Coma Berenices galaxy cluster, best in April and May

View larger. | This mosaic shows part of the immense Coma Berenices galaxy cluster. Be sure to view larger! Image via Hubble Space Telescope/ NASA/ ESA/ J. Mack (STScI)/ J. Madrid (Australian Telescope National Facility).

The Coma Berenices galaxy cluster

Galaxies with their billions of stars are the building blocks of our universe. But galaxies aren’t spread homogeneously throughout space. Instead, they collect in clusters. From Earth, one of the densest and most famous of the galaxy clusters is the Coma Berenices cluster. It’s located in the direction to the constellation Coma Berenices (Berenice’s Hair). And it’s best viewed in the evening in April and May.

It’s hard to get an exact count of the number of galaxies in this cluster. Counts vary based on how small or faint the galaxies are, and how big the telescopes are that are doing the counting. But scientists estimate the cluster contains as many as 10,000 or more member galaxies.

Indeed, there are more individual galaxies in this cluster than there are stars visible to the unaided human eye on a clear, dark night.

The center of the Coma cluster lies about 320 million light-years away. And the cluster itself spans about 20 million light-years of space. That’s in contrast to our home galaxy, the Milky Way, which is about 100,000 light-years wide. And it’s in contrast to our own Local Group of galaxies, our local cluster of galaxies, which is about 10 million light-years wide and contains about 50 galaxies.

An old – but beautiful – name for this region of sky is the Realm of the Galaxies. Writing an article by that name for Frosty Drew Observatory in the year 2000, the late Leslie Coleman, a previous director of Frosty Drew, explained:

Even in the eyepiece of the 16″ [telescope], many of the galaxies in this area overlap each other! There simply isn’t room enough in this region of the sky to fit them.

It occupies a small area of sky

The central part of the Coma Berenices cluster covers a roughly circular area about 1 1/2 degrees across. That’s nine times the area of a full moon, which is about 1/2 a degree across.

But the full cluster might extend farther across our sky. And numerous other galaxy clusters – some closer or farther away – are also in this same area of the sky.

This part of the sky is the site of the famous open star cluster known as the Coma Berenices star cluster, as well as the most distant galaxy cluster visible through telescopes. To see the star cluster and the galaxy cluster you need a dark sky.

It contains thousands of galaxies

So the constellation Coma Berenices appears to the eye as a cluster of stars. But a telescope reveals a vast region of distant galaxies in this part of the sky. The chart below gives you an idea of the number of galaxies in that region of the sky.

No idea how twitter renders this image but "faint fuzzy" time! ASI533/8"SCT Alt/Az 50x5s subs looking thru to Coma Cluster of Galaxies. 300Mly away. Looking thru Galactic pole. Like shooting fish in a barrel! SkySafari labels two as IC 4040? Mag 15.4 captured! @BristolAstroSoc pic.twitter.com/pd3ssZn6lE

— Chris Lee FRAS FBIS (@cpl43uk) February 15, 2021

How to find the Coma Berenices galaxy cluster

The constellation Coma Berenices lies between the constellations Leo the Lion and Boötes the Herdsman.

The galaxy cluster is near the northern border of the constellation Coma Berenices.

A chart of the constellation Coma Berenices. Here, the blue star indicates the approximate location of the center of the Coma Berenices galaxy cluster. Image via IAU.

A myriad of galaxies

So the center of the Coma Berenices galaxy cluster is about 320 million light-years away. And it’s not getting any closer! In fact, the entire cluster is flying away from us at the rate of about more than 15 million mph (24 million kph)!

The galaxies in the Coma Berenices cluster is filled with galaxies in all shapes and sizes, from giant ellipticals to spirals to irregular dwarf galaxies.

This image shows the elliptical galaxy NGC 4889 in front of hundreds of background galaxies. These giant ellipticals lie at the center of the Coma cluster. Image via Hubble Space Telescope.

View larger. | This section of the Coma Berenices galaxy cluster is about 1/3 of the way from the cluster’s center. The bright spiral galaxy in the upper left is distinctly brighter and bluer than surrounding galaxies and has dusty spiral arms that appear reddish brown against the whiter disk of the galaxy. These are all clues that this galaxy underwent a disturbance at some point in the past. Image via NASA/ Wikimedia Commons (public domain).

Most galaxies in the Coma Cluster are dwarfs, not unlike our Milky Way galaxy’s Small and Large Magellanic Clouds. These little galaxies are tough to see in visible light. But infrared views have increased the Coma Cluster’s galaxy count. This composite combines infrared Spitzer Space Telescope image data (red and green) with visible light Sloan Sky Survey data (blue) for the central part of the Coma Galaxy Cluster. The field of view here is over 1 degree wide. It’s dominated by 2 giant ellipticals, in blue. Many of the small green smudges are identified as dwarf galaxies, Image via NASA, JPL-Caltech, SDSS, Leigh Jenkins, Ann Hornschemeier (Goddard Space Flight Center) et al.

Coma Berenices galaxy cluster in science

Most galaxies in the central part of the cluster are giant elliptical, the result of galaxy mergers. The two brightest members – both giant ellipticals – are NGC 4889 and NGC 4874. Each one is at least two to three times larger than our own Milky Way galaxy. Farther out from the center are several spiral galaxies.

But most galaxies in the Coma Berenices galaxy cluster are dwarf galaxies. Maybe they resemble the Milky Way’s companions, the Large and Small Magellanic Clouds.

Closeup on the majestic face-on spiral galaxy NGC 4911 located deep within the Coma Berenices galaxy cluster. Image via NASA.

Coma Berenices galaxy cluster in history

The earliest stargazers couldn’t have seen the Coma galaxy cluster. It’s too faint for viewing by the human eye (or binoculars and even small telescopes). So it has no associated mythology. But the Coma cluster still has an interesting history.

In fact, it helped lead to our discovery of dark matter in the universe. Dark matter was unknown and unsuspected until a Swiss-American astronomer, Fritz Zwicky, announced he had discovered it in the Coma Berenices galaxy cluster in the 1930s.

Zwicky tallied up the visible galaxies in the cluster and estimated their masses. Then, he observed the motions of galaxies near the edge of the cluster, which are determined by the total gravity (and hence mass) of the cluster. He found the mass derived from the latter method greatly exceeded that from visual inspection.

Zwicky knew that if the law of gravity is correct – and there’s no reason to doubt it – the only answer could be an additional source of mass, which he called dunkle Materie in German.

Today, scientists believe they see the imprint of dark matter throughout the universe. They think it’s at least five times more prevalent than the more familiar visible matter, such as the stars and galaxies we can see. Unseen and mysterious, this matter greatly increases the total mass and gravitational strength of the universe, affecting its evolution and fate.

Astronomer Fritz Zwicky 1st predicted the existence of dark matter in the 1930s, following his observations of the Coma Berenices galaxy cluster. Image via Wikimedia Commons (public domain).

Coordinates of the Coma Berenices galaxy cluster

The center of the Coma Berenices galaxy cluster is located at approximately RA: 12h 59m, dec: +27° 59′.

Bottom line: Myriads of galaxies – in all shapes and sizes and visible only in telescopes – shine in the Coma Berenices galaxy cluster.

The post Coma Berenices galaxy cluster, best in April and May first appeared on EarthSky.

from EarthSky https://ift.tt/SbMLJsK

View larger. | This mosaic shows part of the immense Coma Berenices galaxy cluster. Be sure to view larger! Image via Hubble Space Telescope/ NASA/ ESA/ J. Mack (STScI)/ J. Madrid (Australian Telescope National Facility).

The Coma Berenices galaxy cluster

Galaxies with their billions of stars are the building blocks of our universe. But galaxies aren’t spread homogeneously throughout space. Instead, they collect in clusters. From Earth, one of the densest and most famous of the galaxy clusters is the Coma Berenices cluster. It’s located in the direction to the constellation Coma Berenices (Berenice’s Hair). And it’s best viewed in the evening in April and May.

It’s hard to get an exact count of the number of galaxies in this cluster. Counts vary based on how small or faint the galaxies are, and how big the telescopes are that are doing the counting. But scientists estimate the cluster contains as many as 10,000 or more member galaxies.

Indeed, there are more individual galaxies in this cluster than there are stars visible to the unaided human eye on a clear, dark night.

The center of the Coma cluster lies about 320 million light-years away. And the cluster itself spans about 20 million light-years of space. That’s in contrast to our home galaxy, the Milky Way, which is about 100,000 light-years wide. And it’s in contrast to our own Local Group of galaxies, our local cluster of galaxies, which is about 10 million light-years wide and contains about 50 galaxies.

An old – but beautiful – name for this region of sky is the Realm of the Galaxies. Writing an article by that name for Frosty Drew Observatory in the year 2000, the late Leslie Coleman, a previous director of Frosty Drew, explained:

Even in the eyepiece of the 16″ [telescope], many of the galaxies in this area overlap each other! There simply isn’t room enough in this region of the sky to fit them.

It occupies a small area of sky

The central part of the Coma Berenices cluster covers a roughly circular area about 1 1/2 degrees across. That’s nine times the area of a full moon, which is about 1/2 a degree across.

But the full cluster might extend farther across our sky. And numerous other galaxy clusters – some closer or farther away – are also in this same area of the sky.

This part of the sky is the site of the famous open star cluster known as the Coma Berenices star cluster, as well as the most distant galaxy cluster visible through telescopes. To see the star cluster and the galaxy cluster you need a dark sky.

It contains thousands of galaxies

So the constellation Coma Berenices appears to the eye as a cluster of stars. But a telescope reveals a vast region of distant galaxies in this part of the sky. The chart below gives you an idea of the number of galaxies in that region of the sky.

No idea how twitter renders this image but "faint fuzzy" time! ASI533/8"SCT Alt/Az 50x5s subs looking thru to Coma Cluster of Galaxies. 300Mly away. Looking thru Galactic pole. Like shooting fish in a barrel! SkySafari labels two as IC 4040? Mag 15.4 captured! @BristolAstroSoc pic.twitter.com/pd3ssZn6lE

— Chris Lee FRAS FBIS (@cpl43uk) February 15, 2021

How to find the Coma Berenices galaxy cluster

The constellation Coma Berenices lies between the constellations Leo the Lion and Boötes the Herdsman.

The galaxy cluster is near the northern border of the constellation Coma Berenices.

A chart of the constellation Coma Berenices. Here, the blue star indicates the approximate location of the center of the Coma Berenices galaxy cluster. Image via IAU.

A myriad of galaxies

So the center of the Coma Berenices galaxy cluster is about 320 million light-years away. And it’s not getting any closer! In fact, the entire cluster is flying away from us at the rate of about more than 15 million mph (24 million kph)!

The galaxies in the Coma Berenices cluster is filled with galaxies in all shapes and sizes, from giant ellipticals to spirals to irregular dwarf galaxies.

This image shows the elliptical galaxy NGC 4889 in front of hundreds of background galaxies. These giant ellipticals lie at the center of the Coma cluster. Image via Hubble Space Telescope.

View larger. | This section of the Coma Berenices galaxy cluster is about 1/3 of the way from the cluster’s center. The bright spiral galaxy in the upper left is distinctly brighter and bluer than surrounding galaxies and has dusty spiral arms that appear reddish brown against the whiter disk of the galaxy. These are all clues that this galaxy underwent a disturbance at some point in the past. Image via NASA/ Wikimedia Commons (public domain).

Most galaxies in the Coma Cluster are dwarfs, not unlike our Milky Way galaxy’s Small and Large Magellanic Clouds. These little galaxies are tough to see in visible light. But infrared views have increased the Coma Cluster’s galaxy count. This composite combines infrared Spitzer Space Telescope image data (red and green) with visible light Sloan Sky Survey data (blue) for the central part of the Coma Galaxy Cluster. The field of view here is over 1 degree wide. It’s dominated by 2 giant ellipticals, in blue. Many of the small green smudges are identified as dwarf galaxies, Image via NASA, JPL-Caltech, SDSS, Leigh Jenkins, Ann Hornschemeier (Goddard Space Flight Center) et al.

Coma Berenices galaxy cluster in science

Most galaxies in the central part of the cluster are giant elliptical, the result of galaxy mergers. The two brightest members – both giant ellipticals – are NGC 4889 and NGC 4874. Each one is at least two to three times larger than our own Milky Way galaxy. Farther out from the center are several spiral galaxies.

But most galaxies in the Coma Berenices galaxy cluster are dwarf galaxies. Maybe they resemble the Milky Way’s companions, the Large and Small Magellanic Clouds.

Closeup on the majestic face-on spiral galaxy NGC 4911 located deep within the Coma Berenices galaxy cluster. Image via NASA.

Coma Berenices galaxy cluster in history

The earliest stargazers couldn’t have seen the Coma galaxy cluster. It’s too faint for viewing by the human eye (or binoculars and even small telescopes). So it has no associated mythology. But the Coma cluster still has an interesting history.

In fact, it helped lead to our discovery of dark matter in the universe. Dark matter was unknown and unsuspected until a Swiss-American astronomer, Fritz Zwicky, announced he had discovered it in the Coma Berenices galaxy cluster in the 1930s.

Zwicky tallied up the visible galaxies in the cluster and estimated their masses. Then, he observed the motions of galaxies near the edge of the cluster, which are determined by the total gravity (and hence mass) of the cluster. He found the mass derived from the latter method greatly exceeded that from visual inspection.

Zwicky knew that if the law of gravity is correct – and there’s no reason to doubt it – the only answer could be an additional source of mass, which he called dunkle Materie in German.

Today, scientists believe they see the imprint of dark matter throughout the universe. They think it’s at least five times more prevalent than the more familiar visible matter, such as the stars and galaxies we can see. Unseen and mysterious, this matter greatly increases the total mass and gravitational strength of the universe, affecting its evolution and fate.

Astronomer Fritz Zwicky 1st predicted the existence of dark matter in the 1930s, following his observations of the Coma Berenices galaxy cluster. Image via Wikimedia Commons (public domain).

Coordinates of the Coma Berenices galaxy cluster

The center of the Coma Berenices galaxy cluster is located at approximately RA: 12h 59m, dec: +27° 59′.

Bottom line: Myriads of galaxies – in all shapes and sizes and visible only in telescopes – shine in the Coma Berenices galaxy cluster.

The post Coma Berenices galaxy cluster, best in April and May first appeared on EarthSky.

from EarthSky https://ift.tt/SbMLJsK