NASA this week shared an audio clip on social media that allows you to "hear" a black hole.

No surprise, the sound is terrifying.

NASA Exoplanets, a team at the agency focused on planets and other information outside of our solar system, tweeted the 34-second clip on Sunday and said there's a "misconception" that there is no sound in space.

But they explained that "A galaxy cluster has so much gas that we've picked up actual sound. Here it's amplified, and mixed with other data, to hear a black hole."

You wouldn't be able to hear what a black hole really sounds like

NASA initially released the so-called "sonification" earlier this year, explaining that researchers have "associated" the black hole in the Perseus galaxy cluster with sound since 2003.

"This is because astronomers discovered that pressure waves sent out by the black hole caused ripples in the cluster's hot gas that could be translated into a note—one that humans cannot hear some 57 octaves below middle C," NASA confirmed in a news release.

The signals "are being heard 144 quadrillion and 288 quadrillion times higher than their original frequency," NASA added.

A sounding rocket launch testing science instruments for future missions was successfully conducted at 9:16 p.m. EDT, Aug. 23, 2022, from NASA's Wallops Flight Facility in Virginia.

The Terrier-Improved Malemute carried the Sporadic-E ElectroDynamics Demonstration mission, or SpEED Demon, to an apogee of 100 miles before descending and landing in the Atlantic Ocean. The experiment was not planned to be recovered.

The purpose of the SpEED Demon mission was to test new instrumentation along with heritage instruments that have flown on other sounding rocket missions, but not together.

The SpEED Demon instruments will be further improved based on results from this launch and will subsequently fly on a science mission targeted for summer 2024 from the Kwajalein Atoll in the Marshall Islands and possibly many other sounding rocket opportunities.

"This was an excellent mission. Preliminary analysis shows that we flew through a Sporadic E event on the downleg and the data looks great. We'll be looking at the performance of all instruments to get us ready for the 2024 launch," said Aroh Barjatya, SpEED Demon principal investigator and director of the Space and Atmospheric Instrumentation Lab at Embry-Riddle Aeronautical University in Daytona Beach, Florida.

NASA's Artemis missions are returning humanity to the Moon and beginning a new era of lunar exploration. Soon, the agency plans to launch the Artemis I mission, an uncrewed flight test that will take a human-rated spacecraft farther than any before.

Although uncrewed, Artemis I will test essential systems for future crewed missions to the lunar region, including the first-ever launch of NASA's most powerful rocket, the Space Launch System (SLS). The SLS rocket will launch from NASA's Kennedy Space Center in Cape Canaveral, Florida, and enter a complex orbit to bring the Orion spacecraft to the Moon.

It's been 50 years since humans last visited the moon, and even robotic missions have been few and far between. But the Earth's only natural satellite is about to get crowded.

At least six countries and a flurry of private companies have publicly announced more than 250 missions to the moon to occur within the next decade. Many of these missions include plans for permanent lunar bases and are motivated in large part by ambitions to assess and begin utilizing the moon's natural resources. In the short term, resources would be used to support lunar missions, but in the long term, the moon and its resources will be a critical gateway for missions to the broader riches of the solar system.

But these lofty ambitions collide with a looming legal question. On Earth, possession and ownership of natural resources are based on territorial sovereignty.

NASA's Scientific Balloon Program is moving full-steam ahead into the fall 2022 campaign with six scientific, engineering, and student balloon flights supporting 17 missions. The flights are scheduled to launch from Fort Sumner, New Mexico, from mid-August through mid-October.

With one balloon already off the ground, a test flight carrying several different technology payloads and other piggyback missions, the team hopes to launch the five remaining balloons by the end of the launch window in support of multiple science and technology initiatives.

"Our balloon platforms can lift several thousand pounds to the edge of space, allowing for multiple, various scientific instruments, technologies, and education payloads to fly together on one balloon flight," said Debbie Fairbrother, Scientific Balloon Program chief at NASA's Wallops Flight Facility in Virginia.

Some of the science missions flying this campaign include the BALloon-Based Observations for sunlit Aurora (BALBOA), testing a wide-view infrared camera designed to study daytime auroras; the Planetary Imaging Concept Testbed Using a Recoverable Experiment—Coronagraph (PICTURE-C) mission that will directly image and characterize dust and debris orbiting nearby stars with the possibility of detecting bright, gas giant planets outside our solar system using a telescope; the TinMan mission hopes to better understand the effects of thermal neutrons in Earth's atmosphere on aircraft electronics; and the 16th High-Altitude Student Platform (HASP) mission that will fly 12 student-built payloads.