On this day in 2012, an international team of scientists announced the discovery of the world’s most distant galaxy, a distant object about 4 billion light-years away from Earth, in the constellation Ursa Major.
That galaxy is named KIC 8462852.
The discovery was made by the US, Japan, Russia, Germany, and Australia.
It is the first known galaxy to be found so close to the Earth.
Astronomers from the Harvard-Smithsonian Center for Astrophysics (CfA) and the Harvard University’s Lowell Observatory (LON) collaborated on the study, published in the Astrophysical Journal.
This was not the first time a galaxy in that galaxy cluster had been spotted.
In February, astronomers discovered a cluster of galaxies in the galaxy cluster KIC 7462851 in the Ursa Minor constellation.
A previous study by the CfA, published on March 31, 2014, found a cluster in the cluster of KIC 6698504.
This cluster was discovered by the Hubble Space Telescope, which detected a faint glow from the star in the middle of the galaxy.
Astronomer Michael Grunwald of Harvard’s Center for Computational Astrophysiology (CCA) described the discovery as a “massive galaxy” with “a lot of starlight.”
A group of astronomers led by Harvard astronomer and KIC8462854 fellow Yutaka Kita of the University of Tokyo, Japan announced in January that a galaxy cluster in Ursa Aries known as KIC 861552, also known as Ursa M65, had been found.
This new discovery was the first to confirm that two galaxies, KIC861552 and Kic 8462552, exist in the same galaxy cluster.
The researchers named the newly discovered galaxy, KIX-6, after the Chinese character for “kixing.”
In the KIX series of names, a group of objects, typically a few hundred to a few thousand light-year across, are named for their positions in the sky.
The stars that form the stars of the Kix-6 galaxy cluster, K-IX, have an inclination of about 20 degrees.
The light from the stars is then divided by a scale known as the Hubble constant and scattered by the gravitational field of the cluster.
This scattering causes the brightness of the star cluster to change.
The brightness of stars in KIX, called a KIX star, is measured by the magnitude of the light emitted by a star.
Astronomy aficionados call this type of star-brightness measurement a “K-band” star.
KIX stars are visible in the KIC-861551, KICS-861851, and KICS 8462652 clusters.
The KIX galaxies have also been named after the planets in the Greek mythology.
The constellation of Ursa Ursa is the planet of the constellation of Jupiter.
The cluster of stars is named after an Egyptian god, who was said to live in the clouds of Ursus, the sky above.
The famous constellation of the sun and the moon is known as Taurus.
The name of KIX is the Chinese word for “to be born.”
It is also the name of a Chinese city.
In the same year, astronomers announced the detection of another new galaxy cluster: KIC 8512892.
This is a cluster located in the star Cluster NGC 796 in the Milky Way galaxy cluster CMB 4.
This particular galaxy cluster is known for being home to a supermassive black hole, called NGC 7410.
The NGC 7310 galaxy cluster contains about 40 billion stars and is a member of the M dwarf class.
The new discovery of Kix galaxies is just one of the many stellar discoveries made by astrophysicists around the world.
It’s also a milestone in astronomy, which has seen more than a billion stars observed.
The Hubble Space telescope has also seen more galaxies, particularly from the Large Magellanic Cloud, a small part of the sky that stretches across the sky from west to east, the center of the Milky Path.
Hubble has been working to observe galaxies and clusters in our universe since its launch in 1960.
More about astronomers,stars,star clusters,gravitational waves,stellar source Tech Radar title Einstein’s General Theory of Relativity predicted the Big Bang article Einstein’s general theory of relativity predicted the beginning of the Big Picture, the cosmic structure that includes all the things that make up our universe.
This includes the Universe we see, the stars, galaxies, and other objects that make the Universe.
The Big Picture includes the cosmos itself, the laws of physics that govern everything in it, and the vastness of space, including the cosmos.
In other words, everything in the Universe is an object in the Big Pictures.
What this means is that the Big Universe is much more than just a collection of things.
In particular, the Big Planck scale,