Tuesday, November 24, 2020
Thursday November 26 to Thursday December 3
The Full Moon is Monday November 30, this is a Blue Moon with a penumbral eclipse. the Moon is at apogee, when it is furthest form the Earth, on the 27th
The
insets show the telescopic views of Jupiter and Saturn at the same
magnification at this time.
Similar views will be seen elsewhere in Australia at the equivalent local time (90 minutes after sunset), click to embiggen.
Adelaide.
Three bright planets are visible stretching west to east. Jupiter, Saturn and Mars. The Moon away from the lineup this week.
Similar views will be seen
elsewhere at the equivalent local time (90 minutes after sunset). click to embiggen.
The left inset is the telescopic view of Venus at this time.
Unfortunately, the November 30 penumbral eclipse occurs in the early evening, mostly in twilight. The moon is only partly embedded in Earths' outer shadow and the darkening will be difficult to spot. Eastern states have the best view and WA misses out.
You don't need special filters or fancy equipment to watch the lunar eclipse, you just need your eyes and somewhere comfortable to sit and watch. Watching the faint outer shadow of earth creep across the Moons face is quite challenging, as the darkening is subtle, but those on the east coast may find it rewarding (I have with past penumbral eclipses). The Moon is very obvious as it rises in the east.
For all states, the eclipse starts with the Moon below the horizon.
For the eastern states mid eclipse occurs at 20:43 AEDST with the Moon nearly two hand-spans above the horizon, and after civil twilight, so although faint it should be visible. The eclipse ends at 22:56 pm AEDST. In the central states, mid-eclipse occurs with the Moon just rising, deep in the twilight shortly after sunset and will be difficult to see, the eclipse end occurs 22:26 pm ACDST, after the end of astronomical twilight.
In WA, the eclipse start and mid eclipse all occur with the Moon below the horizon, and the rest of the eclipse deep in the twilight.
Mercury is lost in the twilight.
Venus is still visible low above the horizon in the morning.
Mars is readily visible in the evening sky above the north -eastern horizon in the early evening. The waxing Moon is close to Mars on the 26th. Mars is close to the variable star Mira, which is still reasonably bright but will be difficult to see in the Moonlight. Mars was at opposition, when it is biggest and brightest as seen from Earth, on October the 14th, but is still worthwhile observing. Observing details and more at the Mars Opposition site.
Jupiter can be readily seen in the early evening sky in the west. Jupiter and Saturn start out two finger-widths apart at the beginning of the week but slowly draw closer. The pair are prominent in the evening skies along with Mars.
Printable PDF maps of the Eastern sky at 10 pm AEST, Western sky at 10 pm AEST. For further details and more information on what's up in the sky, see Southern Skywatch.
Star Map via Virtual sky. Use your mouse to scroll around and press 8 when your pointer is in the map to set to the current time.
Cloud cover predictions can be found at SkippySky.
Here is the near-real time satellite view of the clouds (day and night) http://satview.bom.gov.au/
Labels: weekly sky
Wednesday, November 18, 2020
Leonid Meteor Shower, November 18, 2020
Morning
sky looking
north-east as
seen from Adelaide at 4:00 am AEDST on Wednesday 18 November showing Leo, with the Leonid Meteor shower radiant
indicated with
a starburst.
Similar views will be seen elsewhere at the equivalent local time . Click to embiggen.
The starburst indicates the radiant, the apparent point of origin of the meteors (they can actually first appear much further away from the radiant).
The Leonids are an iconic meteor shower due to spectacular displays in 1833, 1966, 2001 and 2002. They are due to dusty debris from Comet Tempel-Tuttle slamming into Earth's atmosphere. While occasional Leonid meteors can be seen most of November, the rate rises to a peak in mid-November. However, the spectacular rates of the storm years are long gone and will not reoccur for some time, For the foreseeable future only the occasional meteor will be seen, even at the peak.
This year the peak is on Sunday, November 18, with estimates of between 10-15 ZHR (Zenithal Hourly Rate - the number of meteors you could expect to see if the radiant was at the Zenith under dark skies). However, the radiant never gets very high in Australia, and although the peak occurs 3:30 am in Australia, we expect to see far fewer meteors than the ZHR. Somewhere in the range of one meteor every 30 minutes is likely even under dark skies. The early waxing Moon sets sets well before radiant rise on the 18th and so will not interfere.
While we can expect to see very few meteors, the morning will be a beautiful sight anyway.Orion the Hunter is stretched out overhead, and the Pleiades nearby. You might even see a satellite or two (but not the ISS or iridium flares). To check the weather forecast, go to the Meterology Departments forecast site, or alternately the Weather Channel.
When to look: The best time is between 3:00 am to 5:00 am daylight saving time (2-4 am standard time) on the mornings of the 18th to 19th.
Where to look: Face north-east. A hand span to the right brings you to the bright white star Alpha Leonis, Regulus (the point of a triangle made by the obvious bright stars Procyon and Pollux to the north). Following down and to the left from Regulus you will see a number of fainter stars which form a sickle shape, the head of the lion. The radiant of the Leonid shower will be roughly in the center of the curve of the sickle, about one finger width up (see image above). However, the meteors can turn up almost anywhere in the eastern half of the sky, so make sure you have a spot with a fairly clear field of view, without any bright street-lights in the way. Use common sense in choosing a viewing site. Lone persons should not choose dark parks in the seedy part of town to watch the Leonids, as a mugging can ruin your entire day.
What do you need: For meteor watching, very little is needed. Basically, all you need is you. If you want to try and count the meteors, you will need a couple of sheets of paper, a pencil and a good watch. Bundle up against the pre-dawn cold, warns shoes, thick socks, sensible pants and a good jumper and possibly a blanket to wrap yourself in (I really mean this, last time I had a jumper and a windproof and I was seriously cold). Bring a reclining chair if you have one, or just a picnic chair or a good picnic blanket, and find a dark site with a wide-open view of the sky. Then just lie back, relax, and look up at the stars. Optional extras are a torch with red cellophane over the business end (otherwise you ruin your night vision every time you turn it on), and a thermos of something warm to drink. Mosquito repellent is also a very good idea.
Give it some time: Many people wander out, look around for five minutes, see nothing and wander back in. It will take about five minutes for your eyes to become accustomed to the dark. Also, meteors tend to come in bursts, and if you wander out in a lull, you may miss lots. As well, our time perception sucks. You may think you have been watching for 10 minutes, but in reality only about 2 minutes has passed. Give it time, watch the stars, and enjoy.
Labels: Meteors
Tuesday, November 17, 2020
Thursday November 19 to Thursday November 26
The First Quarter Moon is Sunday November 22.
The
insets show the telescopic views of Jupiter and Saturn at the same
magnification at this time.
Similar views will be seen elsewhere in Australia at the equivalent local time (90 minutes after sunset), click to embiggen.
Adelaide.
Three bright planets are visible stretching west to east. Jupiter, Saturn and Mars. The Moon moves through the lineup this week.
Similar views will be seen
elsewhere at the equivalent local time (90 minutes after sunset). click to embiggen.
The left inset is the telescopic view of Venus at this time. The right inset is the binocular view of the comet.
Mercury is lost in the twilight.
Venus is still visible low above the horizon in the morning.
Mars is readily visible in the evening sky above the north -eastern horizon in the early evening. The waxing Moon is close to Mars on the 25th and 26th. Mars is close to the variable star Mira, which is still reasonably bright. Mars was at opposition, when it is biggest and brightest as seen from Earth, on October the 14th, but is still worthwhile observing. Observing details and more at the Mars Opposition site.
Jupiter can be readily seen in the early evening sky in the west. Jupiter and Saturn start out three finger-widths apart at the beginning of the week but slowly draw closer. The pair are prominent in the evening skies along with Mars. On the 19th the crescent Moon is close to Jupiter forming a triangle with Saturn. On the 20th the Moon form a line with the pair
Printable PDF maps of the Eastern sky at 10 pm AEST, Western sky at 10 pm AEST. For further details and more information on what's up in the sky, see Southern Skywatch.
Star Map via Virtual sky. Use your mouse to scroll around and press 8 when your pointer is in the map to set to the current time.
Cloud cover predictions can be found at SkippySky.
Here is the near-real time satellite view of the clouds (day and night) http://satview.bom.gov.au/
Labels: weekly sky
Saturday, November 14, 2020
Observing comet C/2020 M3 Atlas
 |  |
| Location of comet C/2020 M3 Atlas on Saturday, November 14 at 3:09 am ACDST, when it is highest in the sky. Similar views will be see elsewhere in Australia at the equivalent local time. | Higher power view of the location of comet C/2020 M3 Atlas on Saturday, November 14 at 3:09 am ACDST, when it is highest in the sky. Similar views will be see elsewhere in Australia at the equivalent local time. |
Comet C/2020 M3 ATLAS is the brightest comet at the moment, at reported magnitudes of 7.5-8.2. It is much brighter that the originally predicted magnitude of 13. It is relatively easly to find at the moment as it passes through the constellation of Orion, and at magnitude 7.5-8.2 it should be visible in 10x50 and stronger binoculars under dark skies, but may be a challenge under suburban skies.
Sadly the best views are when t is hignest in the sky at around 3 am in the morning.
A black and white spotters chart suitable for printing. Click to embiggen and print. The large circles are the approximate field of view of 10x50 binoculars.
Use with a red-light torch (or a standard torch with red cellophane over it) so as to not disturb your night vision.
Because the comet is a fuzzy dot it will be a bit harder to spot the equivalent brightness stars. Allow at least 5 minutes for your eyes to become dark adapted.
For the next fe days the comet will be within binocular range of teh bright star Bellatrix, being closest on the morning of the 16th.
Monday, November 09, 2020
Thursday November 12 to Thursday November 19
The New Moon is Sunday November 15. The Moon is at perigee, when it is closest to the Earth, on the 14th.
The
insets show the telescopic views of Jupiter and Saturn at the same
magnification at this time.
Similar views will be seen elsewhere in Australia at the equivalent local time (90 minutes after sunset), click to embiggen.
Adelaide.
Three bright planets are visible stretching west to east. Jupiter, Saturn and Mars. The Moon joins the lineup later this week.
Similar views will be seen
elsewhere at the equivalent local time (90 minutes after sunset). click to embiggen.
The inset is the telescopic view of Venus at this time.
For this years Leonids the New Moon gives good viewing conditions. As for the recent past years this year there are low rates, you will be unlikely to see anything substantial (although there may be short bursts of higher rates). The best time to observe in Australia is the morning of the 17th and 18th between 3 and 4 am (daylight saving time). The Radiant (where the meteors appear to come from) is in the Sickle of Leo, see the map to the left. Orion and the Hyades will be visible. So it will be a quite nice morning, even if there are only a few meteors (possibly no more than one every half hour).
Mercury is lost in the twilight.
Venus is still readily visible low above the horizon in the morning. It is close to the thin crescent Moon on the 13th.
Mars is readily visible in the evening sky above the north -eastern horizon in the early evening. Mars is close to the variable star Mira, which is still reasonably bright. Mars was at opposition, when it is biggest and brightest as seen from Earth, on October the 14th, but is still worthwhile observing. Observing details and more at the Mars Opposition site.
Jupiter can be readily seen in the early evening sky in the west. Jupiter and Saturn start out under a hand-span apart at the beginning of the week but slowly draw closer. The pair are prominent in the evening skies along with Mars. On the 19th the crescent Moon is close to Jupiter forming a triangle with Saturn.
Printable PDF maps of the Eastern sky at 10 pm AEST, Western sky at 10 pm AEST. For further details and more information on what's up in the sky, see Southern Skywatch.
Star Map via Virtual sky. Use your mouse to scroll around and press 8 when your pointer is in the map to set to the current time.
Cloud cover predictions can be found at SkippySky.
Here is the near-real time satellite view of the clouds (day and night) http://satview.bom.gov.au/
Labels: weekly sky
Wednesday, November 04, 2020
Bright ISS passes shoot past Saturn and Jupiter (4-11 November, 2020)
 |  |  |
| The ISS as seen from Melbourne on the evening of Wednesday 5 November at 20:46 AEDST. Simulated in Stellarium (the ISS will actually be a bright dot), click to embiggen. | The ISS as seen from Adelaide on the evening of Saturday 7 November at 20:18 ACDST. Simulated in Stellarium (the ISS will actually be a bright dot), click to embiggen. | The ISS as seen from Perth on the evening of Saturday 7 November at 19:21 AWST. Simulated in Stellarium (the ISS will actually be a bright dot)click to embiggen. |
 |  |  |
| All sky chart showing local times from Heavens Above for Wednesday 5 November for Melbourne . | All sky chart showing local times from Heavens Above for Saturday 7 November for Adelaide. | All sky chart showing local times from Heavens Above for Saturday 7 November for Perth. |
Over the next few days there are a series of bright ISS passes in the late evening twilight/early evening. The outstanding passes are when the ISS passes below or through Jupiter and Saturn (See above and Sydney 5th), or Mars (Sydney 6th) and in some sites through the pointers (Adelaide 5th , Brisbane 6th), or very close to these bright stars.
The following tables are from data provided from Heavens Above. Particularly impressive passes are highlighted.
Passes from Adelaide (ACDST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -3.8 | 21:01:32 | 10° | SW | 21:04:59 | 89° | NW | 21:06:23 | 33° | NE | visible |
| 05 Nov | -3.2 | 20:13:49 | 10° | SW | 20:17:10 | 48° | SE | 20:20:28 | 10° | ENE | visible |
| 05 Nov | -1.1 | 21:51:53 | 10° | W | 21:53:37 | 13° | NW | 21:53:41 | 13° | NW | visible |
| 06 Nov | -1.9 | 21:03:08 | 10° | WSW | 21:05:59 | 24° | NW | 21:08:06 | 14° | N | visible |
| 07 Nov | -2.9 | 20:14:58 | 10° | WSW | 20:18:17 | 46° | NW | 20:21:33 | 10° | NNE | visible |
Passes from Brisbane (AEST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -1.4 | 18:59:51 | 10° | S | 19:01:47 | 14° | SE | 19:03:25 | 11° | ESE | visible |
| 04 Nov | -0.8 | 20:35:29 | 10° | WSW | 20:36:23 | 16° | WSW | 20:36:23 | 16° | WSW | visible |
| 05 Nov | -3.7 | 19:47:32 | 10° | SW | 19:50:43 | 76° | SW | 19:50:43 | 76° | SW | visible |
| 06 Nov | -3.2 | 18:59:51 | 10° | SSW | 19:03:09 | 44° | SE | 19:05:08 | 20° | ENE | visible |
| 07 Nov | -1.7 | 19:49:21 | 10° | WSW | 19:51:55 | 20° | NW | 19:52:35 | 19° | NW | visible |
| 08 Nov | -2.6 | 19:00:59 | 10° | WSW | 19:04:13 | 40° | NW | 19:07:09 | 12° | NNE | visible |
| 10 Nov | -0.7 | 19:04:30 | 10° | WNW | 19:05:03 | 10° | WNW | 19:05:36 | 10° | NW | visible |
Passes from Darwin (ACT)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 07 Nov | -0.7 | 20:54:52 | 10° | SW | 20:55:33 | 15° | SW | 20:55:33 | 15° | SW | visible |
| 08 Nov | -2.9 | 20:07:16 | 10° | SSW | 20:10:08 | 38° | SE | 20:10:08 | 38° | SE | visible |
| 09 Nov | -1.9 | 19:20:10 | 10° | S | 19:22:37 | 18° | SE | 19:24:47 | 11° | E | visible |
| 09 Nov | -0.6 | 20:57:06 | 10° | W | 20:57:46 | 13° | W | 20:57:46 | 13° | W | visible |
| 10 Nov | -2.4 | 20:08:23 | 10° | WSW | 20:11:29 | 34° | NW | 20:12:30 | 27° | NNW | visible |
| 11 Nov | -3.7 | 19:20:20 | 10° | SW | 19:23:43 | 86° | NW | 19:27:04 | 10° | NE | visible |
| 13 Nov | -1.0 | 19:22:27 | 10° | W | 19:24:38 | 16° | NW | 19:26:48 | 10° | NNW | visible |
Passes from Hobart (AEDST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -1.2 | 21:32:49 | 10° | W | 21:34:43 | 14° | NW | 21:36:23 | 11° | NNW | visible |
| 05 Nov | -1.8 | 20:44:17 | 10° | W | 20:47:05 | 23° | NW | 20:49:51 | 10° | N | visible |
Passes from Melbourne (AEDST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -2.3 | 21:32:22 | 10° | WSW | 21:35:24 | 30° | NW | 21:36:23 | 25° | NNW | visible |
| 05 Nov | -3.2 | 20:44:20 | 10° | WSW | 20:47:42 | 55° | NW | 20:50:43 | 12° | NE | visible |
| 07 Nov | -1.3 | 20:46:16 | 10° | W | 20:48:36 | 17° | NW | 20:50:55 | 10° | N | visible |
Passes from Perth (AWST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -3.7 | 20:05:08 | 10° | SW | 20:08:34 | 67° | SE | 20:09:20 | 47° | ENE | visible |
| 05 Nov | -2.7 | 19:17:31 | 10° | SSW | 19:20:43 | 35° | SE | 19:23:41 | 11° | ENE | visible |
| 05 Nov | -1.1 | 20:55:06 | 10° | W | 20:56:38 | 15° | WNW | 20:56:38 | 15° | WNW | visible |
| 06 Nov | -2.2 | 20:06:33 | 10° | WSW | 20:09:36 | 30° | NW | 20:11:03 | 21° | N | visible |
| 07 Nov | -3.3 | 19:18:29 | 10° | SW | 19:21:53 | 61° | NW | 19:25:13 | 10° | NNE | visible |
| 09 Nov | -1.1 | 19:20:33 | 10° | W | 19:22:46 | 16° | NW | 19:24:58 | 10° | NNW | visible |
Passes from Sydney (AEDST)
| Date | Brightness | Start | Highest point | End | Pass type | ||||||
| (mag) | Time | Alt. | Az. | Time | Alt. | Az. | Time | Alt. | Az. | ||
| 04 Nov | -2.3 | 19:57:23 | 10° | SSW | 20:00:23 | 27° | SE | 20:03:22 | 10° | E | visible |
| 04 Nov | -1.7 | 21:34:16 | 10° | WSW | 21:36:23 | 22° | WNW | 21:36:23 | 22° | WNW | visible |
| 05 Nov | -3.0 | 20:46:06 | 10° | WSW | 20:49:24 | 46° | NW | 20:50:43 | 29° | N | visible |
| 06 Nov | -3.7 | 19:58:12 | 10° | SW | 20:01:39 | 87° | SE | 20:05:03 | 10° | NE | visible |
| 07 Nov | -1.1 | 20:48:32 | 10° | W | 20:50:17 | 13° | NW | 20:52:01 | 10° | NNW | visible |
| 08 Nov | -1.8 | 19:59:46 | 10° | WSW | 20:02:38 | 25° | NW | 20:05:27 | 10° | N | visible |
When and what you will see is VERY location dependent, so you need to use Heavens Above to get site specific predictions for your location, a small difference in location can mean the difference between the ISS passing over a star or planet or missing it completely. As always, start looking several minutes before the pass is going to start to get yourself oriented and your eyes dark adapted. Be patient, there may be slight differences in the time of the ISS appearing due to orbit changes not picked up by the predictions. Use the most recent prediction for your site.
Labels: ISS, Satellite, unaided eye
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