Dominic Reardon captured this image of Comet C/2022 E3 ZTF on 25/26 January 2023 from Arnside, Cumbria, UK. Equipment: Nikon D500 camera, Sigma 150-500 f/5-6.3 lens, iOptron Skyguider Pro & William Optics base.

What is a comet?

Comets, the least predictable Solar System visitors, can be one of its great highlights.

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Ezzy Pearson

Published: January 2, 2024 at 2:06 pm

Simply put, a comet is a large body of ice and dust orbiting the Sun, sometimes seen as a bright object in the sky with a long tail streaming behind it.

Wanderers of the Solar System, comets can rank among the most spectacular of astronomical sights when they appear in our skies.

Comets never fail to capture imaginations when they pass by Earth, and after years of observations astronomers have coaxed out the secrets hidden by their glow.

The heart of a comet is its nucleus, a core of ice laced with rock and dust, a few kilometres wide.

Though sometimes called a ‘dirty snowball’, the ice found on comets is far more exotic than that on Earth.

Find out which comets and asteroids are visible tonight or discover our pick of history's greatest comets.

And find out which comets are best this year in our guide to comets in 2024

What is a comet? You may have seen particularly bright ones with a tail streaming behind them. José J. Chambó captured this image of Comet C/2022 E3 (ZTF) on 24 December 2022. Credit: José J. Chambó (www.cometografia.es)
What is a comet? You may have seen particularly bright ones with a tail streaming behind them. José J. Chambó captured this image of Comet C/2022 E3 (ZTF) on 24 December 2022. Credit: José J. Chambó (www.cometografia.es)

When the Rosetta spacecraft reached 67P/Churyumov-Gerasimenko in 2014 it performed the first in-situ analysis of a comet’s nucleus.

It found not only water-ice, but also carbon dioxide and monoxide, as well as traces of ammonia, methane and methanol. It found the ingredients for life.

These highly volatile compounds are usually found as a gas or liquid on Earth, but the frigid depths of space have frozen them to ice as hard as rock.

Comets' orbits explained

Comets travel in huge elliptical orbits, briefly visiting the inner Solar System at one end before travelling billions of kilometres to the outer regions.

Some, such as Halley’s Comet, have an orbit that only lasts a few years or decades, and are called short-period comets.

Long-period comets travel farther into deep space, taking thousands of years to complete an orbit.

An image of Comet C/2020 F8 SWAN captured by Diego Toscan. Credit: Diego Toscan CC BY-SA 4.0 (https://en.wikipedia.org/wiki/C/2020_F8_(SWAN))
An image of Comet C/2020 F8 SWAN captured by Diego Toscan. Credit: Diego Toscan CC BY-SA 4.0 (https://en.wikipedia.org/wiki/C/2020_F8_(SWAN))

What happens when a comet gets close to the Sun?

For most of a comets' orbit, the nucleus remains an inert lump of ice, but this changes as the comet nears perihelion, its closest approach to the Sun.

When close enough, solar radiation heats the surface, causing the volatile components to boil.

As the gas escapes into space it lifts off dust, creating a shroud that can stretch out over 50,000km around it, known as the coma.

Comet C/2017 E4 Lovejoy by José J. Chambó, Mayhill, New Mexico, USA. The comet shows a tail and a bright coma.
Comet C/2017 E4 Lovejoy by José J. Chambó, Mayhill, New Mexico, USA. The comet shows a tail and a bright coma.

As the comet gets closer to the Sun, this envelope begins to feel the solar influence even more acutely, as its wind and magnetic field sweep the dust and gas out into a huge tail.

This can extend for millions of kilometres, spanning huge swathes of the Solar System.

Some of the tail’s debris is left behind in its orbit to form a meteoroid stream.

Several of these cross the Earth’s orbit, and when we pass through them every year, we see the debris burning up in the atmosphere as a meteor shower.

An outflow of gas from Comet 67P/Churyumov-Gerasimenko, which was studied during the Rosetta mission. Credit: ESA/Rosetta/NAVCAM – CC BY-SA IGO 3.0
An outflow of gas from Comet 67P/Churyumov-Gerasimenko, which was studied during the Rosetta mission. Credit: ESA/Rosetta/NAVCAM – CC BY-SA IGO 3.0

For more info on this, read our beginner's guide to meteor showers.

For most comets, these close encounters with the Sun do little more harm than melting another layer off the nucleus.

Sometimes comets get too close, and the intense heat and gravity cause them to break apart, as happened in 2013 with C/2012 S1 ISON.

Sunlight reflecting off the coma and tail causes these celestial visitors to glow, making them a popular target for astronomers.

Comet C/2017 K2 (PanSTARRS) photographed by Martina McGovern, Cambridge, UK, 14 July 2022
Comet C/2017 K2 (PanSTARRS) photographed by Martina McGovern, Cambridge, UK, 14 July 2022

Observing comets

Unlike meteor showers, comets are a more transient phenomena adhering to a timetable all of their own.

Every year there are a handful of comets that can be seen with the aid of a small telescope.

Websites like International Comet Quarterly and the British Astronomical Association’s Comet Section list currently active comets visible with an amateur telescope, and where they can be found.

Even if we know when a comet is likely to appear and the path it will take, no one can guess what it will behave like once it approaches the inner Solar System.

A comet could pass so close to the Sun that experts are sure it will be a spectacular view, only for it to break apart during perihelion, or give little more than a fizz of a tail.

Comet Leonard captured by Mike Read from Corsley, Wilshire, UK on 8 December 2021.
Comet Leonard captured by Mike Read from Corsley, Wilshire, UK on 8 December 2021.

However, once in a decade or so there is a comet that passes close enough to Earth and is bright enough to be seen with the naked eye.

When one of these is truly exceptional it may be bestowed the moniker of ‘Great Comet’; an apparition so magnificent it is remembered for centuries (or even millennia) to come.

Though in the past comets used to hold a bad name, as the portents of death and war, now these capricious visitors are a highlight for anyone lucky enough to see one as it passes by.

Where do comets come from?

Chart showing the orbit of a long period comet. Credit: BBC Sky at Night Magazine.

After the planets formed, the material left over in the outer Solar System coalesced into a great many icy bodies.

These organised themselves into two regions. The inner of these is a ring between 4.5 and 7.4 billion km, known as the Kuiper Belt.

It’s thought that short-period comets come from this region.

Far beyond this, surrounding the entire Solar System, is a much larger cloud that is thought to stretch out 3.2 lightyears called the Oort Cloud.

Why comets have tails

Diagram showing how a comet's tail changes at it approaches the Sun. Credit: BBC Sky at Night Magazine
Diagram showing how a comet's tail changes at it approaches the Sun. Credit: BBC Sky at Night Magazine

The most alluring part of a comet is surely its huge tail, but what is not always obvious is that there are two.

The most apparent is the dust tail, which the solar wind sweeps out in an arc.

However, the magnetic field captures the gas, pulling it away to form a much fainter second tail.

Regardless of where the comet is in its orbit, the tails will point away from the Sun, rather than streaming behind as is often believed.

Five famous comets

What are some of the most famous comets in history? These 5 comets will live long in the memory of comet chasers.

Comet Hale-Bopp

Comet Hale-Bopp, photographed by Alan Hale, Cloudcroft, New Mexico, 1996. Credit: Alan Hale (used with permission)
Comet Hale-Bopp, photographed by Alan Hale, Cloudcroft, New Mexico, 1996. Credit: Alan Hale (used with permission)
  • Closest approach: 136 million km.
  • Period: 2,520 to 2,533 years.
  • Fact: Naked eye visible for a record 18 months in 1996 and 1997, Hale Bopp captured the public interest the world over.

Comet 67P/Churyumov-Gerasimenko

The Rosetta mission revealed plumes of dust and gas erupting from the surface of Comet 67P/Churyumov-Gerasimenko
The Rosetta mission revealed plumes of dust and gas erupting from the surface of Comet 67P/Churyumov-Gerasimenko
  • Closest approach: 186 million km.
  • Period: 6.4 years.
  • Fact: The target of the Rosetta mission, which studied the comet from orbit and sent the Philae lander to its surface.

Great Daylight Comet

Great Daylight Comet
The Great Daylight Comet. Credit: Percival Lowell - Lowell Obsrvatory, publ. 1910
  • Closest approach: 19 million km.
  • Period: 57,300 years.
  • Fact: Spotted in January 1910, this comet quickly grew in brightness until it outshone even Venus.

Halley’s Comet

An image of Halley’s Comet taken on 8 March 1986 by W. Liller from Easter Island. Credit: NASA/W. Liller - NSSDC's Photo Gallery (NASA)
An image of Halley’s Comet taken on 8 March 1986 by W. Liller from Easter Island. Credit: NASA/W. Liller - NSSDC's Photo Gallery (NASA)
  • Closest approach: 88 million km.
  • Period: 75.3 years.
  • Fact: This regular visitor was observed as early as 240 BC. It is often visible to the naked eye.

Comet Ikeya-Seki

Comet Ikeya-Seki. Credit: James W. Young (TMO/JPL/NASA) - http://www.w7ftt.net/ikeyaseki1.html
Credit: James W. Young (TMO/JPL/NASA) - http://www.w7ftt.net/ikeyaseki1.html
  • Closest approach: 450,000km.
  • Period: 876.7 years.
  • Fact: In 1965, Ikeya-Seki’s close pass of the Sun caused it to become one of brightest comets of the past millennia.

Photos of comets

Comet C/2023 P1 Osama Fathi, Black Desert, Egypt, 26 August 203 Equipment: ZWO ASI294MM Pro mono CCD camera (comet), Nikon Z6 mirrorless camera (foreground), William Optics RedCat51 apo refractor, Sky-Watcher Star Adventurer 2i mount
Comet C/2023 P1 Osama Fathi, Black Desert, Egypt, 26 August 203 Equipment: ZWO ASI294MM Pro mono CCD camera (comet), Nikon Z6 mirrorless camera (foreground), William Optics RedCat51 apo refractor, Sky-Watcher Star Adventurer 2i mount
Comet Neowise captured over Sycamore Gap, Northumberland, UK, July 2020. Credit: John Finney Photography / Getty Images
Comet Neowise captured over Sycamore Gap, Northumberland, UK, July 2020. Credit: John Finney Photography / Getty Images
C/2023 P1 (Nishimura) captured from Valencia, Spain by José J. Chambó on 9 September 2023 at 04:21 UT. Description: Comet C/2023 P1 (Nishimura) imaged during the dawn of September 9, 2023, at an altitude of 1027 meters from the Altos de Salomón, Valencia. The waning moon illuminated the celestial background in this star-rich area in the Leo constellation, while the comet ascended in the sky, showing an extremely long tail of over 7 degrees in length extending beyond the telephoto frame. Although imperceptible to the naked eye and only observable the brightest part with binoculars, the photograph manages to capture the narrow, curved ionic tail, showing filament-like details streaming towards the left side of the main current. A few minutes later, dense fog covered the entire summit, and I had to bid farewell to comet Nishimura until 435 years from now.
C/2023 P1 (Nishimura) captured from Valencia, Spain by José J. Chambó on 9 September 2023 at 04:21 UT. Description: Comet C/2023 P1 (Nishimura) imaged during the dawn of September 9, 2023, at an altitude of 1027 meters from the Altos de Salomón, Valencia. The waning moon illuminated the celestial background in this star-rich area in the Leo constellation, while the comet ascended in the sky, showing an extremely long tail of over 7 degrees in length extending beyond the telephoto frame. Although imperceptible to the naked eye and only observable the brightest part with binoculars, the photograph manages to capture the narrow, curved ionic tail, showing filament-like details streaming towards the left side of the main current. A few minutes later, dense fog covered the entire summit, and I had to bid farewell to comet Nishimura until 435 years from now.
Comet P1 Nishimura captured by Barry Burgess from Taylor Head Provincial Park Nova Scotia, Canada, 8 September 2023. Equipment: Canon EOS 6D DSLR camera, Rokinon 135mm f2.0lands, Sears branded 200mm f3.5. lens, Berlebach tripod, Manfrotto gear head, Sky-Watcher Star Adventurer
Comet P1 Nishimura captured by Barry Burgess from Taylor Head Provincial Park Nova Scotia, Canada, 8 September 2023. Equipment: Canon EOS 6D DSLR camera, Rokinon 135mm f2.0lands, Sears branded 200mm f3.5. lens, Berlebach tripod, Manfrotto gear head, Sky-Watcher Star Adventurer
Comet C/2023 P1 (Nishimura) photographed by Javier Zayas from Nerja, Málaga, Andalusia, Spain. Credit: Javier Zayas Photography / Getty Images
Comet C/2023 P1 (Nishimura) photographed by Javier Zayas from Nerja, Málaga, Andalusia, Spain. Credit: Javier Zayas Photography / Getty Images
Dominic Reardon captured this image of Comet C/2022 E3 ZTF on 25/26 January 2023 from Arnside, Cumbria, UK. Equipment: Nikon D500 camera, Sigma 150-500 f/5-6.3 lens, iOptron Skyguider Pro & William Optics base.
Comet C/2022 E3 (ZTF) with anti-tail passing by the Knife Edge Galaxy (NGC 5907), captured by Daniel Zoliro, Chouteau, Oklahoma, USA , 23 January 2023. Captured as a two panel mosaic, stitched and processed in Pixinsight. Equipment: Celestron c9.25 SCT, ASI533mc Pro, Starizona Hyperstar adapter, Skywatcher EQ6-R Pro 79x30s at 100 gain Total integration time: 39′ 30″ Focal length: 515mm Aperture: 235mm Focal ratio: f/2.3
Comet C/2022 E3 (ZTF) with anti-tail passing by the Knife Edge Galaxy (NGC 5907), captured by Daniel Zoliro, Chouteau, Oklahoma, USA , 23 January 2023.
Stuart Atkinson captured this image of Comet C/2033 E3 (ZTF) on the morning of 17 January 2023 from Kendal, UK. Equipment: Canon EOS 700D DSLR camera, tracking mount.
Stuart Atkinson captured this image of Comet C/2033 E3 (ZTF) on the morning of 17 January 2023 from Kendal, UK. Equipment: Canon EOS 700D DSLR camera, tracking mount.
Comet C/2021 A1 Leonard José J Chambó, Mayhill, New Mexico, USA, 11 November 2021 Equipment: FLI PL6303E camera, Planewave CDK17 astrograph
Comet C/2021 A1 Leonard José J Chambó, Mayhill, New Mexico, USA, 11 November 2021 Equipment: FLI PL6303E camera, Planewave CDK17 astrograph
Comet C/2021 A1 Leonard passes the Whale and Hockey Stick galaxies Tom Masterson and Terry Hancock, Grand Mesa Observatory, Colorado, USA, 25 November 2021 Equipment: QHYCCD QHY367C camera, Takahashi E-180 astrograph, Paramount GT1100S mount
Comet C/2021 A1 Leonard passes the Whale and Hockey Stick galaxies Tom Masterson and Terry Hancock, Grand Mesa Observatory, Colorado, USA, 25 November 2021 Equipment: QHYCCD QHY367C camera, Takahashi E-180 astrograph, Paramount GT1100S mount
Stuart Atkinson captured this image of Comet Leonard at around 04:30 UTC on the morning of 2 December from Kendal, Cumbria, UK using a Canon 700D DSLR and an iOptron Sky Tracker tracking mount.
Stuart Atkinson captured this image of Comet Leonard at around 04:30 UTC on the morning of 2 December from Kendal, Cumbria, UK using a Canon 700D DSLR and an iOptron Sky Tracker tracking mount.
Comet C/2020 F3 (NEOWISE) photographed in the sky over Bosham in West Sussex on the night of 17-18 July 2020. Credit: Peter Meade / Getty Images
Comet C/2020 F3 (NEOWISE) photographed in the sky over Bosham in West Sussex on the night of 17-18 July 2020. Credit: Peter Meade / Getty Images
C/2020 F8 (SWAN) José J. Chambó, Siding Spring, NSW, Australia, 27 April 2020 Equipment: SBIG STL-11000M camera, Takahashi FSQ-106ED astrograph, Paramount ME mount
C/2020 F8 (SWAN) José J. Chambó, Siding Spring, NSW, Australia, 27 April 2020 Equipment: SBIG STL-11000M camera, Takahashi FSQ-106ED astrograph, Paramount ME mount
Comet ATLAS Kevin Reid, St Ives, Cornwall, 28 March 2020 Equipment: QSI 683 mono CCD camera, Orion AG12 Newtonian, Losmandy Titan mount
Comet ATLAS Kevin Reid, St Ives, Cornwall, 28 March 2020 Equipment: QSI 683 mono CCD camera, Orion AG12 Newtonian, Losmandy Titan mount
Comet ATLAS José Chambó, Mayhill, New Mexico, USA, 26 March 2020 Equipment: FLI Proline 6303 camera, PlaneWave CDK 17” astrograph
Comet ATLAS photographed by José Chambó, Mayhill, New Mexico, USA, 26 March 2020 Equipment: FLI Proline 6303 camera, PlaneWave CDK 17” astrograph
Hubble captures the break-up of comet C/2019 Y4 (ATLAS). Credit NASA, ESA, D. Jewitt (UCLA), Q. Ye (University of Maryland)
Hubble captures the break-up of comet C/2019 Y4 (ATLAS). Credit NASA, ESA, D. Jewitt (UCLA), Q. Ye (University of Maryland)
Comet Wirtanen, captured by Peter Louer, Tenerife, 8 December 2018. Equipment: Canon EOS 600D DSLR camera, Canon 100-400mm lens, Sky-Watcher NEQ5 Pro SynScan mount.
Comet Wirtanen is an example of a Jupiter-family comet, with an orbit of about 5 years. Credit: Peter Louer, Tenerife, 8 December 2018.
An image of Halley’s Comet taken on 8 March 1986 by W. Liller from Easter Island. Credit: NASA/W. Liller - NSSDC's Photo Gallery (NASA)
An image of Halley’s Comet taken on 8 March 1986 by W. Liller from Easter Island. Credit: NASA/W. Liller - NSSDC's Photo Gallery (NASA)
A Hubble Space Telescope image of Comet (C/2012 S1) ISON photographed on 10 April 2013 when the comet was 635 million km from Earth. Credit: NASA/ESA/STScI/AURA
A Hubble Space Telescope image of Comet (C/2012 S1) ISON photographed on 10 April 2013 when the comet was 635 million km from Earth. Credit: NASA/ESA/STScI/AURA
Comet C/2016 M1 PANSTARRS by José J. Chambó, Valencia, Spain. Equipment: Telescope GSO 8" f/3.8, Camera Atik 383L
Comet C/2016 M1 PANSTARRS by José J. Chambó, Valencia, Spain. Equipment: Telescope GSO 8" f/3.8, Camera Atik 383L
Comet 71P/Clark by José J. Chambó, Siding Spring, Australia. Equipment: Planewave 20" CDK, FLI PL11002M
Comet 71P/Clark by José J. Chambó, Siding Spring, Australia. Equipment: Planewave 20" CDK, FLI PL11002M
Comet C/2017 E4 Lovejoy by José J. Chambó, Mayhill, New Mexico, USA. Equipment: Planewave 17" CDK f/4,5, FLI PL6303E
Comet C/2017 E4 Lovejoy by José J. Chambó, Mayhill, New Mexico, USA. Equipment: Planewave 17" CDK f/4,5, FLI PL6303E
Comet 252P/LINEAR (Apr.10,2016) by José J. Chambó Bris, Hoya Redonda, Valencia, Spain. Equipment: GSO 8" f/3.8, Canon EOS-100D
Comet 252P/LINEAR (Apr.10,2016) by José J. Chambó Bris, Hoya Redonda, Valencia, Spain. Equipment: GSO 8" f/3.8, Canon EOS-100D
C/2013 US10 Comet Catalina by Mark Griffith, Swindon, Wiltshire, UK. Equipment: Teleskop service 12" Richey-Chretien telescope, Skywatcher EQ8 mount, Atik 383L camera, Astronomik LRGB filters, Hutech IDAS light pollution filter, Astro physics 0.67 reducer.
C/2013 US10 Comet Catalina by Mark Griffith, Swindon, Wiltshire, UK. Equipment: Teleskop service 12" Richey-Chretien telescope, Skywatcher EQ8 mount, Atik 383L camera, Astronomik LRGB filters, Hutech IDAS light pollution filter, Astro physics 0.67 reducer.
Comet C/2013 US10 Catalina by José J. Chambó, Siding Spring, NSW, Australia. Equipment: Takahashi FSQ-106ED, SBIG STL-1100M
Comet C/2013 US10 Catalina by José J. Chambó, Siding Spring, NSW, Australia. Equipment: Takahashi FSQ-106ED, SBIG STL-1100M
Comet C/2013 US10 Catalina by José J. Chambó, Siding Spring, NSW, Australia. Equipment: Takahashi FSQ-106ED, SBIG STL-1100M
Comet C/2013 US10 Catalina by José J. Chambó, Siding Spring, NSW, Australia. Equipment: Takahashi FSQ-106ED, SBIG STL-1100M
Comet Lovejoy by Mike Joy, Wales, UK. Equipment: Skywatcher 200 PDS, EQ5 Pro,h Canon 70D
Comet Lovejoy by Mike Joy, Wales, UK. Equipment: Skywatcher 200 PDS, EQ5 Pro,h Canon 70D

Are you a comet-chaser or photographer? Keep us up to date with your observations and images by emailing contactus@skyatnightmagazine.com

Ezzy Pearson

Science journalist

Ezzy Pearson is the Features Editor of BBC Sky at Night Magazine. Her first book about the history of robotic planetary landers is out now from The History Press.
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