Watch the 2018 Orionid meteor shower
Planetary researcher and stardust expert Dr Ashley King shares his tips on how to get the best view of the Orionid meteor shower, which is expected to reach a dazzling peak early in the morning of 22 October.
Meteors are often called shooting stars, though the bright streaks you see in the sky don't have anything to do with stars.
In fact, what you're wishing on are tiny particles of dust - leftovers from the birth of our solar system - vaporising in Earth's atmosphere.
Tips for watching the Orionid meteor shower
Some of the more spectacular of these meteors can sometimes be visible from central London however you're bound to get the best experience away from the light pollution of the city.
'The darker the skies, the better your odds are of seeing the really faint ones as well,' Ashley says. 'You could go to the coast or stand on a hill in the middle of the countryside somewhere.'
You also need to be patient.
'You might not be able to see anything for the first 10 minutes while your eyes adjust,' he adds.
'Once you get used to the low light levels you'll begin to notice more and more. So don't give up too quickly.'
If you can't escape the lights of the city, of the weather is against you on the night, watch the meteor shower live online with the UK Meteor Network.
What are we actually looking at when we see a meteor shower?
Meteor showers occur when Earth passes through a stream of tiny pieces of debris (meteoroids) left behind by a comet.
Most comets are composed of dust and ice, which Ashley likens to 'a big, dirty snowball.'
'As comets orbit the Sun, the ice melts and the trapped dust is swept out into a tail behind them.'
Nearly all meteors are tiny dust particles, about the size of a grain of sand travelling at tens of kilometres per second through space.
'As they come out of the vacuum of space and into Earth's atmosphere, that little dust grain interacts with all the particles and ions in the atmosphere. It gets heated up by the friction and forms the impressive flash that we see,' he says.
'The Earth isn't close to the comet - it's just passing through some of the dust it left behind.'
Orionid meteor shower
The Orionid meteor shower takes place annually and is due to reach a peak on the evenings of 21-22 October as Earth passes through the trail of Halley's Comet, one of the most famous comets of all time.
Orionids are some of the fastest and brightest meteors, entering the atmosphere at just under 70 kilometres per second.
Orionids get their name because they seem to radiate from the constellation Orion, but they can appear anywhere in the sky
If the sky is clear, stargazers can expect to see 10-20 meteors per hour.
Halley's Comet is a short-period comet, meaning it takes less than 200 years to go around the Sun. Its orbital period is 75-76 years and it last passed close to Earth in 1986. It will be back again in 2061.
In 1986 space agencies sent missions (Vega, Giotto, Sakigake and Suisei) to Halley (the 'Halley Armada'), so it’s probably the best studied comet.
Halley's Comet has been observed for centuries - in 1066 it was considered an omen of doom. It even appears on the Bayeux Tapestry, which depicts events leading up to the Norman conquest of England in the eleventh century.
Other major meteor showers to watch in 2018
- The Lyrids, due to peak on 22 April with 20 meteoroids per hour from the trail of the comet Thatcher
- The Eta Aquariids, due to peak on 6 May with 40 meteoroids per hour from the trail of the comet 1P/Halley
- The Perseids, due to peak on 12-13 August with 100 meteoroids per hour from the trail of the comet 109P/Swift-Tuttle
- The Orionids, due to peak on 21 October with 15 meteoroids per hour from the trail of the comet 1P/Halley
- The Leonids, due to peak on 18 November with 15 meteoroids per hour from the trail of the comet 55P/Tempel-Tuttle
- The Geminids, due to peak on 14 December with 120 meteoroids per hour from the trail of the comet 3200 Phaethon (though Phaethon may actually be an asteroid rather than a comet)
- The Ursids, due to peak on 22 December with 10 meteoroids per hour from the trail of the comet 8P/Tuttle
Perseids meteor shower
The Perseid meteor shower takes place annually and is due to reach a peak between the evenings of 11 and 13 August as Earth passes through the trail left behind by the very large comet Swift-Tuttle.
The shower this year is expected to feature between 60 and 70 meteors per hour at its peak, including bright streaks and fireballs.
Most meteors are pieces of dust around the size of a grain of sand. Larger pieces can create spectacular fireballs and make bright trails across the sky.
Perseids get their name because they appear to radiate from the constellation Perseus, but they can appear anywhere in the sky.
Swift-Tuttle, responsible for the Perseids meteor shower, takes 133 years to complete a full orbit of the Sun.
At 26 kilometres wide it is the largest solar system object to regularly pass so close to Earth.
Swift-Tuttle's elongated orbit means that debris enters the Earth's atmosphere at great speed.
The Perseids meteor shower is set to be the best shower of the year for viewers in the northern hemisphere, as the Moon will be small and is due to set early.
Lyrids meteor shower
The Lyrid meteor shower takes place annually between 16-25 April as the Earth in orbit passes through the dust trail left behind (hundreds of years ago) by comet C/186 G1 (Thatcher). This year at the peak of the display, between 10 and 20 meteorites per hour are expected to fall during the hours just before dawn.
The most spectacular are 'Lyrid fireballs', which occur when meteoroids the size of a large marble pass through the atmosphere. Their slightly larger size produces a meteor train which we see as a flash and line across the night sky.
The Lyrids meteor gets its name because it appears to radiate from the area of the sky near the constellation Lyra, the Harp - but the meteors can appear anywhere in the sky.
Comet Thatcher, responsible for the Lyrids meteor shower, takes 415 years to complete a full orbit of the Sun.
We have no photographs because the last time it visited the inner solar system was in 1861 - well before the widespread use of photography.