The Great Attractor is a gravitational anomaly in intergalactic space that is pulling galaxies at 600 kilometers per second. The force is located in the Zone of Avoidance, hidden by our galaxy and cosmic dust

The Great Attractor is the apparent central gravitational point of the Laniakea Supercluster, which contains the Milky Way galaxy and about 100,000 other galaxies. The attraction is observable by its effect on the motion of galaxies and their associated clusters over a region of hundreds of millions of light-years across the universe. 

The Great Attractor is a large mass found in space that acts as a gravitational anomaly. This concentration of mass exerts a strong gravitational pull on surrounding galaxies, including the Milky Way

The great attractor’: Astronomers discover force driving galaxies in common direction. Scientists studying space uncover the colossal gravitational anomaly, The Great Attractor, pulling galaxies at 600 km/s. The unseen force is located in the Zone of Avoidance, hidden by our galaxy and cosmic dust

The Great Attractor was discovered in the early 1970s when scientists were studying the Cosmic Microwave Background (CMB). The CMB is the light residue left over from the big bang. 

The Great Attractor was discovered when astronomers noticed that galaxies around the Milky Way seemed to be moving towards a common point. In 1986, astronomers observed the motions of the Milky Way and neighboring galaxies and noted that the galaxies were moving towards the Hydra-Centaurus superclusters. 

The Great Attractor is believed to be a massive concentration of galaxies and dark matter, exerting a powerful gravitational pull on its surroundings

The great attractor’: Astronomers discover force driving galaxies in common direction. Scientists studying space uncover the colossal gravitational anomaly, The Great Attractor, pulling galaxies at 600 km/s. The unseen force is located in the Zone of Avoidance, hidden by our galaxy and cosmic dust.

The Great Attractor is unlikely to be a black hole. Black holes are celestial objects that are so dense and massive that nothing can escape their gravitational pull, not even light. Black holes also have certain signatures, like intense x-ray emissions, which have not been detected from the Great Attractor

Some theories about the Great Attractor have ranged from a supermassive black hole to aliens. However, black holes massive enough to pull galaxies would need to be cosmic record breakers. Even the supermassive black holes at the centers of galaxies are tiny compared to the galaxies themselves

The Great Attractor is a region of space that contains a large concentration of mass. This mass is tens of thousands of times more massive than the Milky Way. 

The Great Attractor contains the Norma Cluster, a rich cluster of galaxies with an estimated mass of one quadrillion suns. However, this mass is not enough to explain the movement of the hundreds of galaxies observed. 

Some theories about the Great Attractor include: 

• A confluence of dark energy 
• Over-density, an area of dense mass with an intense gravitational pull 
• A supercluster of galaxies called the Vella Supercluster 

The Great Attractor is the result of a process that began over 13 billion years ago. It is the focal point of our patch of the universe, and the natural result of the flows and buildup of matter in our universe.

The Great Attractor is difficult to observe directly because it is obscured by the Milky Way’s galactic plane. The Great Attractor lies in the direction of the constellation Centaurus, and the Milky Way’s disk blocks our view. The Milky Way is full of stars, gas, and dust that block light from the more distant universe

The Great Attractor is a region of space, not an object or structure. It is a concentration of mass that influences the movement of all the galaxies, including the Milky Way. 

We know the Great Attractor is there because of the gravitational effects it has on things we can see like stars and galaxies. It doesn’t interact with light or ordinary matter, so we can’t detect it directly

The location of the Great Attractor was finally determined in 1986: It is situated at a distance of somewhere between 150 and 250 Mly (million light-years) (47–79 Mpc) (the larger being the most recent estimate) away from the Milky Way, in the direction of the constellations Triangulum Australe (The Southern Triangle)

The Great Attractor is a gravitational anomaly that pulls galaxies at a speed of 600 kilometers per second (1.3 million miles per hour). The Great Attractor’s gravitational pull affects the motion of galaxies in our local group, including the Milky Way. 

The Great Attractor is a mass concentration that lies within the Milky Way Galaxy’s zone of avoidance. This makes it difficult to observe directly in visible light wavelengths

The Great Attractor is between 150 and 250 million light-years away from Earth. It’s located in the direction of the constellation Centaurus and is at the center of the Laniakea Supercluster

The Great Attractor is estimated to have a diameter of about 300 million light-years, with its center about 147 million light-years away from Earth. 

The Norma Cluster, which is about 220 million light-years away, is thought to be close to the center of the Great Attractor. The Norma Cluster is the closest massive galaxy cluster to the Milky Way

Scientists believe the Great Attractor is a massive concentration of galaxies and dark matter. It’s thought to be a region of space that’s the center of attraction for all matter in the universe. 

Some theories about the Great Attractor include: 

• Dark energy: A confluence of dark energy 
• Over-density: An area of dense mass with an intense gravitational pull 
• Supercluster of galaxies: A massive concentration of dark matter or a supercluster of galaxies

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