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The Day the Earth Smiled: July 19, 2013

Earth smiled: Segment of planet with rings and tiny blue dot in space near it with arrow pointing to it saying You are here.
Here’s the famous The Day the Earth Smiled photo, taken from Saturn by NASA’s amazing Cassini spacecraft on July 19, 2013. Image via NASA/ JPL/ SSI/ CICLOPS/ Mother Jones.

The Day the Earth Smiled

On this date – July 19, 2013 – humanity acquired its 3rd-ever image of Earth from the outer solar system. And it’s one of the most awe-inspiring space photos ever. On that day, the planet Saturn eclipsed the sun from the vantage point of the Saturn-orbiting Cassini spacecraft. And we on Earth cast our thoughts toward space and our tiny place in it.

The Cassini imaging team later dubbed this image The Day the Earth Smiled.

Cassini had been orbiting Saturn, and weaving in and out among its moons, since 2004.

On July 19, 2013, the spacecraft, Saturn and the sun lined up, so that Cassini saw Saturn eclipse the sun. As Cassini slipped into Saturn’s shadow that day, it was able to capture images not just of the Earth, but also of the planets Venus and Mars, Saturn’s backlit rings, and several of Saturn’s moons, all at once. You can see the dark side of Saturn, its bright limb, the main rings and the F, G and E rings. The view looks toward the unilluminated side of the rings from about 20 degrees below the ring plane.

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A unique chance to be photographed from a distant world

Before this event, NASA invited everyone on Earth to turn skyward and to smile and wave at Cassini’s camera, which was hundreds of millions of miles away. As the day approached, Carolyn Porco, Cassini imaging team lead at the Space Science Institute in Boulder, Colorado, said people should:

… look up, think about our cosmic place, think about our planet, how unusual it is, how lush and life-giving it is. Think about your own existence. Think about the magnitude of the accomplishment that this picture-taking session entails. We have a spacecraft at Saturn. We are truly interplanetary explorers. Think about all that, and smile.

Porco also said:

Ever since we caught sight of the Earth among the rings of Saturn in September 2006 in a mosaic that has become one of Cassini’s most beloved images, I have wanted to do it all over again, only better. This time, I wanted to turn the entire event into an opportunity for everyone around the globe to savor the uniqueness of our planet and the preciousness of the life on it.

Thus, the idea for The Day the Earth Smiled was born. And – on that day – people on Earth went out, looked up, waved and smiled.

She accomplished that, and much more. Porco was also involved with the planning of the earlier Pale Blue Orb and Pale Blue Dot images, discussed below.

The pictures from Saturn

The incredible 2013 image spans a distance of 404,880 miles (650,000 km), roughly twice the distance from the Earth to the moon. Cassini was about 898 million miles (1.45 billion km) away from Earth at the time. That distance is nearly 10 times the distance from the sun to Earth.

NASA said the natural-color image is as the human eye would see it, if you had been there with Cassini. Using both its wide-angle and narrow-angle cameras, the spacecraft captured a total of 323 photographs over four hours. But only 141 images ended up in this panoramic mosaic.

This mosaic is also one of 33 “footprints” that cover the entire ring system and Saturn itself.

Backlit view of large planet with wide, sharply imaged ring system, but the outer ring fuzzy.
View larger. | NASA’s Cassini spacecraft took this natural-color portrait on July 19, 2013. It’s the 3rd-ever image of Earth from the outer solar system. Plus, it’s the 1st image to show Saturn, its moons, and rings, Earth and its moon, Venus, and Mars, all together. Image via NASA/ JPL-Caltech/ SSI.
Backlit planet with bright rings and tiny text annotations labeling scattered tiny dots visible through the rings.
View larger. | Annotated image of Saturn and the view from Saturn, taken by Cassini on July 19, 2013. Image via NASA/ JPL-Caltech/ SSI.
Small, brilliant white dot with tiny white dot close to it on solid black background.
An earlier raw image of the Earth and moon as seen from Saturn by the Cassini spacecraft on July 19, 2013. Earth is the brighter dot; the moon is to its lower left. Image via NASA/ JPL-Caltech/ Space Science Institute/ Medium.

Collages from around the globe on The Day the Earth Smiled

NASA also created a collage of people on Earth to celebrate The Day the Earth Smiled.

In other words, on the same day that Cassini captured The Day the Earth Smiled image, participants from 40 countries took photos of themselves waving at Saturn. This awesome collage is the result.

The images came to NASA/ JPL-Caltech via Twitter, Facebook, Flickr, Instagram, Google+ and email.

Mosaic of over 1400 tiny pictures of people making up a view of planet Earth.
Collage of people on Earth on July 19, 2013. Image via NASA. Read more about this image.
Many tiny square photos mostly of active, smiling people.
A closer view of some of the many photos that make up the collage. Image via NASA.

Earlier image: Pale Blue Orb

The Pale Blue Orb image by Cassini was the 2nd-ever image of Earth taken from the outer solar system. Cassini captured it on September 15, 2006, just two years after Cassini began orbiting Saturn. At the time, the spacecraft was about 930 million miles (1.5 billion km) from Earth. The Earth and moon appear as a tiny blue dot on the right side of the image, just above center. When magnified, you can see the moon as a slight “protrusion” on the upper left side of the Earth.

As with the 2013 image, the 2006 image captured the passing of Saturn directly in front of the sun as seen from Cassini.

Partial view of rings of Saturn with a dot visible between them and inset of 2 larger dots.
This image is known as the Pale Blue Orb. The Cassini spacecraft captured it back in 2006, showing the Earth and moon as tiny dots seen through Saturn’s rings. Image via NASA/ JPL/ Space Science Institute.

You can read more about the Pale Blue Orb image here.

Original image: Pale Blue Dot

The Pale Blue Dot image is the first image ever taken of Earth from the outer solar system. NASA’s Voyager 1 spacecraft captured it on February 14, 1990. And it’s still the most distant image of Earth. Voyager’s distance from Earth at the time was 4 billion miles (6.4 billion km). The image showed Earth as a pale blue dot, hence the name. Earth appears as a very tiny crescent, only 0.12 pixel in size. Voyager 1 had reached the edge of the solar system, 12 years after its launch. Of course, by then, it had completed its primary mission.

Fuzzy, slightly curved vertical lines against black, with a tiny dot inside one of them.
This is a photo known as the Pale Blue Dot – the 1st of only 3 images of Earth taken from the outer solar system so far. The “dot” – our world, Earth – is on the right side of the photo, about halfway down. Image via NASA/ JPL. Read more about this image here.

You can read more about the Pale Blue Dot here.

Carl Sagan requested the Pale Blue Dot

At the request of astronomer Carl Sagan, NASA commanded the spacecraft to turn around and photograph the planets of the solar system. The solar system mosaic was interesting. However, this image – the image of our tiny world in space, surrounded by emptiness – was heart-rending. Carl Sagan later famously said, in part:

Look again at that dot. That’s here. That’s home. That’s us. On it everyone you love, everyone you know, everyone you ever heard of, every human being who ever was, lived out their lives. The aggregate of our joy and suffering, thousands of confident religions, ideologies, and economic doctrines, every hunter and forager, every hero and coward, every creator and destroyer of civilization, every king and peasant, every young couple in love, every mother and father, hopeful child, inventor and explorer, every teacher of morals, every corrupt politician, every superstar, every supreme leader, every saint and sinner in the history of our species lived there, on a mote of dust suspended in a sunbeam.

Read more about the Pale Blue Dot image and about what Carl Sagan said.

Bottom line: NASA’s Cassini spacecraft, which orbited Saturn until 2017, took the 3rd-ever picture of Earth from the outer solar system 13 years ago on July 19, 2013. The image is called The Day the Earth Smiled. This followed two previous similar pictures taken in 1990 and 2006.

The post The Day the Earth Smiled: July 19, 2013 first appeared on EarthSky.



from EarthSky https://ift.tt/B45POyV
Earth smiled: Segment of planet with rings and tiny blue dot in space near it with arrow pointing to it saying You are here.
Here’s the famous The Day the Earth Smiled photo, taken from Saturn by NASA’s amazing Cassini spacecraft on July 19, 2013. Image via NASA/ JPL/ SSI/ CICLOPS/ Mother Jones.

The Day the Earth Smiled

On this date – July 19, 2013 – humanity acquired its 3rd-ever image of Earth from the outer solar system. And it’s one of the most awe-inspiring space photos ever. On that day, the planet Saturn eclipsed the sun from the vantage point of the Saturn-orbiting Cassini spacecraft. And we on Earth cast our thoughts toward space and our tiny place in it.

The Cassini imaging team later dubbed this image The Day the Earth Smiled.

Cassini had been orbiting Saturn, and weaving in and out among its moons, since 2004.

On July 19, 2013, the spacecraft, Saturn and the sun lined up, so that Cassini saw Saturn eclipse the sun. As Cassini slipped into Saturn’s shadow that day, it was able to capture images not just of the Earth, but also of the planets Venus and Mars, Saturn’s backlit rings, and several of Saturn’s moons, all at once. You can see the dark side of Saturn, its bright limb, the main rings and the F, G and E rings. The view looks toward the unilluminated side of the rings from about 20 degrees below the ring plane.

Science matters. Wonder matters. You matter. Join our 2026 Donation Campaign today.

A unique chance to be photographed from a distant world

Before this event, NASA invited everyone on Earth to turn skyward and to smile and wave at Cassini’s camera, which was hundreds of millions of miles away. As the day approached, Carolyn Porco, Cassini imaging team lead at the Space Science Institute in Boulder, Colorado, said people should:

… look up, think about our cosmic place, think about our planet, how unusual it is, how lush and life-giving it is. Think about your own existence. Think about the magnitude of the accomplishment that this picture-taking session entails. We have a spacecraft at Saturn. We are truly interplanetary explorers. Think about all that, and smile.

Porco also said:

Ever since we caught sight of the Earth among the rings of Saturn in September 2006 in a mosaic that has become one of Cassini’s most beloved images, I have wanted to do it all over again, only better. This time, I wanted to turn the entire event into an opportunity for everyone around the globe to savor the uniqueness of our planet and the preciousness of the life on it.

Thus, the idea for The Day the Earth Smiled was born. And – on that day – people on Earth went out, looked up, waved and smiled.

She accomplished that, and much more. Porco was also involved with the planning of the earlier Pale Blue Orb and Pale Blue Dot images, discussed below.

The pictures from Saturn

The incredible 2013 image spans a distance of 404,880 miles (650,000 km), roughly twice the distance from the Earth to the moon. Cassini was about 898 million miles (1.45 billion km) away from Earth at the time. That distance is nearly 10 times the distance from the sun to Earth.

NASA said the natural-color image is as the human eye would see it, if you had been there with Cassini. Using both its wide-angle and narrow-angle cameras, the spacecraft captured a total of 323 photographs over four hours. But only 141 images ended up in this panoramic mosaic.

This mosaic is also one of 33 “footprints” that cover the entire ring system and Saturn itself.

Backlit view of large planet with wide, sharply imaged ring system, but the outer ring fuzzy.
View larger. | NASA’s Cassini spacecraft took this natural-color portrait on July 19, 2013. It’s the 3rd-ever image of Earth from the outer solar system. Plus, it’s the 1st image to show Saturn, its moons, and rings, Earth and its moon, Venus, and Mars, all together. Image via NASA/ JPL-Caltech/ SSI.
Backlit planet with bright rings and tiny text annotations labeling scattered tiny dots visible through the rings.
View larger. | Annotated image of Saturn and the view from Saturn, taken by Cassini on July 19, 2013. Image via NASA/ JPL-Caltech/ SSI.
Small, brilliant white dot with tiny white dot close to it on solid black background.
An earlier raw image of the Earth and moon as seen from Saturn by the Cassini spacecraft on July 19, 2013. Earth is the brighter dot; the moon is to its lower left. Image via NASA/ JPL-Caltech/ Space Science Institute/ Medium.

Collages from around the globe on The Day the Earth Smiled

NASA also created a collage of people on Earth to celebrate The Day the Earth Smiled.

In other words, on the same day that Cassini captured The Day the Earth Smiled image, participants from 40 countries took photos of themselves waving at Saturn. This awesome collage is the result.

The images came to NASA/ JPL-Caltech via Twitter, Facebook, Flickr, Instagram, Google+ and email.

Mosaic of over 1400 tiny pictures of people making up a view of planet Earth.
Collage of people on Earth on July 19, 2013. Image via NASA. Read more about this image.
Many tiny square photos mostly of active, smiling people.
A closer view of some of the many photos that make up the collage. Image via NASA.

Earlier image: Pale Blue Orb

The Pale Blue Orb image by Cassini was the 2nd-ever image of Earth taken from the outer solar system. Cassini captured it on September 15, 2006, just two years after Cassini began orbiting Saturn. At the time, the spacecraft was about 930 million miles (1.5 billion km) from Earth. The Earth and moon appear as a tiny blue dot on the right side of the image, just above center. When magnified, you can see the moon as a slight “protrusion” on the upper left side of the Earth.

As with the 2013 image, the 2006 image captured the passing of Saturn directly in front of the sun as seen from Cassini.

Partial view of rings of Saturn with a dot visible between them and inset of 2 larger dots.
This image is known as the Pale Blue Orb. The Cassini spacecraft captured it back in 2006, showing the Earth and moon as tiny dots seen through Saturn’s rings. Image via NASA/ JPL/ Space Science Institute.

You can read more about the Pale Blue Orb image here.

Original image: Pale Blue Dot

The Pale Blue Dot image is the first image ever taken of Earth from the outer solar system. NASA’s Voyager 1 spacecraft captured it on February 14, 1990. And it’s still the most distant image of Earth. Voyager’s distance from Earth at the time was 4 billion miles (6.4 billion km). The image showed Earth as a pale blue dot, hence the name. Earth appears as a very tiny crescent, only 0.12 pixel in size. Voyager 1 had reached the edge of the solar system, 12 years after its launch. Of course, by then, it had completed its primary mission.

Fuzzy, slightly curved vertical lines against black, with a tiny dot inside one of them.
This is a photo known as the Pale Blue Dot – the 1st of only 3 images of Earth taken from the outer solar system so far. The “dot” – our world, Earth – is on the right side of the photo, about halfway down. Image via NASA/ JPL. Read more about this image here.

You can read more about the Pale Blue Dot here.

Carl Sagan requested the Pale Blue Dot

At the request of astronomer Carl Sagan, NASA commanded the spacecraft to turn around and photograph the planets of the solar system. The solar system mosaic was interesting. However, this image – the image of our tiny world in space, surrounded by emptiness – was heart-rending. Carl Sagan later famously said, in part:

Look again at that dot. That’s here. That’s home. That’s us. On it everyone you love, everyone you know, everyone you ever heard of, every human being who ever was, lived out their lives. The aggregate of our joy and suffering, thousands of confident religions, ideologies, and economic doctrines, every hunter and forager, every hero and coward, every creator and destroyer of civilization, every king and peasant, every young couple in love, every mother and father, hopeful child, inventor and explorer, every teacher of morals, every corrupt politician, every superstar, every supreme leader, every saint and sinner in the history of our species lived there, on a mote of dust suspended in a sunbeam.

Read more about the Pale Blue Dot image and about what Carl Sagan said.

Bottom line: NASA’s Cassini spacecraft, which orbited Saturn until 2017, took the 3rd-ever picture of Earth from the outer solar system 13 years ago on July 19, 2013. The image is called The Day the Earth Smiled. This followed two previous similar pictures taken in 1990 and 2006.

The post The Day the Earth Smiled: July 19, 2013 first appeared on EarthSky.



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The 1st footsteps on the moon: Celebrate with Moon Day

Fuzzy black and white photo of an astronaut stepping off ladder of the lunar lander.
The world watched on television as Neil Armstrong from Apollo 11 was the 1st human to leave footsteps on the moon on July 20, 1969. It was the 1st time humans walked on another world as he stepped onto the lunar surface, Armstrong said: “That is one small step for [a] man, one giant leap for mankind.” Still image via NASA video.

Read all about the 1st footsteps on the moon – 57 years ago – and celebrate International Moon Day.

The Eagle has landed and footsteps on the moon

On July 20, 1969, Apollo 11 astronauts Buzz Aldrin and Neil Armstrong landed their lunar module on a broad dark lunar lava flow, called the Sea of Tranquility. And six hours later, Neil Armstrong became the first human being to walk on the surface of a world beyond Earth.

In the video below, you can hear the excitement in Armstrong’s voice at the successful landing of Eagle on the moon’s surface as he says:

Tranquility Base here. The Eagle has landed.

Footsteps on the moon: A view straight down onto moon boot hovering over partly visible ridged boot print stamped into dust.
The 1st footsteps on the moon, leaving human footprints on the moon. Image via NASA.

Altogether, Armstrong and Aldrin spent 21 1/2 hours on the moon’s surface. Furthermore, they collected 47.5 pounds (21.5 kg) of moon rocks for return to Earth. And then they blasted off in their module from the lunar surface to meet up with Michael Collins in the command module orbiting overhead.

Finally, they returned safely to Earth and landed in the Pacific Ocean on July 24, 1969.

The Apollo 11 launch

View from above of immensely tall rocket with flames and smoke far below.
Apollo 11 launched at 13:32 UTC (9:32 a.m. EDT local time) on July 16, 1969. Astronauts Neil A. Armstrong, Michael Collins and Edwin E. “Buzz” Aldrin, Jr., were aboard. Image via NASA/ Wikipedia.
Distant ascending rocket with vast tail of orange flames.
Apollo 11 left Earth via a type of rocket no longer in use, called Saturn V. The giant Saturn V rocket was 111 meters (363 feet) tall, about the height of a 36-story-tall building. Read more about the Saturn V rocket. Image via Wikimedia.
Orbital view of mostly clouded Earth with sun glinting from sea, blue along curved horizon, black sky.
Apollo 11 orbited Earth 1 1/2 times. Twelve minutes after launch, it separated from the Saturn V rocket as a propulsion maneuver sent it on a path toward the moon. Meanwhile, here is a view of Earth from Apollo 11 shortly after it left Earth orbit. Image via NASA/ Wikimedia Commons.

Apollo 11: Watching from mission control

Eight happy, laughing men in white shirts with dark ties standing by control panels.
Happy Apollo 11 mission officials in the Launch Control Center following the successful Apollo 11 liftoff on July 16, 1969. That is the famous German rocket engineer Wernher von Braun, 4th from left (with binoculars). Read more about Wernher von Braun. Image via NASA/ Wikipedia.

Oh, what a view for the Apollo 11 astronauts

Blurry man's face with sunglasses, panel with many controls visible behind him.
Buzz Aldrin looks into a TV camera during the 3rd broadcast from space on the way to the moon. Image via NASA/ Wikimedia Commons.
Earth, more than half lit, hanging in space with Africa and the Middle East visible through clouds.
Earth seen by Apollo 11 astronauts on their way to the moon. Image via NASA.
End view of shiny, metallic conical module against light tan lunar surface with craters.
The Eagle lunar module captured this image of the Columbia command module in lunar orbit. Meanwhile Columbia stayed in lunar orbit with Michael Collins aboard during Eagle’s descent and landing. Image via NASA/ Wikipedia.

The lunar module and Saturn V

Spacecraft with boxy top, gold central part, and four skinny bent legs with round pad feet.
Here is the Apollo 11 lunar module, the vehicle that would carry Neil Armstrong and Buzz Aldrin to the moon’s surface. It was called “Eagle.” This photo also shows the module in its landing configuration, photographed in lunar orbit from the command module, which was called “Columbia.” Astronaut Michael Collins, alone aboard Columbia, inspected Eagle as it pirouetted before him to ensure the craft was not damaged. Image via NASA/ Wikipedia.
Cutaway diagram of conical module with inset showing where it was on the Saturn V.
The Apollo command module’s position atop the Saturn V at launch. The lunar module – the craft that descended to the moon’s surface – is positioned just below the command module in this diagram. Image via NASA/ Wikipedia.

There are now two heavy lift rockets, either of which could be used for moon missions. Read about SLS vs. Starship.

Read more: NASA releases 12,000 Artemis 2 pics! See our faves here

Concerns about the surface for footsteps on the moon

An early concern of space engineers had been that the lunar regolith, the fine soil covering the moon, would be soft like quicksand. There was some fear that the Eagle lunar module would sink after landing. Hence Armstrong’s comment about the depth of the footpads in the lunar soil as he descended the ladder before stepping onto the moon.

Astronaut backing down a short ladder, gold covered body of lander to right, white landscape and black sky.
Buzz Aldrin descends the steps of the lunar module ladder as he becomes the 2nd human being to walk on the moon. Image via NASA.
Fuzzy black and white photo of lunar lander with astronaut and flag in front of it.
Armstrong and Aldrin beginning work on the moon. This included deploying a U.S. flag, performing several science experiments, and collecting moon rocks. Still image via NASA video.
Astronaut in foreground with complicated device on the ground, lunar lander and flag in background.
Here is Buzz Aldrin, who piloted the lunar module Eagle to the moon’s surface, with the LR-3, a reflecting array designed to bounce laser beams fired from Earth back to Earth. This experiment helped refine our knowledge of the moon’s distance and the shape of its orbit around Earth. Image via NASA.
Sunlit side of boxy spacecraft on bent legs in distance, with astronaut shadow on the ground.
Lastly, the lunar module Eagle on the surface of the moon. Image via NASA/ Wikimedia Commons.

Holding down the fort with a great view

Boxy spacecraft in middle distance high above lunar surface, with Earth peeking up over the horizon.
Michael Collins caught this photo of the lunar module with Armstrong and Aldrin inside – and with Earth in the distance – as the module ascended from the moon’s surface to rejoin the command module. The lunar module docked with the orbiting command module, and, shortly afterwards, the astronauts began their journey back to Earth. Image via NASA/ Wikimedia Commons.
Boyish looking man in space suit with helmet off grinning at the camera.
Neil Armstrong in the lunar module Eagle shortly after his historic 1st moonwalk, when he became the 1st human to set foot on a world besides Earth. Image via NASA/ Wikipedia.

Splashdown and celebrations for a successful return

Floating conical module, inflated orange collar at base, yellow inflated balls at top, and orange raft.
There were no runway landings in those days. Splashdown for the 3 astronauts was in the Pacific Ocean. Here, they await pickup by a helicopter from the USS Hornet. Image via NASA/ Wikipedia.
Roomful of exhilarated men standing and waving American flags, control panels visible.
Celebration at Mission Control as Apollo 11 draws to a successful end. Image via NASA.
Crowds of people in street between tall buildings with air full of paper bits and streamers.
Ticker-tape parade for the Apollo 11 astronauts in New York City on August 13, 1969. This section of Broadway is known as the Canyon of Heroes. Image via NASA/ Wikimedia Commons.

A bounty of moon rocks brought back to Earth

The Apollo astronauts brought the 1st moon rocks back to Earth. Here is a sample.

Close up of a light gray, irregular, pitted moon rock.
This lunar sample, known as 10057, was collected during Apollo 11 and later sliced into pieces. Image via NASA.

Experience the Apollo 11 landing site as it appears today, in this video:

And to celebrate this historical event, it’s International Moon Day

In 2021, the United Nations designated July 20 as International Moon Day. They said:

International Moon Day marks the anniversary of the first landing by humans on the moon as part of the Apollo 11 lunar mission in 1969.

The celebrations will also consider the achievements of all States in the exploration of the moon and raise public awareness of sustainable Moon exploration and utilization.

Bottom line: Tomorrow is the 57th anniversary of humanity’s historic Apollo moon landing and the first human footsteps on the moon. The story in pictures, here. And to celebrate, it’s International Moon Day.

Read more: Moon base and Mars! NASA makes exciting announcements

Experience the Apollo 11 landing in video and actual sound at this cool site.

Don’t believe it? Try this video: Why the Apollo moon landings could not have been faked.

Apollo 11 from NASA

Voices of Apollo 11, astronomy art

The post The 1st footsteps on the moon: Celebrate with Moon Day first appeared on EarthSky.



from EarthSky https://ift.tt/NSOiqkQ
Fuzzy black and white photo of an astronaut stepping off ladder of the lunar lander.
The world watched on television as Neil Armstrong from Apollo 11 was the 1st human to leave footsteps on the moon on July 20, 1969. It was the 1st time humans walked on another world as he stepped onto the lunar surface, Armstrong said: “That is one small step for [a] man, one giant leap for mankind.” Still image via NASA video.

Read all about the 1st footsteps on the moon – 57 years ago – and celebrate International Moon Day.

The Eagle has landed and footsteps on the moon

On July 20, 1969, Apollo 11 astronauts Buzz Aldrin and Neil Armstrong landed their lunar module on a broad dark lunar lava flow, called the Sea of Tranquility. And six hours later, Neil Armstrong became the first human being to walk on the surface of a world beyond Earth.

In the video below, you can hear the excitement in Armstrong’s voice at the successful landing of Eagle on the moon’s surface as he says:

Tranquility Base here. The Eagle has landed.

Footsteps on the moon: A view straight down onto moon boot hovering over partly visible ridged boot print stamped into dust.
The 1st footsteps on the moon, leaving human footprints on the moon. Image via NASA.

Altogether, Armstrong and Aldrin spent 21 1/2 hours on the moon’s surface. Furthermore, they collected 47.5 pounds (21.5 kg) of moon rocks for return to Earth. And then they blasted off in their module from the lunar surface to meet up with Michael Collins in the command module orbiting overhead.

Finally, they returned safely to Earth and landed in the Pacific Ocean on July 24, 1969.

The Apollo 11 launch

View from above of immensely tall rocket with flames and smoke far below.
Apollo 11 launched at 13:32 UTC (9:32 a.m. EDT local time) on July 16, 1969. Astronauts Neil A. Armstrong, Michael Collins and Edwin E. “Buzz” Aldrin, Jr., were aboard. Image via NASA/ Wikipedia.
Distant ascending rocket with vast tail of orange flames.
Apollo 11 left Earth via a type of rocket no longer in use, called Saturn V. The giant Saturn V rocket was 111 meters (363 feet) tall, about the height of a 36-story-tall building. Read more about the Saturn V rocket. Image via Wikimedia.
Orbital view of mostly clouded Earth with sun glinting from sea, blue along curved horizon, black sky.
Apollo 11 orbited Earth 1 1/2 times. Twelve minutes after launch, it separated from the Saturn V rocket as a propulsion maneuver sent it on a path toward the moon. Meanwhile, here is a view of Earth from Apollo 11 shortly after it left Earth orbit. Image via NASA/ Wikimedia Commons.

Apollo 11: Watching from mission control

Eight happy, laughing men in white shirts with dark ties standing by control panels.
Happy Apollo 11 mission officials in the Launch Control Center following the successful Apollo 11 liftoff on July 16, 1969. That is the famous German rocket engineer Wernher von Braun, 4th from left (with binoculars). Read more about Wernher von Braun. Image via NASA/ Wikipedia.

Oh, what a view for the Apollo 11 astronauts

Blurry man's face with sunglasses, panel with many controls visible behind him.
Buzz Aldrin looks into a TV camera during the 3rd broadcast from space on the way to the moon. Image via NASA/ Wikimedia Commons.
Earth, more than half lit, hanging in space with Africa and the Middle East visible through clouds.
Earth seen by Apollo 11 astronauts on their way to the moon. Image via NASA.
End view of shiny, metallic conical module against light tan lunar surface with craters.
The Eagle lunar module captured this image of the Columbia command module in lunar orbit. Meanwhile Columbia stayed in lunar orbit with Michael Collins aboard during Eagle’s descent and landing. Image via NASA/ Wikipedia.

The lunar module and Saturn V

Spacecraft with boxy top, gold central part, and four skinny bent legs with round pad feet.
Here is the Apollo 11 lunar module, the vehicle that would carry Neil Armstrong and Buzz Aldrin to the moon’s surface. It was called “Eagle.” This photo also shows the module in its landing configuration, photographed in lunar orbit from the command module, which was called “Columbia.” Astronaut Michael Collins, alone aboard Columbia, inspected Eagle as it pirouetted before him to ensure the craft was not damaged. Image via NASA/ Wikipedia.
Cutaway diagram of conical module with inset showing where it was on the Saturn V.
The Apollo command module’s position atop the Saturn V at launch. The lunar module – the craft that descended to the moon’s surface – is positioned just below the command module in this diagram. Image via NASA/ Wikipedia.

There are now two heavy lift rockets, either of which could be used for moon missions. Read about SLS vs. Starship.

Read more: NASA releases 12,000 Artemis 2 pics! See our faves here

Concerns about the surface for footsteps on the moon

An early concern of space engineers had been that the lunar regolith, the fine soil covering the moon, would be soft like quicksand. There was some fear that the Eagle lunar module would sink after landing. Hence Armstrong’s comment about the depth of the footpads in the lunar soil as he descended the ladder before stepping onto the moon.

Astronaut backing down a short ladder, gold covered body of lander to right, white landscape and black sky.
Buzz Aldrin descends the steps of the lunar module ladder as he becomes the 2nd human being to walk on the moon. Image via NASA.
Fuzzy black and white photo of lunar lander with astronaut and flag in front of it.
Armstrong and Aldrin beginning work on the moon. This included deploying a U.S. flag, performing several science experiments, and collecting moon rocks. Still image via NASA video.
Astronaut in foreground with complicated device on the ground, lunar lander and flag in background.
Here is Buzz Aldrin, who piloted the lunar module Eagle to the moon’s surface, with the LR-3, a reflecting array designed to bounce laser beams fired from Earth back to Earth. This experiment helped refine our knowledge of the moon’s distance and the shape of its orbit around Earth. Image via NASA.
Sunlit side of boxy spacecraft on bent legs in distance, with astronaut shadow on the ground.
Lastly, the lunar module Eagle on the surface of the moon. Image via NASA/ Wikimedia Commons.

Holding down the fort with a great view

Boxy spacecraft in middle distance high above lunar surface, with Earth peeking up over the horizon.
Michael Collins caught this photo of the lunar module with Armstrong and Aldrin inside – and with Earth in the distance – as the module ascended from the moon’s surface to rejoin the command module. The lunar module docked with the orbiting command module, and, shortly afterwards, the astronauts began their journey back to Earth. Image via NASA/ Wikimedia Commons.
Boyish looking man in space suit with helmet off grinning at the camera.
Neil Armstrong in the lunar module Eagle shortly after his historic 1st moonwalk, when he became the 1st human to set foot on a world besides Earth. Image via NASA/ Wikipedia.

Splashdown and celebrations for a successful return

Floating conical module, inflated orange collar at base, yellow inflated balls at top, and orange raft.
There were no runway landings in those days. Splashdown for the 3 astronauts was in the Pacific Ocean. Here, they await pickup by a helicopter from the USS Hornet. Image via NASA/ Wikipedia.
Roomful of exhilarated men standing and waving American flags, control panels visible.
Celebration at Mission Control as Apollo 11 draws to a successful end. Image via NASA.
Crowds of people in street between tall buildings with air full of paper bits and streamers.
Ticker-tape parade for the Apollo 11 astronauts in New York City on August 13, 1969. This section of Broadway is known as the Canyon of Heroes. Image via NASA/ Wikimedia Commons.

A bounty of moon rocks brought back to Earth

The Apollo astronauts brought the 1st moon rocks back to Earth. Here is a sample.

Close up of a light gray, irregular, pitted moon rock.
This lunar sample, known as 10057, was collected during Apollo 11 and later sliced into pieces. Image via NASA.

Experience the Apollo 11 landing site as it appears today, in this video:

And to celebrate this historical event, it’s International Moon Day

In 2021, the United Nations designated July 20 as International Moon Day. They said:

International Moon Day marks the anniversary of the first landing by humans on the moon as part of the Apollo 11 lunar mission in 1969.

The celebrations will also consider the achievements of all States in the exploration of the moon and raise public awareness of sustainable Moon exploration and utilization.

Bottom line: Tomorrow is the 57th anniversary of humanity’s historic Apollo moon landing and the first human footsteps on the moon. The story in pictures, here. And to celebrate, it’s International Moon Day.

Read more: Moon base and Mars! NASA makes exciting announcements

Experience the Apollo 11 landing in video and actual sound at this cool site.

Don’t believe it? Try this video: Why the Apollo moon landings could not have been faked.

Apollo 11 from NASA

Voices of Apollo 11, astronomy art

The post The 1st footsteps on the moon: Celebrate with Moon Day first appeared on EarthSky.



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Noctilucent clouds are back: Look for them now!

Science news, night sky events and beautiful photos, all in one place. Click here to subscribe to EarthSky’s free daily newsletter.

Noctilucent cloud season is here! Images are already showing up on social media of these night-shining clouds.

Noctilucent clouds at the Avebury Stones.#StandingStoneSunday

Pete Glastonbury (@peteglastonbury.bsky.social) 2026-06-14T01:58:41.945Z

There was a nice display of noctilucent clouds last night. Here's the view from the North York Moors, overlooking Teesside at 23:11 UT. #NoctilucentClouds #Noctilucent #NLCs

Steve Brown – astronomy and astrophotography (@sjbastro.bsky.social) 2026-06-10T11:11:32.390Z

What are noctilucent clouds?

Noctilucent clouds, or night-shining clouds, are thin clouds high up in Earth’s atmosphere – the mesosphere – as much as 50 miles (80 km) above Earth’s surface. Scientists think they’re made of ice crystals that form on fine dust particles, often from meteors. They can only form when temperatures are incredibly low and when there’s water available to form ice crystals.

So, why do these clouds – which require such cold temperatures – form in the summer? It’s because of the strange dynamics of the atmosphere. At that height in the mesosphere, you actually get the coldest temperatures of the year near the poles in summer. Read on to find out why.

Deep blue sky with filamentous-looking wispy white clouds reflecting in a lake. Orange horizon.
Photo of noctilucent clouds taken in Laboe, Germany, on June 21, 2019. Image by Matthias Süßen/ Wikipedia.

What causes noctilucent clouds?

Here’s how it works: during summer, air close to the ground heats up and rises. Since atmospheric pressure decreases with altitude, the rising air expands. But, when the air expands, it also cools down. This, along with other processes in the upper atmosphere, drives the air even higher causing it to cool even more. As a result, temperatures in the mesosphere can plunge to as low as -225 degrees Fahrenheit (-143 C).

In the Northern Hemisphere, the mesosphere reaches these temperatures by mid-May in most years.

We see noctilucent clouds when most of the sky has grown dark, but the rays from the sun can still reach and reflect off these ethereal, electric-blue clouds. When satellites or astronauts view them from space, they’re referred to as polar mesospheric clouds.

If you want to see them for yourself, now’s the time to look!

Black space, shining ripply layer of clouds, dark orange narrow stripe above black silhouette of Earth.
Astronauts in the International Space Station (ISS) took this photo on January 5, 2013, when the ISS was over the Pacific Ocean south of French Polynesia. The pale orange band below the brightly lit noctilucent clouds is the stratosphere. Image via NASA.

It’s noctilucent cloud season

The season for noctilucent clouds at northerly latitudes is now. People at high latitudes report seeing noctilucent clouds. This happens every year, from about May through August in the Northern Hemisphere, and from November through February in the Southern Hemisphere.

In recent years, northern summertime noctilucent clouds have set records for low-latitude sightings. In 2019, for example, people observed them as far south as Las Vegas (36 degrees north latitude) and Los Angeles (34 degrees north latitude). Usually, though, they’re seen from higher latitudes.

Sighting them at lower latitudes might be due to a couple of things. According to Royal Museums Greenwich:

In the Northern Hemisphere noctilucent clouds have been seen at much lower latitudes than expected. Scientists believe this is a result of climate change, but it could also be due to other factors, such as rocket launches expelling particles into the atmosphere which go on to form noctilucent clouds.

How to see these night-shining clouds

To see noctilucent clouds, you’ll need certain conditions in your favor. One factor is when to look. Right about now – June to July – is typically when noctilucent clouds are most widespread.

You’ll also want to be positioned as far north as possible during the Northern Hemisphere’s peak season. Canada and the U.K. are two locations where you’ll have a better chance to spot night-shining clouds.

Then, look west about 30 minutes after sunset. The farther north you are, the longer throughout the night you can see them. That’s because the sun doesn’t dip as far below your horizon.

Noctilucent clouds look like electric, luminous tendrils of blue-white light. They are the clouds that glow after other clouds have darkened.

Diagram: location of sun below horizon from observer's point of view and sunlight striking clouds high above.
Noctilucent clouds are night-shining clouds because they are so high up that after other clouds are dark, the sun can still reach them. These polar mesospheric clouds appear as eerily blue in a mostly darkened sky. Chart via EarthSky.

What noctilucent clouds can teach us

Noctilucent clouds are sensitive to atmospheric temperatures. Therefore, they can act as a proxy for information about the wind circulation that causes these temperatures. First of all, they can tell scientists that the circulation exists. They can also tell us something about the strength of the circulation.

Scientists studying these clouds got help from NASA’s Aeronomy of Ice in the Mesosphere (AIM) satellite. This satellite, launched in 2007, observed noctilucent clouds using several onboard instruments to collect information such as temperature, atmospheric gases, ice crystal size and changes in the clouds. It even accounted for the amount of meteoric space dust that enters the atmosphere. The AIM spacecraft re-entered Earth’s atmosphere and burned up in August 2024.

Studies have also shown that as the climate warms, noctilucent clouds become more visible.

Where to watch for noctilucent clouds

As with the aurora, it helps to be closer to the poles to see this phenomenon. You can keep tabs on noctilucent clouds via SpaceWeather’s RealTime Image Gallery, or on Facebook via the group Noctilucent Clouds Around the World.

Noctilucent clouds in 2025

Glowing blue clouds in deep blue sky above orange twilight, with cows in a pasture in the foreground.
View at EarthSky Community Photos. | Petr Horálek braved a cow pasture to get this view of noctilucent clouds on July 3, 2025. Petr wrote: “This early morning, the bright NLCs appeared over Central Europe. I found a great spot by Prosec u Sece, Czech Republic. When I started shooting, I found out that cows are close … and a bull too. I was pretty scared of the bull, as he seemed very aggressive, but I managed to make at least one shot before he decided to check me out. So the shot is truly spontaneous and a result of small drama, too.” Thank you, Petr!
Glowing blue and white streamer-like clouds below deep blue sky.
View at EarthSky Community Photos. | Joel Weatherly captured noctilucent clouds from Edmonton, Alberta, Canada, on July 1, 2025. Joel wrote: “Last night we had a significant outbreak of noctilucent clouds. These shimmering NLCs showcased brilliant waves and ripples.” Thank you, Joel!

Noctilucent clouds in 2024

High, distant, blue and white rippling, stringy-like clouds above orange sunset, and silhouette of a man.
View at EarthSky Community Photos. | Jean-Baptiste Feldmann in Gleizé, France, captured these noctilucent – or night-shining – clouds on July 13, 2024. Jean-Baptiste wrote: “Impressive festival of noctilucent clouds a little before 5 in the morning, while I was finishing my planetary observations with the telescope. I had never seen noctilucent with such intensity before. A real treat!” Thank you, Jean-Baptiste!
Ripply, glowing white clouds in a dark sky reflected in a lake with town lights on opposite shore.
View at EarthSky Community Photos. | Marek Nikodem caught these noctilucent clouds on June 14, 2024, from near Szubin, Poland. Thank you, Marek!
Light-colored streaming clouds in a darkening sky with a slight reflection in the water.
View at EarthSky Community Photos. | Lorraine Osullivan was in Pembrokeshire, Wales, when she took this image of night-shining clouds on June 25, 2024. Lorraine wrote: “I was on holiday when I took this photo, it is taken from our balcony at our cottage.” Thank you, Lorraine!
Light blue clouds under a high dark blue sky with dark trees in the foreground.
View at EarthSky Community Photos. | Lea Proicheva in Gennep, the Netherlands, captured this image on June 28, 2024. Lea wrote: “This time of year the sun goes down very late and twilight lasts for a long time.” Thank you, Lea!

Do you have images of noctilucent clouds to share? We’d love to see them! Submit them to EarthSky Community Photos.

Bottom line: Noctilucent cloud season is underway! Learn about these stunning night-shining clouds and see a gallery here.

Read more: Iridescent clouds have rainbow colors

Read more: Cloud shapes are a useful tool for predicting weather

The post Noctilucent clouds are back: Look for them now! first appeared on EarthSky.



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Science news, night sky events and beautiful photos, all in one place. Click here to subscribe to EarthSky’s free daily newsletter.

Noctilucent cloud season is here! Images are already showing up on social media of these night-shining clouds.

Noctilucent clouds at the Avebury Stones.#StandingStoneSunday

Pete Glastonbury (@peteglastonbury.bsky.social) 2026-06-14T01:58:41.945Z

There was a nice display of noctilucent clouds last night. Here's the view from the North York Moors, overlooking Teesside at 23:11 UT. #NoctilucentClouds #Noctilucent #NLCs

Steve Brown – astronomy and astrophotography (@sjbastro.bsky.social) 2026-06-10T11:11:32.390Z

What are noctilucent clouds?

Noctilucent clouds, or night-shining clouds, are thin clouds high up in Earth’s atmosphere – the mesosphere – as much as 50 miles (80 km) above Earth’s surface. Scientists think they’re made of ice crystals that form on fine dust particles, often from meteors. They can only form when temperatures are incredibly low and when there’s water available to form ice crystals.

So, why do these clouds – which require such cold temperatures – form in the summer? It’s because of the strange dynamics of the atmosphere. At that height in the mesosphere, you actually get the coldest temperatures of the year near the poles in summer. Read on to find out why.

Deep blue sky with filamentous-looking wispy white clouds reflecting in a lake. Orange horizon.
Photo of noctilucent clouds taken in Laboe, Germany, on June 21, 2019. Image by Matthias Süßen/ Wikipedia.

What causes noctilucent clouds?

Here’s how it works: during summer, air close to the ground heats up and rises. Since atmospheric pressure decreases with altitude, the rising air expands. But, when the air expands, it also cools down. This, along with other processes in the upper atmosphere, drives the air even higher causing it to cool even more. As a result, temperatures in the mesosphere can plunge to as low as -225 degrees Fahrenheit (-143 C).

In the Northern Hemisphere, the mesosphere reaches these temperatures by mid-May in most years.

We see noctilucent clouds when most of the sky has grown dark, but the rays from the sun can still reach and reflect off these ethereal, electric-blue clouds. When satellites or astronauts view them from space, they’re referred to as polar mesospheric clouds.

If you want to see them for yourself, now’s the time to look!

Black space, shining ripply layer of clouds, dark orange narrow stripe above black silhouette of Earth.
Astronauts in the International Space Station (ISS) took this photo on January 5, 2013, when the ISS was over the Pacific Ocean south of French Polynesia. The pale orange band below the brightly lit noctilucent clouds is the stratosphere. Image via NASA.

It’s noctilucent cloud season

The season for noctilucent clouds at northerly latitudes is now. People at high latitudes report seeing noctilucent clouds. This happens every year, from about May through August in the Northern Hemisphere, and from November through February in the Southern Hemisphere.

In recent years, northern summertime noctilucent clouds have set records for low-latitude sightings. In 2019, for example, people observed them as far south as Las Vegas (36 degrees north latitude) and Los Angeles (34 degrees north latitude). Usually, though, they’re seen from higher latitudes.

Sighting them at lower latitudes might be due to a couple of things. According to Royal Museums Greenwich:

In the Northern Hemisphere noctilucent clouds have been seen at much lower latitudes than expected. Scientists believe this is a result of climate change, but it could also be due to other factors, such as rocket launches expelling particles into the atmosphere which go on to form noctilucent clouds.

How to see these night-shining clouds

To see noctilucent clouds, you’ll need certain conditions in your favor. One factor is when to look. Right about now – June to July – is typically when noctilucent clouds are most widespread.

You’ll also want to be positioned as far north as possible during the Northern Hemisphere’s peak season. Canada and the U.K. are two locations where you’ll have a better chance to spot night-shining clouds.

Then, look west about 30 minutes after sunset. The farther north you are, the longer throughout the night you can see them. That’s because the sun doesn’t dip as far below your horizon.

Noctilucent clouds look like electric, luminous tendrils of blue-white light. They are the clouds that glow after other clouds have darkened.

Diagram: location of sun below horizon from observer's point of view and sunlight striking clouds high above.
Noctilucent clouds are night-shining clouds because they are so high up that after other clouds are dark, the sun can still reach them. These polar mesospheric clouds appear as eerily blue in a mostly darkened sky. Chart via EarthSky.

What noctilucent clouds can teach us

Noctilucent clouds are sensitive to atmospheric temperatures. Therefore, they can act as a proxy for information about the wind circulation that causes these temperatures. First of all, they can tell scientists that the circulation exists. They can also tell us something about the strength of the circulation.

Scientists studying these clouds got help from NASA’s Aeronomy of Ice in the Mesosphere (AIM) satellite. This satellite, launched in 2007, observed noctilucent clouds using several onboard instruments to collect information such as temperature, atmospheric gases, ice crystal size and changes in the clouds. It even accounted for the amount of meteoric space dust that enters the atmosphere. The AIM spacecraft re-entered Earth’s atmosphere and burned up in August 2024.

Studies have also shown that as the climate warms, noctilucent clouds become more visible.

Where to watch for noctilucent clouds

As with the aurora, it helps to be closer to the poles to see this phenomenon. You can keep tabs on noctilucent clouds via SpaceWeather’s RealTime Image Gallery, or on Facebook via the group Noctilucent Clouds Around the World.

Noctilucent clouds in 2025

Glowing blue clouds in deep blue sky above orange twilight, with cows in a pasture in the foreground.
View at EarthSky Community Photos. | Petr Horálek braved a cow pasture to get this view of noctilucent clouds on July 3, 2025. Petr wrote: “This early morning, the bright NLCs appeared over Central Europe. I found a great spot by Prosec u Sece, Czech Republic. When I started shooting, I found out that cows are close … and a bull too. I was pretty scared of the bull, as he seemed very aggressive, but I managed to make at least one shot before he decided to check me out. So the shot is truly spontaneous and a result of small drama, too.” Thank you, Petr!
Glowing blue and white streamer-like clouds below deep blue sky.
View at EarthSky Community Photos. | Joel Weatherly captured noctilucent clouds from Edmonton, Alberta, Canada, on July 1, 2025. Joel wrote: “Last night we had a significant outbreak of noctilucent clouds. These shimmering NLCs showcased brilliant waves and ripples.” Thank you, Joel!

Noctilucent clouds in 2024

High, distant, blue and white rippling, stringy-like clouds above orange sunset, and silhouette of a man.
View at EarthSky Community Photos. | Jean-Baptiste Feldmann in Gleizé, France, captured these noctilucent – or night-shining – clouds on July 13, 2024. Jean-Baptiste wrote: “Impressive festival of noctilucent clouds a little before 5 in the morning, while I was finishing my planetary observations with the telescope. I had never seen noctilucent with such intensity before. A real treat!” Thank you, Jean-Baptiste!
Ripply, glowing white clouds in a dark sky reflected in a lake with town lights on opposite shore.
View at EarthSky Community Photos. | Marek Nikodem caught these noctilucent clouds on June 14, 2024, from near Szubin, Poland. Thank you, Marek!
Light-colored streaming clouds in a darkening sky with a slight reflection in the water.
View at EarthSky Community Photos. | Lorraine Osullivan was in Pembrokeshire, Wales, when she took this image of night-shining clouds on June 25, 2024. Lorraine wrote: “I was on holiday when I took this photo, it is taken from our balcony at our cottage.” Thank you, Lorraine!
Light blue clouds under a high dark blue sky with dark trees in the foreground.
View at EarthSky Community Photos. | Lea Proicheva in Gennep, the Netherlands, captured this image on June 28, 2024. Lea wrote: “This time of year the sun goes down very late and twilight lasts for a long time.” Thank you, Lea!

Do you have images of noctilucent clouds to share? We’d love to see them! Submit them to EarthSky Community Photos.

Bottom line: Noctilucent cloud season is underway! Learn about these stunning night-shining clouds and see a gallery here.

Read more: Iridescent clouds have rainbow colors

Read more: Cloud shapes are a useful tool for predicting weather

The post Noctilucent clouds are back: Look for them now! first appeared on EarthSky.



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10,000 black holes are missing, but we’ve finally found 1

10,000 black holes: Dense cluster of stars in white, red and blue with an inset focusing on one star among many.
View larger. | This star in the Omega Centauri globular cluster is the first astronomers have found to orbit a stellar-mass black hole. Astronomers think there should be 10,000 black holes of that size in this star cluster, but they’ve never found one … until now. Image via ESA/Hubble & NASA, M. Häberle (MPIA).

Millions come to EarthSky for night sky news and trusted science. Your donation keeps us free and accessible for all.

10,000 black holes are missing from this star cluster

Astronomers know of three different categories of black holes. There are the supermassive black holes, which are the beasts that lurk at the centers of galaxies. There are stellar-mass black holes, which form after huge stars die. And then there are intermediate-mass black holes that fill the gap between those two.

Astronomers think the Omega Centauri globular cluster – a huge collection of 10 million stars that orbits our Milky Way galaxy – should be home to some 10,000 stellar-mass black holes. But they’d never found any stellar-mass black holes in the cluster … until now.

On July 13, 2026, ESA said observations with the Hubble and Webb space telescopes have revealed evidence for a stellar-mass black hole in the massive star cluster. The data from these two telescopes allowed astronomers to track a star orbiting a companion for more than 20 years in the cluster. And the star’s invisible dance partner is so heavy that astronomers concluded it must be a black hole. They’ve named the newly found black hole oMEGACat BH-2.

The researchers published their peer-reviewed paper in The Astrophysical Journal Letters on July 13, 2026.

Finding a stellar-mass black hole

Astronomers had searched for stellar-mass black holes in the globular cluster before. Their previous methods of detection included looking for emissions from material falling into the black hole and something called the radial velocity method. This method looks at how fast stars are moving toward or away from us. It can reveal the presence of nearby objects. But these methods never turned up a black hole in Omega Centauri.

Enter astrometry. This is a method where astronomers measure precise locations and movements of stars over time. More than 20 years of data allowed astronomers to get a collection of the precise movements and wiggles of stars in Omega Centauri. And one star revealed it not only had a companion, but the companion was more massive than any star.

Astronomers calculated the companion was too heavy to be something like a neutron star (the dense core of a dead star). But at the same time, it was a bit lighter than they were expecting for a black hole. Co-author Anil Seth of the University of Utah said:

While we already knew that the star was 0.78 solar masses, we can now calculate the black hole’s mass, which is 4.46 solar masses and therefore too heavy to be a neutron star. However, its mass is actually much lower than would be expected in a metal-poor environment like Omega Centauri. This is surprising and exciting. We now know that a metal-poor star should be able to form a black hole like this, and we need to figure out how that happens.

More insights into the black hole

The astronomers learned that the visible star orbits the black hole – oMEGACat BH-2 – once every 94 years. That’s the longest-known period for a star and its black hole.

But the star and black hole don’t appear to be original dance partners. The astronomers said the binary pair likely found each other in the crowded environment of the cluster.

And they won’t remain together forever. Calculations show the star and black hole will stay a pair for less than a billion years before other stars in the cluster tear them apart. It’s not easy being on a packed dance floor.

Insight into gravitational waves

This black hole and its stellar companion could give astronomers insight into gravitational waves. Gravitational waves are ripples in spacetime. They’re triggered by explosive events in the universe, such as exploding stars or black hole mergers. And the formation of black holes and their influence on companions, like oMEGACat BH-2 and its star, could provide insight into the physics of these events. Seth said:

It’s important to understand black hole populations in globular clusters, because there’s uncertainty about their physics and formation. More specifically, understanding the process of forming black holes and then dynamically forming binaries is vital, because it affects our ability to interpret and understand gravitational wave events. Environments like Omega Centauri are the primary places where we think binaries are merging and creating these waves.

Not the only black hole in Omega Centauri

While this is the first detection of a stellar-mass black hole in Omega Centauri, astronomers believe they’ve already identified an intermediate-mass black hole in the cluster. In 2024, a team of astronomers detected seven fast-moving stars in the innermost region of Omega Centauri. In fact, they’re moving so fast they should escape the cluster. So their existence and speed suggests a massive object – an intermediate black hole – is pulling on them. Read more about the intermediate-mass black hole in Omega Centauri here.


This video from the Max Planck Institute for Astronomy shows the 7 fast stars in the globular cluster Omega Centauri that should not be there. They provide evidence for a long-predicted intermediate-mass black hole. And now astronomers said they’ve also detected a stellar-mass black hole in Omega Centauri, which is 17,700 light-years away.

Bottom line: Astronomers think the Omega Centauri globular cluster should be home to 10,000 black holes of a stellar-mass size. But they’ve never found one … until now.

Source: A Long Period Stellar-mass Black Hole Binary in Omega Centauri

Via ESA

The post 10,000 black holes are missing, but we’ve finally found 1 first appeared on EarthSky.



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10,000 black holes: Dense cluster of stars in white, red and blue with an inset focusing on one star among many.
View larger. | This star in the Omega Centauri globular cluster is the first astronomers have found to orbit a stellar-mass black hole. Astronomers think there should be 10,000 black holes of that size in this star cluster, but they’ve never found one … until now. Image via ESA/Hubble & NASA, M. Häberle (MPIA).

Millions come to EarthSky for night sky news and trusted science. Your donation keeps us free and accessible for all.

10,000 black holes are missing from this star cluster

Astronomers know of three different categories of black holes. There are the supermassive black holes, which are the beasts that lurk at the centers of galaxies. There are stellar-mass black holes, which form after huge stars die. And then there are intermediate-mass black holes that fill the gap between those two.

Astronomers think the Omega Centauri globular cluster – a huge collection of 10 million stars that orbits our Milky Way galaxy – should be home to some 10,000 stellar-mass black holes. But they’d never found any stellar-mass black holes in the cluster … until now.

On July 13, 2026, ESA said observations with the Hubble and Webb space telescopes have revealed evidence for a stellar-mass black hole in the massive star cluster. The data from these two telescopes allowed astronomers to track a star orbiting a companion for more than 20 years in the cluster. And the star’s invisible dance partner is so heavy that astronomers concluded it must be a black hole. They’ve named the newly found black hole oMEGACat BH-2.

The researchers published their peer-reviewed paper in The Astrophysical Journal Letters on July 13, 2026.

Finding a stellar-mass black hole

Astronomers had searched for stellar-mass black holes in the globular cluster before. Their previous methods of detection included looking for emissions from material falling into the black hole and something called the radial velocity method. This method looks at how fast stars are moving toward or away from us. It can reveal the presence of nearby objects. But these methods never turned up a black hole in Omega Centauri.

Enter astrometry. This is a method where astronomers measure precise locations and movements of stars over time. More than 20 years of data allowed astronomers to get a collection of the precise movements and wiggles of stars in Omega Centauri. And one star revealed it not only had a companion, but the companion was more massive than any star.

Astronomers calculated the companion was too heavy to be something like a neutron star (the dense core of a dead star). But at the same time, it was a bit lighter than they were expecting for a black hole. Co-author Anil Seth of the University of Utah said:

While we already knew that the star was 0.78 solar masses, we can now calculate the black hole’s mass, which is 4.46 solar masses and therefore too heavy to be a neutron star. However, its mass is actually much lower than would be expected in a metal-poor environment like Omega Centauri. This is surprising and exciting. We now know that a metal-poor star should be able to form a black hole like this, and we need to figure out how that happens.

More insights into the black hole

The astronomers learned that the visible star orbits the black hole – oMEGACat BH-2 – once every 94 years. That’s the longest-known period for a star and its black hole.

But the star and black hole don’t appear to be original dance partners. The astronomers said the binary pair likely found each other in the crowded environment of the cluster.

And they won’t remain together forever. Calculations show the star and black hole will stay a pair for less than a billion years before other stars in the cluster tear them apart. It’s not easy being on a packed dance floor.

Insight into gravitational waves

This black hole and its stellar companion could give astronomers insight into gravitational waves. Gravitational waves are ripples in spacetime. They’re triggered by explosive events in the universe, such as exploding stars or black hole mergers. And the formation of black holes and their influence on companions, like oMEGACat BH-2 and its star, could provide insight into the physics of these events. Seth said:

It’s important to understand black hole populations in globular clusters, because there’s uncertainty about their physics and formation. More specifically, understanding the process of forming black holes and then dynamically forming binaries is vital, because it affects our ability to interpret and understand gravitational wave events. Environments like Omega Centauri are the primary places where we think binaries are merging and creating these waves.

Not the only black hole in Omega Centauri

While this is the first detection of a stellar-mass black hole in Omega Centauri, astronomers believe they’ve already identified an intermediate-mass black hole in the cluster. In 2024, a team of astronomers detected seven fast-moving stars in the innermost region of Omega Centauri. In fact, they’re moving so fast they should escape the cluster. So their existence and speed suggests a massive object – an intermediate black hole – is pulling on them. Read more about the intermediate-mass black hole in Omega Centauri here.


This video from the Max Planck Institute for Astronomy shows the 7 fast stars in the globular cluster Omega Centauri that should not be there. They provide evidence for a long-predicted intermediate-mass black hole. And now astronomers said they’ve also detected a stellar-mass black hole in Omega Centauri, which is 17,700 light-years away.

Bottom line: Astronomers think the Omega Centauri globular cluster should be home to 10,000 black holes of a stellar-mass size. But they’ve never found one … until now.

Source: A Long Period Stellar-mass Black Hole Binary in Omega Centauri

Via ESA

The post 10,000 black holes are missing, but we’ve finally found 1 first appeared on EarthSky.



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Infectious microbes on Mars could become even more deadly

Microbes on Mars: Astronaut in bulky white suit standing near a big red boulder in reddish terrain with dusty yellow sky above.
View larger. | An astronaut examines rocks on Mars in this artist’s concept. A new thesis has explored how some earthly pathogenic – disease-causing – microbes on Mars could survive … and the effects they could have on future human astronauts. Image via NASA/ Wikimedia Commons.
  • Mars is a harsh and deadly place. But could any earthly microbes survive there?
  • A new thesis shows how disease-causing earthly microbes could not only survive, but thrive.
  • The infectious microbes could potentially become more deadly after adapting to the environment. That’s not good news for future astronauts.

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Infectious microbes on Mars

Mars is a harsh and unforgiving place. But, eventually, human astronauts are expected to go there. And when they do, they’ll have companions: pathogenic (disease-causing) microbes that live in and on the human body. Could some of them survive?

Tommaso Zaccaria at Radboud University in the Netherlands has written a new thesis about how some of these organisms could live in the Martian environment … or not.

As the thesis synopsis states:

Evaluating how microorganisms respond and tolerate space conditions is essential to ensure the safe access and exploration of space. This thesis investigates the risks associated with the contamination of other planets with microbes originating from Earth, and how the human immune system responds to infections in space.

Andy Tomaswick wrote about the thesis for Universe Today on June 30, 2026.

The thesis was published on June 22, 2026.

Simulating pathogens on Mars

The first part of the thesis deals with four pathogens – infectious microorganisms – from Earth. For instance, one is the pathogen that causes pneumonia.

The four pathogens were added to a simulated Martian environment in the laboratory. The conditions were harsh: extremely low pressure, dessication (extreme dryness), high ultraviolet radiation and high-concentration brines (highly salty water) that contained the highly toxic substance perchlorate.

Any of these could be deadly on their own. But together, they are ultra-deadly.

The experiments tested the microbes in each of the various conditions noted above. And some of the microbes did indeed survive. Some endured 16 days of desiccation, in fact. But the thesis considered all of the above conditions at the same time, as would be found on Mars itself. In that scenario, the survival of the microbes dropped from 16 days to only one.

There is a caveat, though. The regolith – the Martian version of “soil” composed of bits of rock and dust – might actually help microbes. It could be a place for traces of water to hide. It could also help protect microbes from the deadly ultraviolet radiation from the sun.

On the other hand, the regolith also contains perchlorate. That compound is extremely toxic to most life as we know it.

Shrinking microbes

One of the most interesting aspects of the experiments from the first section was that the microbes shrank in size. They became almost invisible to human immune systems. And in another experiment, the microbes were exposed to a human immune cell called peripheral blood mononuclear cells (PBMCs).

As a result, the cells produced fewer cytokines (small proteins) and reactive oxygen species (highly reactive chemicals formed from oxygen molecules (O2), water and hydrogen peroxide).

The bacteria that survived adapted to the cells. And in doing so, they could potentially become even more pathogenic than they already were. Not good news for any future astronauts.

Smiling young man with dark hair and stubbly beard and mustache.
Tommaso Zaccaria at Radboud University in the Netherlands wrote the new thesis about pathogenic microbes surviving on Mars. Image via LinkedIn.

How regolith affects astronauts

In the second part of the thesis, Zaccaria examines how Mars’ regolith – Martian “soil” – might affect the health of the astronauts. He exposed the cells found in a human’s airway and living mice to mockups of both regolith on Mars and the moon.

The human cells experienced local tissue inflammation and neutrophilia, which is an increase in white blood cell activity due to damaged tissue. There was also increased activity in genes that control mucus production and lung fibroids, both precursors to chronic respiratory disease. Again, not good for astronauts.

The lunar dust was even worse in some ways. It was more damaging than the Martian simulant that was laced with perchlorates.

3 flat, round glass dishes with orange globs and streaks in them.
View larger. | Cultures of Rhodotorula frigidialcoholis yeast (not related to the new study). The yeast stalled its own growth cycle so it could focus on repairing its damaged DNA. Image via Touchette et al./ ResearchGate.

Planetary protection protocols

The third section of the thesis deals with planetary protection protocols, specifically the ones that NASA and other space agencies use for their robotic probes to other planets and moons. In these experiments, microbes were tested to see if they could survive a journey to Jupiter or Saturn.

One type of yeast, Rhodotorula frigidalcoholis, fared particularly well. It actually stalled its own growth cycle so it could focus on repairing its damaged DNA.

The thesis synopsis concludes:

The studies of this thesis have showed how the selected microorganisms can tolerate space conditions, and how genes in the selected yeast are regulated under extreme conditions. As a whole this work provides new microbial survival data and aims to improve the healthy access to space for humans.

Bottom line: A new thesis examines how earthly pathogens on Mars could survive and potentially become even more dangerous for future astronauts.

Source: Life beyond earth: microbial survival and immune health in space

Via Universe Today

Read more: New study says microbes on Mars might be living in the ice

Read more: Are methane-belching microbes on Mars hiding underground?

The post Infectious microbes on Mars could become even more deadly first appeared on EarthSky.



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Microbes on Mars: Astronaut in bulky white suit standing near a big red boulder in reddish terrain with dusty yellow sky above.
View larger. | An astronaut examines rocks on Mars in this artist’s concept. A new thesis has explored how some earthly pathogenic – disease-causing – microbes on Mars could survive … and the effects they could have on future human astronauts. Image via NASA/ Wikimedia Commons.
  • Mars is a harsh and deadly place. But could any earthly microbes survive there?
  • A new thesis shows how disease-causing earthly microbes could not only survive, but thrive.
  • The infectious microbes could potentially become more deadly after adapting to the environment. That’s not good news for future astronauts.

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Infectious microbes on Mars

Mars is a harsh and unforgiving place. But, eventually, human astronauts are expected to go there. And when they do, they’ll have companions: pathogenic (disease-causing) microbes that live in and on the human body. Could some of them survive?

Tommaso Zaccaria at Radboud University in the Netherlands has written a new thesis about how some of these organisms could live in the Martian environment … or not.

As the thesis synopsis states:

Evaluating how microorganisms respond and tolerate space conditions is essential to ensure the safe access and exploration of space. This thesis investigates the risks associated with the contamination of other planets with microbes originating from Earth, and how the human immune system responds to infections in space.

Andy Tomaswick wrote about the thesis for Universe Today on June 30, 2026.

The thesis was published on June 22, 2026.

Simulating pathogens on Mars

The first part of the thesis deals with four pathogens – infectious microorganisms – from Earth. For instance, one is the pathogen that causes pneumonia.

The four pathogens were added to a simulated Martian environment in the laboratory. The conditions were harsh: extremely low pressure, dessication (extreme dryness), high ultraviolet radiation and high-concentration brines (highly salty water) that contained the highly toxic substance perchlorate.

Any of these could be deadly on their own. But together, they are ultra-deadly.

The experiments tested the microbes in each of the various conditions noted above. And some of the microbes did indeed survive. Some endured 16 days of desiccation, in fact. But the thesis considered all of the above conditions at the same time, as would be found on Mars itself. In that scenario, the survival of the microbes dropped from 16 days to only one.

There is a caveat, though. The regolith – the Martian version of “soil” composed of bits of rock and dust – might actually help microbes. It could be a place for traces of water to hide. It could also help protect microbes from the deadly ultraviolet radiation from the sun.

On the other hand, the regolith also contains perchlorate. That compound is extremely toxic to most life as we know it.

Shrinking microbes

One of the most interesting aspects of the experiments from the first section was that the microbes shrank in size. They became almost invisible to human immune systems. And in another experiment, the microbes were exposed to a human immune cell called peripheral blood mononuclear cells (PBMCs).

As a result, the cells produced fewer cytokines (small proteins) and reactive oxygen species (highly reactive chemicals formed from oxygen molecules (O2), water and hydrogen peroxide).

The bacteria that survived adapted to the cells. And in doing so, they could potentially become even more pathogenic than they already were. Not good news for any future astronauts.

Smiling young man with dark hair and stubbly beard and mustache.
Tommaso Zaccaria at Radboud University in the Netherlands wrote the new thesis about pathogenic microbes surviving on Mars. Image via LinkedIn.

How regolith affects astronauts

In the second part of the thesis, Zaccaria examines how Mars’ regolith – Martian “soil” – might affect the health of the astronauts. He exposed the cells found in a human’s airway and living mice to mockups of both regolith on Mars and the moon.

The human cells experienced local tissue inflammation and neutrophilia, which is an increase in white blood cell activity due to damaged tissue. There was also increased activity in genes that control mucus production and lung fibroids, both precursors to chronic respiratory disease. Again, not good for astronauts.

The lunar dust was even worse in some ways. It was more damaging than the Martian simulant that was laced with perchlorates.

3 flat, round glass dishes with orange globs and streaks in them.
View larger. | Cultures of Rhodotorula frigidialcoholis yeast (not related to the new study). The yeast stalled its own growth cycle so it could focus on repairing its damaged DNA. Image via Touchette et al./ ResearchGate.

Planetary protection protocols

The third section of the thesis deals with planetary protection protocols, specifically the ones that NASA and other space agencies use for their robotic probes to other planets and moons. In these experiments, microbes were tested to see if they could survive a journey to Jupiter or Saturn.

One type of yeast, Rhodotorula frigidalcoholis, fared particularly well. It actually stalled its own growth cycle so it could focus on repairing its damaged DNA.

The thesis synopsis concludes:

The studies of this thesis have showed how the selected microorganisms can tolerate space conditions, and how genes in the selected yeast are regulated under extreme conditions. As a whole this work provides new microbial survival data and aims to improve the healthy access to space for humans.

Bottom line: A new thesis examines how earthly pathogens on Mars could survive and potentially become even more dangerous for future astronauts.

Source: Life beyond earth: microbial survival and immune health in space

Via Universe Today

Read more: New study says microbes on Mars might be living in the ice

Read more: Are methane-belching microbes on Mars hiding underground?

The post Infectious microbes on Mars could become even more deadly first appeared on EarthSky.



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Coathanger cluster: This star pattern looks like its name

Coathanger cluster: 6 stars in line with 4 stars making hook below them against dense, crisp star field.
The Coathanger cluster looks like its namesake. Image via Wikimedia Commons/ (CC BY-SA 4.0).

On any evening from July until about November – if you have a dark sky – you can look within the famous Summer Triangle for a tiny but recognizable cluster of stars. Most people call it the Coathanger cluster. Two other names are Brocchi’s cluster and Collinder 399. The Coathanger is a tiny asterism, or pattern of stars within a larger constellation.

It isn’t a true open star cluster, where the stars are loosely bound together by gravity. Instead, these stars only appear close from our perspective. In reality, they’re physically unrelated.

The Coathanger cluster does look like its namesake, making it easy to spot with binoculars and a dark sky. But you have to know just where to look. It’s visible from both the Northern and Southern Hemispheres.

Coathanger cluster within the Summer Triangle

Do you already know the Summer Triangle stars? If not, click here. The Summer Triangle is easy to spot as a large triangle in the east on northern summer evenings. Three bright stars mark its corners: Deneb in the constellation Cygnus the Swan, Vega in Lyra the Harp, and Altair in Aquila the Eagle.

The Milky Way – the edgewise view into the flat disk of our galaxy – runs right through the Summer Triangle. So there are many beautiful little clusters here, plus, of course, the great and glorious Dark Rift of the Milky Way.

If you can find the Summer Triangle, you can find the Coathanger. Just be sure to look from a dark rural location, and have some binoculars handy. The cluster is located along a line between two Triangle stars, Vega and Altair. The image below illustrates the view.

Starry sky with arrows and labels showing Vega, Altair and Deneb forming the Summer Triangle.
View at EarthSky Community Photos. | Steven Bellavia captured this image from New York on September 1, 2024, and wrote: “The Milky Way, the Summer Triangle and a shooting star.” Thank you, Steven.

Albireo can help you find the Coathanger

To find the Coathanger, you first need to find a slightly fainter star: beloved Albireo. This star is located in the midst of the Summer Triangle. It’s also seen as the bottom of a second asterism within the Summer Triangle, called the Northern Cross.

Albireo is found at the base of the Northern Cross. See it, in the photo below?

Dense starfield with constellation Northern Cross and Vega shown and tiny Coathanger cluster circled.
The Northern Cross, with the beloved double star Albireo at its base. The little Coathanger cluster is nearby. Image via Bob King/ Astro Bob. Used with permission.

Albireo to Alpha Vulpeculae to the Coathanger

Got Albireo? Now for some specifics on finding the Coathanger. With binoculars, look for the brightest star in the vicinity of Albireo. That star is called Alpha Vulpeculae, which appears as a double star through binoculars (though the two stars are not gravitationally bound).

Draw an imaginary line from Albireo through Alpha Vulpeculae to locate the Coathanger. In most binoculars, Alpha Vulpeculae and the Coathanger fit within the same binocular field of view, though just barely.

Notice that six stars form the bar of the Coathanger, while four stars make up the hook. From mid-northern latitudes, the Coathanger often appears upside-down. That’s why some people call it the Ski Lift.

Star chart with line from and through labeled stars to cluster at bottom.
Star-hop from the star Albireo to Alpha Vulpeculae to the Coathanger cluster.
Star chart of constellation Vulpecula with stars in black on white.
An imaginary line – drawn in purple on this chart – from the star Albireo and through the star Alpha Vulpeculae takes you to the Coathanger. Image via IAU. Used with permission.

When should you look?

Our sky chart above shows the stars as they appear from the Northern Hemisphere in middle July around midnight (1 a.m. daylight saving time).

Because the stars return to the same place in the sky some two hours earlier with each passing month, this sky chart also shows star positions for about 10 p.m. (11 p.m. daylight time) in mid-August, 8 p.m. (9 p.m. daylight time) in mid-September and 6 p.m (7 p.m daylight time) in mid-October.

Since these stars shine from south to overhead at these times (as seen from the Northern Hemisphere), you might want to sprawl out on a reclining lawn chair, with your feet pointing southward. A reclining position saves neck strain.

The Coathanger’s position is RA: 19h 26.47′; Dec: 20o 11.93′

Bottom line: Star-hop to the Coathanger – a tiny asterism that really looks like its namesake – via the stars Albireo and Alpha Vulpeculae.

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Coathanger cluster: 6 stars in line with 4 stars making hook below them against dense, crisp star field.
The Coathanger cluster looks like its namesake. Image via Wikimedia Commons/ (CC BY-SA 4.0).

On any evening from July until about November – if you have a dark sky – you can look within the famous Summer Triangle for a tiny but recognizable cluster of stars. Most people call it the Coathanger cluster. Two other names are Brocchi’s cluster and Collinder 399. The Coathanger is a tiny asterism, or pattern of stars within a larger constellation.

It isn’t a true open star cluster, where the stars are loosely bound together by gravity. Instead, these stars only appear close from our perspective. In reality, they’re physically unrelated.

The Coathanger cluster does look like its namesake, making it easy to spot with binoculars and a dark sky. But you have to know just where to look. It’s visible from both the Northern and Southern Hemispheres.

Coathanger cluster within the Summer Triangle

Do you already know the Summer Triangle stars? If not, click here. The Summer Triangle is easy to spot as a large triangle in the east on northern summer evenings. Three bright stars mark its corners: Deneb in the constellation Cygnus the Swan, Vega in Lyra the Harp, and Altair in Aquila the Eagle.

The Milky Way – the edgewise view into the flat disk of our galaxy – runs right through the Summer Triangle. So there are many beautiful little clusters here, plus, of course, the great and glorious Dark Rift of the Milky Way.

If you can find the Summer Triangle, you can find the Coathanger. Just be sure to look from a dark rural location, and have some binoculars handy. The cluster is located along a line between two Triangle stars, Vega and Altair. The image below illustrates the view.

Starry sky with arrows and labels showing Vega, Altair and Deneb forming the Summer Triangle.
View at EarthSky Community Photos. | Steven Bellavia captured this image from New York on September 1, 2024, and wrote: “The Milky Way, the Summer Triangle and a shooting star.” Thank you, Steven.

Albireo can help you find the Coathanger

To find the Coathanger, you first need to find a slightly fainter star: beloved Albireo. This star is located in the midst of the Summer Triangle. It’s also seen as the bottom of a second asterism within the Summer Triangle, called the Northern Cross.

Albireo is found at the base of the Northern Cross. See it, in the photo below?

Dense starfield with constellation Northern Cross and Vega shown and tiny Coathanger cluster circled.
The Northern Cross, with the beloved double star Albireo at its base. The little Coathanger cluster is nearby. Image via Bob King/ Astro Bob. Used with permission.

Albireo to Alpha Vulpeculae to the Coathanger

Got Albireo? Now for some specifics on finding the Coathanger. With binoculars, look for the brightest star in the vicinity of Albireo. That star is called Alpha Vulpeculae, which appears as a double star through binoculars (though the two stars are not gravitationally bound).

Draw an imaginary line from Albireo through Alpha Vulpeculae to locate the Coathanger. In most binoculars, Alpha Vulpeculae and the Coathanger fit within the same binocular field of view, though just barely.

Notice that six stars form the bar of the Coathanger, while four stars make up the hook. From mid-northern latitudes, the Coathanger often appears upside-down. That’s why some people call it the Ski Lift.

Star chart with line from and through labeled stars to cluster at bottom.
Star-hop from the star Albireo to Alpha Vulpeculae to the Coathanger cluster.
Star chart of constellation Vulpecula with stars in black on white.
An imaginary line – drawn in purple on this chart – from the star Albireo and through the star Alpha Vulpeculae takes you to the Coathanger. Image via IAU. Used with permission.

When should you look?

Our sky chart above shows the stars as they appear from the Northern Hemisphere in middle July around midnight (1 a.m. daylight saving time).

Because the stars return to the same place in the sky some two hours earlier with each passing month, this sky chart also shows star positions for about 10 p.m. (11 p.m. daylight time) in mid-August, 8 p.m. (9 p.m. daylight time) in mid-September and 6 p.m (7 p.m daylight time) in mid-October.

Since these stars shine from south to overhead at these times (as seen from the Northern Hemisphere), you might want to sprawl out on a reclining lawn chair, with your feet pointing southward. A reclining position saves neck strain.

The Coathanger’s position is RA: 19h 26.47′; Dec: 20o 11.93′

Bottom line: Star-hop to the Coathanger – a tiny asterism that really looks like its namesake – via the stars Albireo and Alpha Vulpeculae.

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Hidden planet found around nearby star Beta Pictoris


Astronomers have found a hidden planet orbiting the star Beta Pictoris. This star, 63 light-years away in the southern constellation Pictor, was already known to have 2 planets. This 3rd planet is now the faintest ever imaged from Earth. Video via ESO.

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Hidden planet found around Beta Pictoris

Beta Pictoris is famous as a star system with planets, comets and asteroids still in the process of forming. It’s a young star system, about 20 million years old, which first came to astronomers’ attention because of the thick debris disk around it. Then, in 2008, astronomers discovered the first planet orbiting Beta Pictoris, followed by a second planet in 2019. And in 2024, astronomers said they found evidence of a giant asteroid collision around the star.

Now, on July 15, 2026, the European Southern Observatory has said that astronomers found a third planet around Beta Pictoris that has been hiding in our images all along.

The team of astronomers found the planet using the European Southern Observatory’s Very Large Telescope in Chile. The planet is named Beta Pictoris d (the first two being named Beta Pictoris b and Beta Pictoris c). The discovery was a surprise to astronomers, who were just trying to take a closer look at Beta Pictoris b. The newly discovered planet is 100 times fainter than Beta Pictoris b. And that makes it the faintest planet ever imaged from Earth.

Co-author Ben Sutlieff at the University of Edinburgh said:

This was a serendipitous discovery. We initially wanted to look more at a known planet in the system, Beta Pictoris b, to see how it changed over time.

The astronomers published their peer-reviewed paper in The Astrophysical Journal Letters on July 15, 2026.

A surprise at Beta Pictoris

There’s something else there, did you see it?

That was what co-author Markus Bonse of ESO said when he saw the data from Beta Pictoris. But to confirm their “eureka” moment, the team didn’t need to take new observations. Astronomers have already well-documented the Beta Pictoris system. So they simply went back to older images from observatories such as SPHERE and the Webb space telescope. They spotted Beta Pictoris d in images going back 11 years.

Co-author Jayne Birkby of the University of Oxford said:

Planet d, it seems, has been playing a game of hide-and-seek with us for over a decade and only now can we say ‘found you!’

Hidden planet: Reddish sphere showing field of view with a star icon at center, a bright light to the left and a smaller light with arrow to the right.
This is the hidden planet (indicated by arrow) around the star Beta Pictoris. The star icon marks the spot where astronomers blocked the star’s light. The larger mass of light at the left is the planet Beta Pictoris b. Another planet, Beta Pictoris c, is too close to the star to see in this image. The background noise in the image is because the star is surrounded by a large disk of material leftover from the formation of its planets. Image via ESO/ B. Sutlieff, M. Bonse et al.

What is the new planet like?

The star system Beta Pictoris lies 63 light-years away in the southern constellation Pictor. The two previously known planets are both gas giant planets with about 10 times the mass of Jupiter.

The new planet, Beta Pictoris d, is also a gas giant. But this planet is only 2.4 times more massive than Jupiter. It’s farther from its home star than planets b and c, and therefore it’s cold and faint.

Directly imaging multiple planets at this star is a big deal. In fact, it’s only the second star system that has had more than two planets directly imaged. The other star system with this honor is HR 8799.

Sutlieff said:

Systems with multiple directly imaged exoplanets are the ‘holy grails’ of discoveries, because they can teach us a lot about what different exoplanets are like in the same formation environment.

The discovery helps solve a mystery at Beta Pictoris. Previously, astronomers had trouble explaining the shape of the debris disk leftover from planets forming around this star. But the new planet has exactly the right mass and position to account for the shape of the debris disk.

What’s next? Perhaps more hidden planets will come to light in other star systems. The researchers think there are likely more planets hiding within archival images.

Bottom line: Astronomers have found a hidden planet orbiting the star Beta Pictoris. This previously unseen world is now the faintest planet ever imaged from Earth.

Source: Direct Imaging Discovery of Giant Exoplanet Beta Pictoris d: A Decade-Long Game of Hide-and-Seek

Via ESO

Read more: Alpha Centauri, the star system closest to our sun

Read more: Rare quadruple star system could unlock brown dwarf mystery

The post Hidden planet found around nearby star Beta Pictoris first appeared on EarthSky.



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Astronomers have found a hidden planet orbiting the star Beta Pictoris. This star, 63 light-years away in the southern constellation Pictor, was already known to have 2 planets. This 3rd planet is now the faintest ever imaged from Earth. Video via ESO.

EarthSky isn’t powered by billionaires. We’re powered by you. Support EarthSky’s 2025 Donation Campaign and help keep science accessible.

Hidden planet found around Beta Pictoris

Beta Pictoris is famous as a star system with planets, comets and asteroids still in the process of forming. It’s a young star system, about 20 million years old, which first came to astronomers’ attention because of the thick debris disk around it. Then, in 2008, astronomers discovered the first planet orbiting Beta Pictoris, followed by a second planet in 2019. And in 2024, astronomers said they found evidence of a giant asteroid collision around the star.

Now, on July 15, 2026, the European Southern Observatory has said that astronomers found a third planet around Beta Pictoris that has been hiding in our images all along.

The team of astronomers found the planet using the European Southern Observatory’s Very Large Telescope in Chile. The planet is named Beta Pictoris d (the first two being named Beta Pictoris b and Beta Pictoris c). The discovery was a surprise to astronomers, who were just trying to take a closer look at Beta Pictoris b. The newly discovered planet is 100 times fainter than Beta Pictoris b. And that makes it the faintest planet ever imaged from Earth.

Co-author Ben Sutlieff at the University of Edinburgh said:

This was a serendipitous discovery. We initially wanted to look more at a known planet in the system, Beta Pictoris b, to see how it changed over time.

The astronomers published their peer-reviewed paper in The Astrophysical Journal Letters on July 15, 2026.

A surprise at Beta Pictoris

There’s something else there, did you see it?

That was what co-author Markus Bonse of ESO said when he saw the data from Beta Pictoris. But to confirm their “eureka” moment, the team didn’t need to take new observations. Astronomers have already well-documented the Beta Pictoris system. So they simply went back to older images from observatories such as SPHERE and the Webb space telescope. They spotted Beta Pictoris d in images going back 11 years.

Co-author Jayne Birkby of the University of Oxford said:

Planet d, it seems, has been playing a game of hide-and-seek with us for over a decade and only now can we say ‘found you!’

Hidden planet: Reddish sphere showing field of view with a star icon at center, a bright light to the left and a smaller light with arrow to the right.
This is the hidden planet (indicated by arrow) around the star Beta Pictoris. The star icon marks the spot where astronomers blocked the star’s light. The larger mass of light at the left is the planet Beta Pictoris b. Another planet, Beta Pictoris c, is too close to the star to see in this image. The background noise in the image is because the star is surrounded by a large disk of material leftover from the formation of its planets. Image via ESO/ B. Sutlieff, M. Bonse et al.

What is the new planet like?

The star system Beta Pictoris lies 63 light-years away in the southern constellation Pictor. The two previously known planets are both gas giant planets with about 10 times the mass of Jupiter.

The new planet, Beta Pictoris d, is also a gas giant. But this planet is only 2.4 times more massive than Jupiter. It’s farther from its home star than planets b and c, and therefore it’s cold and faint.

Directly imaging multiple planets at this star is a big deal. In fact, it’s only the second star system that has had more than two planets directly imaged. The other star system with this honor is HR 8799.

Sutlieff said:

Systems with multiple directly imaged exoplanets are the ‘holy grails’ of discoveries, because they can teach us a lot about what different exoplanets are like in the same formation environment.

The discovery helps solve a mystery at Beta Pictoris. Previously, astronomers had trouble explaining the shape of the debris disk leftover from planets forming around this star. But the new planet has exactly the right mass and position to account for the shape of the debris disk.

What’s next? Perhaps more hidden planets will come to light in other star systems. The researchers think there are likely more planets hiding within archival images.

Bottom line: Astronomers have found a hidden planet orbiting the star Beta Pictoris. This previously unseen world is now the faintest planet ever imaged from Earth.

Source: Direct Imaging Discovery of Giant Exoplanet Beta Pictoris d: A Decade-Long Game of Hide-and-Seek

Via ESO

Read more: Alpha Centauri, the star system closest to our sun

Read more: Rare quadruple star system could unlock brown dwarf mystery

The post Hidden planet found around nearby star Beta Pictoris first appeared on EarthSky.



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adds 2