The James Webb Telescope has detected something terrifying at the edge of the universe, possibly related to the formation of the first galaxies. The Hercules Corona Borealis Great Wall is so large that it violates the very laws of physics and is not supposed to exist.

The Hercules–Corona Borealis Great Wall (HCB) is the largest known structure in the observable universe. It’s a galaxy filament that’s about 10 billion light-years long, 7.2 billion light-years wide, and almost 1 billion light-years thick. The HCB is located in the constellations of Hercules and Corona Borealis

The HCB is a huge group of galaxies that are bound together by gravity. It was discovered in November 2013. 

The observable universe is about 93 billion light-years in diameter. A light-year is the distance that light travels in a year, which is about 9 trillion kilometers.

Yes, the Hercules-Corona Borealis Great Wall is real.  It was discovered by a team of American and Hungarian astronomers in 2013. The astronomers analyzed data from the Swift Gamma-Ray Burst Mission, a NASA space telescope launched in 2004.  The telescope was designed to detect and map gamma-ray bursts, which are the most powerful explosions in the universe. 

The HCB is so wide that it takes light about 10 billion years to cross the entire structure. The universe is only 13.8 billion years old.

Yes, the Hercules-Corona Borealis Great Wall is a supercluster. It’s the largest supercluster of galaxies that scientists have discovered. Superclusters are the largest entities in the observable universe. They contain billions of galaxies and their sizes vary greatly

The HCB is so large that it defies the laws of inflation. It’s so massive that it’s larger than the maximum structural size allowed by the inflationary model of the universe. 

The HCB is made up of at least 15 clusters and other interconnected filaments. It’s located at the celestial South Pole

There isn’t much information about the mass of the Hercules-Corona Borealis Great Wall, but here’s some information about its size. 

The Hercules-Corona Borealis Great Wall is about 10 billion light-years wide, which is 10% of the observable universe’s diameter. It’s also about two times larger than the previous largest known structure, the Huge-LQG. 

The wall’s size contradicts the cosmological principle, which states that no structure can be larger than 1.2 billion light-years. The wall is eight times larger than this limit. 

The wall was discovered in 2013 by a team of astronomers. They analyzed data from the Swift Gamma-Ray Burst Mission and other ground-based telescopes. The data showed an unusually high concentration of gamma-ray bursts in the direction of the Hercules and Corona Borealis constellations

The team of astronomers discovered the Hercules-Corona Borealis Great Wall by analyzing data from the Swift Gamma-Ray Burst Mission. The mission’s robotic satellites, Swift and Fermi, map gamma-ray bursts and measure their redshifts. 

The astronomers recorded 283 gamma-ray bursts and divided them into groups based on their redshift. They noticed that 19 of the 31 gamma-ray bursts in one sample were concentrated in the 2nd, 3rd, and 4th galactic quadrants. 14 of these were concentrated over about 45 degrees of the sky, which equates to approximately 10 billion light years. 

The team announced the discovery at the 7th Huntsville Gamma-Ray Burst Symposium.

The Hercules–Corona Borealis Great Wall is 10 billion light-years away from Earth. This means that the light we see from the structure is 10 billion years old. 

The wall’s distance starts at 4.65 billion parsec and ends at 5.47 billion parsec. This gives it a depth of about 800 million parsec

The James Webb Space Telescope (JWST) has made several discoveries at the edge of the universe: 

• Hercules Corona Borealis Great Wall This wall is so large that it violates the laws of physics and shouldn’t exist. 
• Six enormous galaxies These galaxies were as mature as our own, existing between 500 and 700 million years after the big bang. 
• Most distant supermassive black hole This black hole is estimated to be 90 million times the mass of our Sun. It formed 570 million years after the big bang. 
• Giant black holes The JWST has found an unexpected abundance of giant black holes in the early universe. 
• Signs of water on habitable-zone exoplanet This exoplanet is 8.6 times as massive as Earth and orbits the cool dwarf star K2-18. 

The JWST orbits the sun 1.5 million kilometers (1 million miles) away from Earth.

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