Massimo Luciani

The Cygnus cargo spacecraft captured by the Canadarm2 robotic arm on NG-21 mission (Image NASA TV)

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Northrop Grumman’s Cygnus spacecraft, launched last Sunday, August 4, has just reached the International Space Station and was captured by the Canadarm2 robotic arm. Astronaut Matthew Dominick, assisted by his colleague Jeanette Epps, will soon begin the slow maneuver to move the Cygnus until it docks with the Station’s Unity module after about two hours.

The Cygnus cargo spacecraft arrived on schedule despite some issues with a thruster burn that was scheduled to occur about 45 minutes after separation from SpaceX’s Falcon 9 rocket’s last stage. Initial reports indicated that the onboard computer had canceled the burn due to low pressure within the engine systems. Northrop Grumman engineers were able to compensate for the issue with a new burn schedule after reviewing pressure data and determining that it was still acceptable for the thrusters to work.

Cygnus cargo spacecraft blasting off atop a SpaceX Falcon 9 rocket (Image NASA TV)

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A little while ago, Northrop Grumman’s Cygnus spacecraft blasted off atop a SpaceX Falcon 9 rocket from the Kennedy Space Center on its NG-21 or CRS NG-21 mission. After about 15 minutes, it successfully separated from the rocket’s last stage and set on its course. This is the second of at least three resupply missions to the International Space Station with various payloads launched using the Falcon 9 rocket while waiting for the new version of Northrop Grumman’s Antares rocket to be ready.

An image of the asteroid Dimorphos (a) with a magnified area (b) that was analyzed in one of the articles and a mapping of the fractures of the boulders (c)

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Five articles published in the journal “Nature Communications” report different analyses of data collected by NASA’s DART spacecraft and the Italian Space Agency’s LICIACube nanosatellite that accompanied it on its mission that ended with the collision with Dimorphos, a small satellite asteroid of Didymos, which occurred on September 26, 2022. Various teams of researchers with members in common offered possible reconstructions of the processes that led to the formation of the pair of asteroids and their characteristics. These studies are connected to the defense of the Earth from asteroid impacts.

The three primordial galaxies (Image courtesy JWST/NIRSpec, Bingjie Wang/Penn State)

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An article published in “The Astrophysical Journal Letters” reports the results of the study of three very compact primordial galaxies with characteristics that can’t be explained by current cosmological models. A team led by researchers from Penn State University used observations conducted with the James Webb Space Telescope within the RUBIES survey to examine three objects that were considered mysterious for their strange characteristics.

In an article published in the journal “Nature” the researchers had already proposed that those were galaxies, and the new examination of the data confirms that. We see them as they were when the universe was between 600 and 800 million years old but their emissions indicate that they contain stars that are already relatively old and supermassive black holes with masses that were already enormous, perhaps more than the one at the center of the Milky Way.

The Cheyava Falls Rock Found on Mars (Image NASA/JPL-Caltech/MSSS)

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NASA’s Mars Rover Perseverance discovered a rock that contains chemical signatures and structures that might have been created by ancient Martian life forms. The rock, nicknamed Cheyava Falls, was found in Neretva Vallis during Perseverance’s journey inside Jezero Crater on Mars and was examined with the SHERLOC (Scanning Habitable Environments with Raman & Luminescence for Organics & Chemicals) instrument. The rock contains organic compounds, but it’s currently not possible to rule out that they formed through non-biological processes. The PIXL (Planetary Instrument for X-ray Lithochemistry) instrument detected iron and phosphates in black halos on the rock.