January 2019 night sky guide, transcript and sky chart

To help you learn about the southern night sky, Sydney Observatory provides a guide and a sky map each month. This month’s guide is presented by Dr Andrew Jacob, Sydney Observatory’s Curator of Astronomy.

This month, learn how to find the summer constellations of Orion, Canis Major and Taurus. Tour the Milky Way galaxy from the Southern Cross to Auriga in the north and discover the brightest stars in the sky. Andrew also tells us how to find the planets Venus and Jupiter in the morning sky with the help of the Moon. And what are the celestial highlights to look out for during the year of 2019.

Hear the Audio
You can subscribe to the podcast on iTunes or directly download this month’s guide to your favourite audio listening device.

See the Sky Chart
We provide a StarMap 01 January 2019 (PDF) which shows the stars, constellations and planets visible in the night sky from anywhere in Australia. To view PDF star charts you will need to download and install Adobe Acrobat Reader if it’s not on your computer already.

Read the Guide

Hello, and welcome to the night sky for January 2019.

This is Andrew Jacob, and I’m the Curator at Sydney Observatory, part of Sydney’s Museum of Applied Arts & Sciences. Come on a tour of the night sky with me. Learn what stars and constellations are visible, where to find the planets and what special events are happening overhead this month.

To make the most of this guide, you should begin by gathering a few items together. Firstly, you will need a star map. You can download a free one from Sydney Observatory’s website where you’ll find it in the Astronomy Resources section under Monthly Sky Guides. The star map will show you what stars and constellations are visible in the night sky this month and I’ll be referring to that star map in this guide.

As well as the star map, a torch with a red LED, or one covered with a few layers of red cellophane, will be very useful. The red light will allow your eyes to remain dark adapted during the evening, yet still allow you to read your star map.

Finally, a pair of binoculars or a telescope can be very handy. They’re not essential for following this guide but if you do have them they will help you see a few of the fainter objects more easily and in more detail.

Now that we have our equipment together we need to know a few directions and also how to measure angles across the sky.

You can find the cardinal directions – North, South, East and West – from a compass app on your mobile device, or just remember, of course, that the Sun rises in the east and sets in the west. And if the Sun is setting at your right shoulder, then you must be facing south. Another useful direction to remember is the zenith. This is the point directly overhead.

To find your way around the night sky, it helps to know how to measure angles across it. It makes no sense to say, for instance, that one star is “2 centimetres” to the left of another or that a shooting star left a trail “half a meter” long! Instead we should use angular measurements. The distance around the horizon, from North, through East, South, West and back to North is 360 degrees. And from the horizon vertically upwards to the zenith overhead is 90 degrees.

But how do we measure smaller angles? Well, despite the great variety of human form our fingers, hands and arms are all pretty much in the same proportions. If you hold your hand out at arm’s length and stretch out your little finger and thumb to make a hand span, they span an angle across the sky of about 20 degrees. A fist held out at arm’s length makes an angle across the sky of about 10 degrees. And a finger held up at arm’s length is about 1 degree, or twice the width of the Moon or the Sun. I’ll be using these measurements during this guide. So, a hand span at arm’s length is 20 degrees, a fist is about 10 degrees, and a single finger is about one degree across the sky.

One final point to note before we get started. The Earth rotates and so the sky changes hour by hour. My descriptions of the constellations and stars in this guide fit the time of one to two hours after sunset.


This month the best constellations and stars are high overhead. So let’s begin by getting comfortable – grab a blanket, lie down with your feet facing West and look straight up towards the zenith. With your feet pointing westwards most of the constellations above will appear upright, rather than upside down as they often do from the southern hemisphere!

At this point, if you are at a dark site away from city or town light pollution and if the Moon is not up, I recommend you wait for about 15-minutes for your eyes to adjust to the darkness. Your view of the night sky will be much better if you do this.

If you are in a dark location, and there is no Moon up, you will see the Milky Way, the edge-on view of our own galaxy, stretching from the south horizon on your left, passing overhead through or close to the zenith, and reaching the north horizon on your right. It appears as a milky irregular band of light. If the Moon is up or you are near a city or large town and light pollution affects your view, the Milky Way won’t be visible but you will still see a band of bright stars stretching across this part of the sky, from south to north.

We begin with the constellation Orion, the Hunter in the sky, slightly north or right of the zenith. With the help of your star map locate the three stars of Orion’s belt. From top to bottom these are Alnitak, Alnilam and Mintaka. To the right is the star Betelgeuse, glowing orange-red or maybe yellow-orange. This star represents Orion’s shoulder. It is a red-giant star coming to the end of its life, it is 425 light years away and it’s hundreds of times larger than our Sun.

To the left of Orion’s belt is the bright star Rigel, one of Orion’s knees. Rigel is also at a late stage in its life cycle, although not as late as Betelgeuse. It is about 1000 light years away and its surface temperature is about 11,000 degrees Celsius – about twice as hot as our Sun.

Now, if Betelgeuse and Rigel form Orion’s right shoulder and left knee respectively you should now be able to imagine the figure of a man, perhaps with the help of your star map. His head and shoulders are to the right, his body narrows to the three “belt stars” at his waist and his legs stretch out to the left. From Betelgeuse to Rigel is about a hand span or about 20-degrees across the sky. Between Orion’s legs, hanging from his belt, is Orion’s sword. To your eye this appears as a line of three fuzzy stars. Through binoculars they appear as three groups of stars, with the middle one surrounded by a faint hazy “cloud”. This cloud, or nebula, is the Orion Nebula, over 1500 light years away. It is also known to astronomers as “M42”. It is perhaps the most photographed object beyond our solar system and is a large cloud of, mostly, hydrogen gas which is producing new stars. The cloud is 15 light years in diameter and the stars you see embedded within it (with your binoculars) were formed from the collapsing hydrogen gas within the last million years or so.

A moment ago I mentioned “light years”. What is a light year? It’s a measure of distance, even if it sounds like a time. If you have a torch shine its light into the sky for a moment. The light from your torch travels incredibly fast. In just one second it goes almost 300,000 kilometers. That’s seven and a half times around the Earth or almost the distance to the Moon. In fact in just one and a quarter seconds your torch light would reach the Moon, 380,000 kilometres away. In eight and a half minutes the light would reach the Sun, 150 million kilometres from Earth. After five hours light from your torch would pass Pluto. Finally, after one year of time your torch light will have travelled one light-year of distance. Yet we still haven’t reached the next nearest star!

Proxima Centauri, our closest star after the Sun, is about 42 million million kilometres away from us. Your torch light would take about 4.2 years to reach it. So we can say that Proxima Centauri is about 4.2 light years away from Earth. This also means that we see Proxima Centauri, the star, as it was about 4.2 years ago. We are looking into the past to see everything in the universe.

So a light year is simply a distance, and one light year is about 10 million million kilometers long.

Let’s return to Orion. Orion is a pivotal constellation – its stars are guides pointing to many other interesting stars, constellations and other objects.

If we extend the line of Orion’s belt stars down and right we come to an orange star amongst a V-shaped pattern of fainter stars. From the belt to this orange star is about 20-degrees or a hand span. This group of stars is Taurus the Bull. The orange star is Aldebaran, the eye of the Bull, and his head is the V-shape. A little further down and to the right, still following the line of Orion’s belt stars is a small cluster of sparkling diamond-like stars. Best seen through binoculars, not a telescope, these are also known as the Pleiades or Seven Sisters. It’s a group of young stars all born from the same nebula – so they really are sister stars. These represent the daughters of Atlas, who holds the sky aloft on his shoulders, and Pleione.

Returning to Orion’s belt we now follow the line of the belt up and to the left, again about 20-degrees. Soon we reach the brightest star in the sky, Sirius, high overhead. Its name means “scorching” or “brilliant” and you can see why. Sirius is also called the “Dog Star” because it’s the brightest star in the constellation of Canis Major, the Big Dog. With the help of your star map you can identify the shape of the dog, the faithful hunting companion of Orion. Just above Orion, as we lie here, and back towards the eastern horizon 30-degrees from Orion’s belt, is the bright star Procyon in the constellation Canis Minor, the Little Dog. This constellation looks nothing like its name at all – only a few of the 88 constellations in the sky do look like their name.

Returning again to Orion, we now use his sword to direct us to our next destination. You might notice Orion’s sword points directly left (South) and right (North). This is a very useful thing to remember when the Southern Cross is low in the sky as it is this month – it’s a summer compass if you like. Following the direction of the sword far to the North, to the right, brings us to the bright yellowish star Capella, 50-degrees away and just a fist width above the northern horizon. Capella is the brightest star in the constellation Auriga, the Charioteer who was a legendary king of Athens.

Following Orion’s sword to the South, or left, again about 50-degrees brings us to a bright, white star. This is Canopus, 205 light years away and the second brightest star in the night sky after Sirius. Canopus is one of the celestial navigation stars used by ships navigators for centuries. Appropriately it’s the brightest star in the constellation Carina, the Keel of the great ship in the sky. The ship was once a single constellation called Argo Navis. But in 1930 it was broken up into the keel and the nearby sails, Vela, the rear deck, Puppis, and the ship’s compass, Pyxis. This is not an easy ship to identify in the sky – perhaps it’s fading into a summery ocean haze?

More easily identified is the False Cross. This is an “asterism” or star-shape not one of the 88 formal constellations. It lies on the border of Carina and Vela taking in stars from both constellations. It is larger and fainter than the real Southern Cross which lies further to the left and very close to the southern horizon.

Let’s look back to Canopus. Below this star you will notice, if you are in a dark site away from city lights and with no Moon in the sky, two cloudy patches. These are the Large Magellanic Cloud (LMC on your map) and Small Magellanic Cloud (SMC on your map). These clouds are companion galaxies to our own Milky Way galaxy. But our galaxy is bullying and harassing these smaller companions and tearing them apart. We used to think that in the distant future the Milky Way would absorb both these small galaxies but some recent work suggests they are just passing by.

The Small Magellanic Cloud is the lower of the two, that is if you are still lying down with your feet to the west. Just to its right, about 15-degrees away, is another bright star. This is Achernar, meaning the River’s end. It is the star at the end of the constellation Eridanus, the River in the sky.  Now here’s a small challenge for you – can you trace the river Eridanus across the sky? It meanders from Achernar across the zenith to its source near the star Rigel in Orion. Use your star map to “star hop” from one star to the next along the course of the river, travelling upstream to Orion. This “star-hopping” technique is a good one to practice for future use when trying to find faint or obscure celestial objects, particularly with your binoculars or a telescope.

Let’s review what we’ve seen tonight. We begin from the South, on your left, and we’ll travel along the Milky Way. Close to the southern horizon is the Southern Cross, with the Two Pointer Stars below. Moving northwards, to the right, we pass the False Cross between Vela the Sails and Carina the Keel. Then comes Canopus, the bright navigation star, and below it the Magellanic Clouds and Achernar. Next along is Canis Major and the brightest star, Sirius, followed by Orion the Hunter with his belt and sword. Then comes Taurus the Bull and the Seven Sisters and finally low down on the northern horizon is Capella in the constellation Auriga. Phew! What a superb summer sight!

It’s an even better sight with binoculars. If you slowly sweep the Milky Way passing all the objects I’ve mentioned tonight you’ll also discover, in between, hazy gaseous nebulae where stars are born, sparkling clusters of young stars and curious star patterns here and there. At first it seems overwhelming but if taken in bite sized chunks, month by month, there’s a lifetime of observing to be had.

But wait there’s more! Most of the brightest stars in the night sky are visible during January nights. Sirius, the Dog Star is the brightest followed by Canopus, the navigation star. Third brightest is Alpha Centauri, one of the Two Pointers low in the south. Next are Arcturus and Vega, neither visible on January evenings. Sixth brightest is Capella, a fist-width above the northern horizon, and then Rigel, Orion’s knee. Next is Procyon in the Little Dog. Ninth is Achernar at the end of the River Eridanus. Finally, Betelgeuse, Orion’s shoulder, is the tenth brightest star in the night sky. That’s eight of the ten brightest stars all visible at once on these warm summer evenings – January is truly one of the best months to be outdoors journeying through the starry realms!

And now, let’s have a look at the special events and highlights for this month.


What are the special events and highlights for January 2019?

Let me note that all the times I am about to mention are in Eastern Australian Daylight-saving Time or AEDT, as it is properly known. Please make the appropriate adjustments for your time zone and state where necessary.

Let’s start with the Moon phases. We begin with a New Moon on Sunday 6th at 12:28pm. First Quarter is on Monday 14th at 5:45pm, Full Moon occurs on Monday 21st at 4:16pm and finally Last Quarter Moon is on Monday 28th at 8:10am.

The Moon is the brightest object in the night sky when it is up, no matter what phase it is in. It is well worth observing its changing phases or looking closely at the craters, plains and other features with binoculars or a telescope. But to get the best views of the Milky Way and the constellations it is best to avoid moon-lit hours. If the Moon is between New and Full (i.e. waxing) wait for it to set before observing the Milky Way and stars – so in January 2019 that would be in the first half of the month. If the Moon is between Full and New (waning) observe before it rises – that would be in the second half of this month. You don’t need a daily list of rise and set times – just watch the Moon for a few days and you will soon learn to predict its behaviour.


What planets are visible in January 2019?

Mars is the only evening planet this month. It is in the north-western sky in the constellation Pisces, the fish. On the 12th the crescent Moon is just to the left of Mars.

In the dawn sky it’s a little different.

Mercury is very low in the dawn twilight and virtually impossible to see.

Venus, however, shines bright and white above the eastern horizon – it’s the Morning Star at present. It begins the month in Libra, moves into Scorpius and ends the month in Ophiuchus.

Jupiter, the King of the Planets, is also in the east, in Ophiuchus, initially below and to the right of Venus. But as the month goes on Jupiter moves up and left and passes Venus. On the 22nd they are at their closest and will make a fine sight in the morning sky.

Saturn begins the month behind the Sun, or in “conjunction” with the Sun, as we say. It then remains very low in the south east and will be difficult to see until it rises higher towards the end of the month.

The Moon will help identify the planets as it often does. On the 2nd the crescent Moon is beside Venus in the early morning and on the 3rd it’s to the left of Jupiter. By the 5th it’s just below Mercury, but this will be just before sunrise and may be very difficult to observe.

Earth, once again, reaches its closest point to the Sun, or perihelion, on Thursday 3rd January at 4:20pm. It will be just over 147 million kilometres from the Sun.


What other astronomical events are happening in January 2019?

Well, there is a partial solar eclipse on January 5th and total lunar eclipse on January 21st but sadly neither of these are visible from Australia.

On January 1st the New Horizons spacecraft passes the icy Kuiper belt object MU69, or Ultima Thule as it is unofficially known. You may remember a few years ago the New Horizons spacecraft shot past Pluto and its images completely transformed our view of this distant dwarf planet. Now it’s taking a close look at one of the millions of tiny icy planetesimals beyond Pluto. This one is thought to have remained unchanged since the formation of our solar system. Images should begin arriving from the 2nd. What surprises are in store this time?


It’s the beginning of a whole new year so what are the great celestial events to look out for in 2019?

There will be a partial eclipse of the Moon in July that we will see from Australia. And a total solar eclipse in July that we won’t see – but you may hear about it. If you want to see this total solar eclipse – and it’s something everyone should experience at least once in their lifetime – you will need to travel to Chile or Argentina in July.

The Moon covers, or “occults”, Saturn in April, August and September. During these disappearances,  or “occultations”, you will see Saturn disappear behind the dark limb of the Moon and reappear around an hour later on the other side of the Moon. These are best viewed with a telescope but if you don’t have one Sydney Observatory plans to live stream the April and August events – weather and technology allowing!

Finally, there is a transit of Mercury this year, when Mercury crosses the face of the Sun. But once again you will need to travel – to New Zealand or South America – to observe it.


There are also a few astronomical anniversaries to celebrate in 2019. Here they are.

2019 marks the centenary of the International Astronomical Union (IAU), the representative body for professional astronomers across the world. The organisation grew out of meetings held in Europe to plan the Astrographic Catalogue, the first photographic chart of the entire sky. Sydney Observatory was deeply involved in the Astrographic Catalogue project in the years before and after 1900. Today the IAU’s mission is to promote and preserve astronomy. Among its many duties it maintains the definitions of astronomical constants such as the Mass of the Sun or the Astronomical Unit (the standard distance between the Sun and Earth), it standardises nomenclature and it’s the recognized authority for naming celestial objects, such as stars, craters on the Moon and comets.

In 2019 the Great Melbourne Telescope turns 150. The largest telescope in the world when it began work in Melbourne Observatory in 1869 it is now being restored by a dedicated group of volunteers in Melbourne. Hopefully soon it will be available once again for viewing.

2019 is the centenary of some observations of Mercury made during a total solar eclipse. But these observations, made off the coast of Africa in May 1919 by Arthur Eddington, provided evidence that Einstein’s General theory of relativity (his theory that explains gravity) was indeed correct.

Finally, August 29 to September 02 this year marks the centenary [Correction: Oops! What I meant to say here was this year marks the 160th anniversary, not the centenary!] of the Carrington Event, a series of colossal solar flares that disrupted telegraph communication [in 1859], caused auroras to be visible near the equator and made the sky glow so brightly newspapers could be read at night. If such an event happened today it would damage the electronics in your phone and your PC, possibly damage electricity grids and cause blackouts and perhaps endanger the digital age. Thank goodness all we need to view the night sky are our eyes.


And on that cheery note we wrap up this podcast for January 2019!


An excellent companion to Sydney Observatory’s monthly Night Sky Guides is the annual “Australasian Sky Guide” by Dr Nick Lomb. It’s jam-packed with monthly night star maps and astronomical information, including rise and set times for the Sun, Moon and planets, plus tide times and a detailed look at our solar system and upcoming astronomical events. It’s available from Sydney Observatory or the MAAS store, or you can purchase it online, for which additional costs apply.

For more astronomical information, check our website and blogs, and keep in touch via our Facebook and Twitter accounts.

And if you’re in Sydney visit the Observatory in the Rocks area. Book in for a night tour to view the skies through our telescopes. Or tour our exhibition for free and discover the history of Australian astronomy.

And that brings to an end this Night Sky Guide from Sydney Observatory and from me, Andrew Jacob. Thank you for listening and I wish you clear skies until next time.


9 responses to “January 2019 night sky guide, transcript and sky chart

  • I’m finding the Sydney humidity a barrier to decent stargazing this month. Even if there’s no cloud as such, there’s often a lot of moisture in the air and the city lights and especially moonlight create a silvery glow high off the horizon. Last month was clearer and one night I did a naked-eye count of 457 stars in 4 hours of breaking my neck looking up at the sky. No such luck this month yet. Still have never been able to see the constellation Sculptor and I’m losing any chance now as it makes its way west into light pollution. I guess I should drag my city-dwelling backside out to the bush for a decent view.

    • Mark, I can recommend a moonless night on the far side of the Blue Mountains, say from Katoomba/Leura westwards, and then head north or south a few kilometres to get away from the urban areas. Thanks for the star-count – what suburb were you observing from? You know, you could always lie down – we wouldn’t want astronomy to be the cause of any injuries!

  • Hi Andrew
    First timer here and have googled this as I was surprised how bright a star was this morning in the east. (Morning star??). Enjoy photography and hopeless at night stuff but inspired by this star. When I viewed it there was what appears to be a bluish looking comet between the bright star and a nearby bright one. I took a couple of shots and it has moved. Is it possible there was one/ is one?? Many thanks for the guide too. I can see I have to read and do more! Cheers

    • Will, Yes, the bright one was the Morning Star, aka Venus! Your bluish object was not a comet – they don’t move that fast. I would need more information to identify it, both a full description of it, plus of your equipment. Please post to our Lights In The Sky blog, and include a link to a photo (sorry, we just aren’t setup for photos.
      We are pleased you enjoyed the guide!

  • Thanks for the wonderful podcast and transcript!

    However, I was comparing all my collected sky maps for this month, and noticed that the map provided in this article is the same as the map shown for December 2018 in the 2019 Australasian Sky Guide by Dr Nick Lomb. The Southern Cross position as given by this map is also in the December position according to page 1 of the PDF.

    Hoping you could clear this up!

    • Patricia, Thank you, I’m glad you enjoyed it! Yes, the maps are almost identical and this is correct. This is because the sky can look the same in different months, *if* you observe it at a different time. For example, in the 2019 Australasian Sky Guide the December map is correct for two different time-date combinations. At 10:30pm on Dec 07 the sky is the same as at 09:30pm on Dec 21 (one hour earlier but two weeks later). Continuing the pattern the sky will be the same again one hour earlier but two weeks later, i.e. at 08:30pm on Jan 04. And this is (approximately) when the map attached to this month’s (Jan 2019) podcast is drawn for.

      • Thank you for the reply!

        I understand the maths behind this, but I think it’s worth mentioning the star guide, if set for 20:30 on the 4th of January, while correct, could be a lot more practical, as a) on the 4th of January, the sun set at 20:10 and the ideal time to go out would be a bit after astronomical dusk, ending at 21:52, and b) the 4th is really early in the month. It might be more helpful, especially for novices, if it was set for a later time, and a later date in the month. Hope you take this suggestion in good faith!

        Also, part of my confusion was down to how the December sky guide doesn’t come up on the list of monthly sky guide articles, only on the general observation blog, as it’s not tagged. Looking forward to reading more guides, Patricia.

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