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NASA Released The Sounds Of A Black Hole 200 Million Light-Years Away

 Any Xenomorph-fearing 'Alien' fan will tell you that sound doesn't exist in space. The thing is, that's not completely true.

Back in May, during black hole week, NASA released an eerie sound clip of a black hole showing that space does make a lot of noise, depending on where you look, and how you process it.

The clip presents the sounds of a massive black hole located more than 200 million light-years away from Earth in the Perseus galaxy cluster.

The Perseus galaxy cluster is an 11 million-light-year-wide grouping of galaxies enveloped in hot gas. Those clouds of hot gas are the key to the sound waves you can hear in the clip shared by NASA (embedded below). Decades ago, scientists discovered that pressure waves emanate from Perseus' interior. These waves ripple through the hot gas surrounding the galaxy cluster, and these waves can be translated into sound.

Sounds on Earth occur when sound waves vibrate atoms and molecules in the air. In space, things are somewhat different. Space is a vacuum, meaning vibrations don't have any air to vibrate and make noise in. Crucially though, that doesn't mean the vibrations aren't there. That's the principle the NASA scientists put into effect for their sound clip.

In the case of Perseus' black hole, the cosmic giant is so close to the cluster's gas clouds that it can create sound wave vibrations in the form of gas ripples. In 2003, a team of astronomers from NASA's Chandra X-ray Observatory took astronomical data of these ripples and translated them into sounds. Unfortunately, those sounds were a massive 57 octaves below middle C, meaning they couldn't be heard by human ears.


Remixed black hole sounds

To make the sounds in the new clip audible to the human ear, NASA scaled the sound data up by 57 and 58 octaves so we can all listen to the massive black hole at the center of the Perseus galaxy cluster. In a blog post, NASA wrote that the sound waves "are being heard 144 quadrillions and 288 quadrillion times higher than their original frequency."




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