Skies across the world have been lit up by the final ‘supermoon’ of the year tonight – with keen astronomers having the chance to see shooting stars from the Perseids Meteor Shower too.
Tonight’s moon, which is known as the Sturgeon supermoon, is set to reach full brightness at 2.36am as it illuminates large parts of the UK.
Aside from a few unlucky parts of northern Scotland where there was cloud cover, most of the UK has been treated to a much bigger and brighter moon than normal overnight.
This is because the full moon – when the entire face is lit up – is taking place when it is at its closest point to the Earth in its orbit.
Photographers and those looking up at the sky have been treated to excellent views, and should enjoy it while it lasts, as there is not set to be another supermoon until next year.
Some have taken the opportunity, with stunning images of the rising moon taken in London, and on the south coast, while photographers in other countries have also captured dramatic images.
The orange Sturgeon supermoon rises over London earlier this evening. Here it is pictured behind The Shard, putting on a dazzling display
Pictured: The full Sturgeon supermoon rises up behind the Needles lighthouse in Dorset earlier this evening, after a scorching day on the south coast
Pictured: The Sturgeon supermoon rises behind Stonehenge in Wiltshire this evening. The moon appeared on the horizon in an orange colour after the sun set
The Sturgeon supermoon is seen bright in the sky as it rises behind buildings in the banking district of Frankfurt, in Germany
Pictured: The Sturgeon supermoon rises behind buildings in Amman, which is the capital of Jordan in the Middle East, earlier today
The bright moon illuminates the waters off the English coast tonight. Pictured in the foreground is Dovercourt Lower Lighthouse in Essex
Pictured: The Sturgeon supermoon rises behind the iconic Camlica Mosque in the Turkish city of Istanbul earlier today
The Royal Liver Building in Liverpool is lit up by the Sturgeon supermoon this evening, in what will be the last supermoon of the year
Pictured: The Sturgeon supermoon rises behind Dunstanburgh Castle in Northumberland this evening, illuminating the landscape and the water
In a lucky coincidence, this weekend also marks the peak of the Perseids Meteor Shower, when 150 shooting stars an hour could be seen in the night sky.
The meteor shower, which is often dubbed the best of year because of how bright and active it is, may also be visible overnight.
Although the chances of seeing them clearly might be impacted by the supermoon, which can appear as much as 14 per cent larger and 30 per cent brighter than a normal full moon, depending on the time of year.
Nicknames that are used to describe the supermoons were traditionally used to track the seasons and therefore are closely related to nature.
‘Sturgeon Moon’ is the common name for August’s full moon because historically the large fish was easily caught at this time of year.
A supermoon occurs when a full moon nearly coincides with perigee – the point in the orbit of the moon at which it is nearest to the Earth. Pictured is last month’s supermoon, on July 13
At the point in the Moon’s orbit when it’s closest to the Earth, it appears 14 per cent bigger than a micromoon, and vice versa
July’s super moon is seen as a deer grazes outside the village of Taarbaek, some 15 km north of Copenhagen, on July 14, 2022
Pictured is the moon rising behind Glastonbury Tor in Somerset on Wednesday evening (August 10). The moon was at 96 per cent illumination on Wednesday night. When it reaches 100 per cent illumination on Thursday night it will be a full moon. The moon will also be a supermoon tonight, because it marks the point in the orbit of the moon at which it is nearest to the Earth
It’s well known that a full moon occurs roughly every 29.5 days, but a supermoon is a much rarer event.
In 2022, there have been three supermoons so far according to the Old Farmer’s Almanac, on May 16, June 14 and July 13, and the fourth and final supermoon is due tonight, August 11.
Although a supermoon is a full moon, it appears bigger and brighter in the sky than a normal full moon.
Supermoons occur because the moon orbits the Earth on an elliptical path, rather than a circular one.
This means there is a point in its 29.5-day orbit where it is closest to the Earth and, at certain times of the year, it passes this point during a full moon.
A supermoon occurs when the full moon nearly coincides with perigee – the point in the orbit of the moon at which it is nearest to the Earth.
This means it appears up to 14 per cent larger and 30 per cent brighter than normal, when viewed from Earth.
Dr Daniel Brown, an astronomy expert at Nottingham Trent University, told MailOnline: ‘A supermoon is usually defined as the largest full moon possible.
‘This full moon is occurring when the moon is that little bit closer to Earth than it is during other full moons.
‘This is a time that many become excited and want to observe the moon themselves, particularly as the moon rise and set offers stunning photographic opportunities.’
Pictured is the moon rising behind Stonehenge in Wiltshire on Wednesday evening (August 10) It will appear even bigger and brighter Thursday night
People watch last month’s supermoon from the observation tower in Syke, Germany, July 13, 2022
July’s supermoon rises behind the antenna on top of One World Trade Center in New York City on July 13, 2022
In 2022, there have been three supermoons so far according to the Old Farmer’s Almanac, on May 16, June 14 and July 13, and the fourth and final supermoon is due on August 11. Pictured is July’s supermoon from Sydney
While the closest point in the moon’s orbit is called perigee – which creates an unusually large supermoon – its farthest point is called apogee, creating a ‘micromoon’.
Because a micromoon is further away, it looks around 14 per cent smaller than a supermoon, and as its illuminated area also appears 30 per cent smaller, so it tends to look less bright.
Micromoons are about 7 per cent smaller than an average moon size, while supermoons are about 7 per cent larger.
Also this weekend, stargazers will be able to enjoy a stunning meteor shower called the Perseids without the need for a telescope.
Known as the ‘fiery tears of Saint Lawrence’, the celestial event takes place when the Earth ploughs through galactic debris left by the passing of the Swift-Tuttle Comet.
Royal Observatory Greenwich calls it ‘one of the most dramatic things to see in the night sky between July and August’.
This year, the peak of the Perseids falls on the night of August 12 (Friday) and before dawn on August 13 (Saturday).
During this period, there could be up to 150 shooting stars per hour this year, according to Royal Observatory Greenwich.
The Met Office told MailOnline that skies are expected to be completely clear for much of the UK, with excellent viewing conditions for the supermoon on Thursday night.
The full moon, otherwise known as a supermoon, is seen over the skyline of the CBD in Sydney, Australia June 15, 2022
The moon rises above the landscape in Wimbledon south west London at sunset on August 10
Also this weekend, stargazers will be able to enjoy a stunning meteor shower called the Perseids without the need for a telescope
The meteors are called Perseids because they seem to dart out of Perseus, a constellation in the northern sky, which itself is named after the Greek mythological hero Perseus
Known as the ‘fiery tears of Saint Lawrence’, the celestial event takes place when the Earth ploughs through galactic debris left by the passing of the Swift-Tuttle Comet
Meteors, also known as shooting stars, come from leftover comet particles and bits from broken asteroids
‘However, skies will be cloudier in the far northwest of Scotland, and there will be some mist and fog patches in Northern Ireland and East Yorkshire,’ a Met Office spokesperson said.
‘Clear skies are also expected for most of the UK on Friday night for the Perseids meteor showers.
‘However again there will be a layer of cloud in northwest Scotland making for poor viewing conditions here.’
It’s possibly that light from the supermoon could make the Perseids harder to see. When watching for meteors, the darker the sky the better.
‘The bright moon may also make viewing the meteor shower a little more difficult at times,’ the Met Office spokesperson said.
Meteors, also known as shooting stars, come from leftover comet particles and bits from broken asteroids.
When comets come around the Sun, the dust they emit gradually spreads into a dusty trail around their orbits.
Every year, Earth passes through these debris trails, which allows the bits to collide with our atmosphere where they disintegrate to create fiery and colourful streaks in the sky.
However, the events won’t pose a threat to humans as the objects nearly always burn up in our atmosphere before reaching the planet’s surface.
The Swift-Tuttle Comet, which causes the Perseids, spans 16-miles wide and is formed of ice and rock.
It ploughs through our Solar System once every 133 years, with the last pass in 1992.
The comet will come within one million miles of Earth on August 5, 2126 and August 24, 2261.
The name ‘Perseids meteor shower’ comes from the fact meteors appear to shoot out from the Perseus constellation – the 24th largest constellation in the sky.
The event is best for viewing in the Northern Hemisphere during the pre-dawn hours, although sometimes it is possible to view them as early as 10pm.
‘The radiant for the Perseids – the point in the sky the meteors appear to come from – is in Perseus, and high in the Northern Hemisphere of the sky,’ said Dr Robert Massey, deputy executive director of the Royal Astronomical Society.
‘It’s 58 degrees north of the celestial equator, which means it would be overhead from 58 degrees north (the latitude of places like Ullapool in Scotland).
‘This also means the radiant never rises for places south of 32 degrees south, so the southernmost parts of Australia, and much of Argentina and Chile.
‘The upshot is that the Northern Hemisphere has the best potential view, as the radiant is higher in the sky and visible for longer, so in theory more meteors are visible.
‘As you move further south the number declines, and south of 32 degrees south essentially none are seen.’
The next major meteor shower will be the Draconids in October, although it tends to tends to be a less active shower than the Perseids.
The Draconid meteor shower comes from the debris of comet 21 P/ Giacobini-Zinner – a small comet with a diameter of 1.24 miles (2 kilometers).