rise at 5:23 tomorrow morning.

Let’s take our weekly look at the whereabouts of the naked-eye planets. Venus can be spotted low in the south-southwestern sky by 5:30 PM, about 25 minutes after sunset. It will set at 7:52. Saturn will be in the south-southeast at 6 PM. Jupiter will rise at 5:45 PM in the east northeast, and be a good object for the small telescope about an hour later. Mars, rises tonight near 9:16, Both Mars and Jupiter are considered morning planets, since they are still up at sunrise. By 6 AM tomorrow Jupiter will be in the west, above and right of Orion, while reddish Mars will be high in the southwest. Jupiter and Saturn are good planets to view with a small telescope, Mars will appear only a quarter the diameter of Jupiter.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

This is where Venus will appear in the south-southwest at about 5:30 PM or about 25 minutes after sunset
This is where Venus will appear in the south-southwest at about 5:30 PM or about 25 minutes after sunset. Venus is now in the part of the ecliptic where the planets travel northward as it moves eastward. So It will be seeing it higher in the sky when it’s first spotted in the evening. Created using Stellarium.
Saturn and Jupiter at 8 PM tonight, November 27, 2024. Off to the right beyond the image, Venus setting in the southwest. Click or tap on the image to enlarge it. Created using Stellarium.
Telescopic Venus, Saturn, Jupiter and Mars (north up) as they would be seen in a small telescope with the same magnification
Telescopic Venus, Saturn, Jupiter and Mars (north up) as they would be seen in a small telescope with the same magnification. All the planets are shown for tonight, Jupiter specifically for 8 PM, November 27, 2024. Apparent diameters: Venus 16.8″, 68.8% illuminated; Saturn 17.5″, its rings 40.9″, 5.2 degrees from edge on (closing again); Jupiter 48.1″; Mars, 11.4″, 92.1% illuminated. Saturn’s rings are actually much brighter than depicted here. Planetary surface detail is more subtle than shown here. The ” means seconds of arc, or 1/3600th of a degree. Click or tap on the image to enlarge it. Created using Cartes du Ciel (Sky Charts).
The naked-eye planets and the Moon at sunset and sunrise on a single night
The naked-eye planets and the Moon at sunset and sunrise on a single night, starting with sunset on the right on November 27, 2024. The night ends on the left with sunrise on the 28th. Click or tap on the image to enlarge it. Created using my LookingUp app and GIMP.
Low precision ephemeris of the Sun Moon and naked eye planet positions
This is a low precision ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, November 27 and 28, 2024. Some of the columns are self-explanatory, others not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere in hours and minutes. Dec is declination which is the north-south position of the object on the celestial sphere in degrees and minutes. R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed as a table by my Ephemeris Helper app.

Categories: Ephemeris Program, Naked-eye planets, Observing, Planets Tags: , , , ,

Ephemeris: 11/26/2024 – Finding the celestial charioteer and his goats

November 26, 2024 Comments off

This is Ephemeris for Tuesday, November 26th. Today the Sun will be up for 9 hours and 11 minutes, setting at 5:05, and it will rise tomorrow at 7:55. The Moon, 4 days past last quarter, will rise at 4:18 tomorrow morning.

The constellation Auriga the charioteer is halfway up the sky in the east northeast at 9 p.m. It is a pentagon of stars, with the brilliant star Capella at the upper left of its corners. Capella represents a mama goat he’s carrying. A narrow triangle of stars just right of Capella are her kids, that is her baby goats. The Kids is an informal constellation or asterism. The Milky Way runs through Auriga, but it’s not very bright here. We are looking away from the center of the Milky Way to the more sparse outer parts of our galaxy. Within and near that pentagon, one can sweep with binoculars and low power telescopes to find several star clusters, groups of hundreds of stars born in the clump we still see them in. These star clusters will appear as fuzzy spots in binoculars.
The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

An animated Finder chart for Auriga the charioteer in three frames
An animated Finder chart for Auriga the charioteer in three frames. 1st is the sky looking East as you would see it. 2nd frame shows constellation lines and labels for stars and planets. 3rd is Stellarium’s constellation art for the charoiteer and the goats he’s carrying. This is for 9:00 PM on November 26, 2024. Created using Stellarium, LibreOffice Draw, and GIMP.
Categories: Constellations, Ephemeris Program, Observing Tags: , ,

Ephemeris: 11/25/2024 – How to find Taurus the bull

November 25, 2024 Comments off

This is Ephemeris for Monday, November 25th. Today the Sun will be up for 9 hours and 12 minutes, setting at 5:06, and it will rise tomorrow at 7:54. The Moon, 3 days past last quarter, will rise at 3:15 tomorrow morning.

Low in the east at 8 this evening and below the beautiful Pleiades star cluster is Taurus the bull. His face is a letter V shape of stars lying on its side, the star cluster Hyades, with the bright orange-red star Aldebaran at one tip of the V as its angry bloodshot eye. Aldebaran is actually about halfway between us and the cluster. Tonight it is to the right of the brilliant planet Jupiter. The Pleiades star cluster is in his shoulder. Taurus is seen charging downward at that hour, the rising constellation of Orion. Taurus in Greek mythology was the form the god Zeus assumed when he carried off the maiden Europa. Europa’s still with him as a moon orbiting Zeus’ Roman equivalent, the planet Jupiter.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

Finding Taurus the bull tonight, November 25 2024, is easy
Finding Taurus the bull tonight, November 25 2024, is easy. Just look for Jupiter in the east. It lies between the long horns of Taurus. The Pleiades star cluster is in his shoulder, and the Hyades star cluster this is face, with Aldebaran as his angry bloodshot eye. He is charging Orion, just rising. Created using Stellarium LibreOffice draw, and GIMP.
Rape of Europa
The Rape of Europa by Titian. According to the story Zeus as a bull abducted Europa and swam to Crete, where she became the first queen of that island, and bore him three sons. Other paintings of this subject are by Rembrandt and de Troy. This painting belongs to the Isabella Stewart Gardener Museum in Boston, MA.
Categories: Constellations, Ephemeris Program, Mythology, Observing Tags:

Ephemeris: 11/22/2024 – Finding Aquarius

November 22, 2024 Comments off

This is Ephemeris for Friday, November 22nd. Today the Sun will be up for 9 hours and 18 minutes, setting at 5:08, and it will rise tomorrow at 7:50. The Moon, at last quarter today, will rise at 12:04 tomorrow morning.

One of the constellations of the zodiac is in the southern sky at 8 in the evening, where Saturn is located this year. It’s the constellation of Aquarius, the water bearer. The image that is supposed to be depicted in the stars is that of a fellow carrying a stone jar of water. Aquarius is fairly hard to spot because it is made of faint stars. One part of him, though, is easier to spot. That is the Water Jar, an asterism or informal constellation. It is a distinctive small nearly equilateral triangle of stars with another star in the center. Aquarius is not a very good water bearer because he’s spilling the water out of his jar. The Water jar is above and to the right of Saturn this year and the water is flowing down a line of stars to the lower left.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

An animated finder chart for the constellation Aquarius
An animated finder chart for the constellation Aquarius. This year the planet Saturn is a good pointer to the constellation. In other years it can be found sandwiched between the head of Pegasus the flying horse above and the star Fomalhaut to the south. Aquarius’ stars are mostly rather faint, but the one pattern that does stand out is the asterism called the Water Jar which is circled in the animation. Created using Stellarium, LibreOffice Draw, and GIMP.
Categories: Asterism, Constellations, Ephemeris Program, Observing Tags: ,

Ephemeris: 11/21/2024 – Fomalhaut’s planet that wasn’t

November 21, 2024 Comments off

This is Ephemeris for Thursday, November 21st. Today the Sun will be up for 9 hours and 20 minutes, setting at 5:08, and it will rise tomorrow at 7:49. The Moon, 1 day before last quarter, will rise at 10:56 this evening.

The lonely bright star low in the south-southeast at 8 p.m. these evenings is Fomalhaut, the harbinger of autumn in my book, and will leave as winter arrives. Fomalhaut is a young white star only about 400 million years old with a protoplanetary disk surrounding it. Near an outer dust ring, in 2008, the Hubble Space Telescope discovered a spot. Four years later, astronomers discovered that the spot had moved along the dust lane and announced the first direct discovery of an exoplanet. In 2010 and 2012 the planet now dubbed Fomalhaut b or Dagon was observed again. However, it appeared to be dissipating. It seems that it might actually be an expanding cloud of debris, the result of two asteroids or proto-planets colliding.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum:

Fomalhaut animated finder
Fomalhaut animated finder for 8 PM tonight. Created using Stellarium and GIMP.
Hubble Space Telescope image of Fomalhaut’s ring and model of the disappearing dust cloud that was first thought to be a planet
Hubble Space Telescope image of Fomalhaut’s ring and model of the disappearing dust cloud that was first thought to be a planet. Credit: Space Telescope Science Institute.

Categories: Ephemeris Program, Exoplanets Tags: ,

Ephemeris: 11/20/2024 – Our weekly look at the naked-eye planets

November 20, 2024 Comments off

This is Ephemeris for Wednesday, November 20th. Today the Sun will be up for 9 hours and 22 minutes, setting at 5:09, and it will rise tomorrow at 7:48. The Moon, 2 days before last quarter, will rise at 9:45 this evening.

Let’s take our weekly look at the whereabouts of the naked-eye planets. Venus can be spotted low in the southwestern sky by 5:30 PM, about 20 minutes after sunset. It will set at 7:41. Saturn will be in the south-southeast at 6 PM. Jupiter will rise at 6:11 PM in the east northeast, and be a good object for the small telescope about an hour later. Mars, rises tonight near 9:36, just ahead of the Moon and will be leading it through the night skies tonight. By 6:00 AM tomorrow Jupiter will be in the west, above and right of Orion, while reddish Mars will be high in the southwest to the right of the waning gibbous Moon. Jupiter and Saturn are good planets to view with a small telescope, Mars will appear only a quarter the diameter of Jupiter.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

Venus will appear in the south-southwest at about 5:30 PM or about 20 minutes after sunset
This is where Venus will appear in the south-southwest at about 5:30 PM or about 20 minutes after sunset. Venus is now in the part of the ecliptic where the planets travel northward as it moves eastward. So It will be seeing it higher in the sky when it’s first spotted in the evening. Created using Stellarium.
Saturn finder animation
Saturn and the star Fomalhaut as they would appear at 8 PM this evening in the south. This is a chart from yesterday’s post. There is no real change from then. Created using Stellarium and GIMP.
A finder animation for Jupiter, Mars and the Moon
A finder animation for Jupiter, Mars and the Moon for 10:30 PM this evening, November 20, 2024. They’re located among the winter constellations that are rising in the late evening. We are a month and a day from the beginning of winter. Created using Stellarium and GIMP.
The Moon as it might appear through a small telescope tonight
The Moon as it might appear through a small telescope tonight, November 20, 2024. Selected features are labeled. Created using Stellarium, LibreOffice draw, and GIMP.
Telescopic Venus, Saturn, Jupiter and Mars
Telescopic Venus, Saturn, Jupiter and Mars (north up) as they would be seen in a small telescope with the same magnification. All the planets are shown for tonight, November 20, 2024 at 11 PM EST. Apparent diameters: Venus 16.0″, 71.1% illuminated; Saturn 17.8″, its rings 41.3″, 5.2 degrees from edge on (starting to close again); Jupiter 47.8″; Mars, 10.7″, 91.0% illuminated. Saturn’s rings are actually much brighter than depicted here. Planetary surface detail is more subtle than shown here. Jupiter’s moon Ganymede is behind the planet, but will appear on the Io and Eurolpa side of the planet at 11:16 PM. The ” symbol means seconds of arc, or 1/3600th of a degree. Click or tap on the image to enlarge it. Created using Cartes du Ciel (Sky Charts).
The naked-eye planets and the Moon at sunset and sunrise on a single night, starting with sunset on the right on November 20, 2024. The night ends on the left with sunrise on the 21st. Click or tap on the image to enlarge it. Created using my LookingUp app and GIMP.
Low precision ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow
This is a low precision ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, November 20 and 21, 2024. Some of the columns are self-explanatory, others not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere in hours and minutes. Dec is declination which is the north-south position of the object on the celestial sphere in degrees and minutes. R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed as a table by my Ephemeris Helper app.
Categories: Ephemeris Program, Naked-eye planets, Observing, Planets Tags: , , , ,

Ephemeris: 11/19/2024 – The loneliest star in the sky

November 19, 2024 Comments off

This is Bob Moler with Ephemeris for Tuesday, November 19th. Today the Sun will be up for 9 hours and 24 minutes, setting at 5:10, and it will rise tomorrow at 7:47. The Moon, 3 days before last quarter, will rise at 8:32 this evening.

There’s a bright star that appears for only seven and a half hours on autumn evenings. Its appearance, low in the south-southeast at 8 p.m., is a clear sign that autumn is here. It is currently far below the much brighter Saturn. The star’s name is Fomalhaut, which means fish’s mouth. That’s fitting because it’s in the constellation of Piscis Austrinus, the southern fish. At our latitude it’s kind of the fish that got away, because usually Fomalhaut appears to be quite alone low in the sky. For the last few years Jupiter and then Saturn have kept it company. In a couple of years Saturn will have moved on leaving Fomalhaut to its lonely vigil in the south.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

A Fomalhaut finder chart in four frames
A Fomalhaut finder chart in four frames, showing just the stars and the planet Saturn; Saturn and Fomalhaut labeled; the constellation outlined and labeled; and lastly, the fish as imagined by the Stellarium artist.. For 8 PM this evening, November 19 2024. Created using Stellarium and GIMP.

Categories: Ephemeris Program, Observing, Stars Tags: ,

Ephemeris: 11/18/2024 – How to get two spacecraft to come together gently in space

November 18, 2024 Comments off

This is Bob Moler with Ephemeris for Monday, November 18th. Today the Sun will be up for 9 hours and 26 minutes, setting at 5:11, and it will rise tomorrow at 7:45. The Moon, 3 days past full, will rise at 7:22 this evening.

Orbital mechanics is a science of how orbits work around the Earth, Sun, or any other body. Back in the mid 1960s when NASA was starting it’s work to get to the Moon with the Gemini program they had quite a time getting rendezvous and docking right. Buzz Aldrin, the second man to step foot on the Moon, who is still around by the way, figured it all out – before he became an astronaut. It’s counter-intuitive. To speed up you slow down to drop into a lower orbit which is faster. To slow down, speed up and climb into a higher orbit which slows you down. There’s more to it than that, but basically objects in orbit just don’t seem to behave the way you think they ought to. And that’s how things work in space.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

Rendezvous and Docking diagram
Rendezvous and Docking diagram from Caroline Elizabeth Specht,German Aerospace Center (DLR) | DLR · Institute of Robotics and Mechatronics via ResearchGate.net. Description below.

In this diagram time is represented on the horizontal axis from right to left, the altitude of the spacecraft and its target is on the vertical axis. The chaser vehicle is launched as the launch site crosses the plane of the orbit of the target. Changing the plane of an orbit is very expensive, energywise, so it’s best to launch in the same orbital plane. It enters an elliptical orbit, most initial orbits are pretty elliptical and so there’s a low point, or perigee, where the chaser enters orbit, and a high point which is the apogee. This is below the target orbit so that the chasing vehicle can catch up to the target. Lower orbits are faster than higher orbits, this is the phasing part. When the chaser gets pretty close it raises its orbit so that the starting point apogee is the new perigee and the new apogee is the altitude of the orbit of the target. The orbit stays elliptical for a little while so that the chasing spacecraft can slowly catch up to the target. In the final approach the orbits just about match so that the chaser very slowly catches up to the target.

I’ve seen similar diagrams on NASA broadcasts of Crew Dragon launches.

Categories: Concepts, Ephemeris Program, Space Flight

Ephemeris: 11/15/2024 – What causes the tides?

November 15, 2024 Comments off

This is Ephemeris for Friday, November 15th. Today the Sun will be up for 9 hours and 33 minutes, setting at 5:14, and it will rise tomorrow at 7:41. The Moon, at full today, will rise at 4:48 this evening.

Today, at full moon, is one of the two highest tides of the month, the lunar month that is. The other highest tide comes at new moon. Both the Moon and the Sun cause tides because of their gravitational pull on the Earth. At new and full moon’s their gravitational pull gangs up on us. Since Earth is not a point body the gravitational pull of an object on the near side of the Earth pulls harder than it does on the opposite side of the Earth. Gravitational force diminishes with the square of the distance so it is the difference in the gravitational pull from one side to the other of the Earth that causes the tides to rise up on the side nearest and farthest from the gravitational pull of the moon and/or Sun. Since the Earth has a worldwide ocean, the water is free to slosh around and cause the tides.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

Spring and Neap Tides explained.
Spring and Neap Tides explained. Credit http://www.millerslocal.co.za/the-inside-skinny-on-tides.html (South Africa).
Categories: Concepts, Earth, Ephemeris Program, Tides Tags: , ,