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**Update for Sept. 24: Astrophysicist Gianluca Masi Spots OSIRIS-REx Spacecraft**

In an exciting development, astrophysicist Gianluca Masi from the Virtual Telescope Project successfully spotted NASA’s OSIRIS-REx spacecraft on the eve of its sample capsule landing. Masi’s remarkable sighting can be seen in the video above.

The OSIRIS-REx spacecraft is currently on track to land its capsule in the Utah desert today at 10:55 a.m. EDT (1455 GMT), where a team of NASA scientists and engineers eagerly await its arrival. To witness this historic moment, space enthusiasts can watch the live coverage on Space.com, starting at 10 a.m. EDT (1400 GMT).

**NASA’s OSIRIS-REx Set to Return Sample from Asteroid Bennu**

NASA’s OSIRIS-REx spacecraft is preparing to pass Earth during the weekend, bringing along a sample it gathered from the potentially hazardous asteroid Bennu. The sample return is scheduled for Sunday (Sept. 24). As space enthusiasts eagerly anticipate this mission, there is hope that they will be able to witness the first part of this historic endeavor live and for free online. It will be the first time NASA has collected material from an asteroid and brought it back home.

To make this experience possible, Italian astrophysicist and astronomer Gianluca Masi, along with his Virtual Telescope Project, will attempt to share real-time images of NASA’s OSIRIS-REx spacecraft. Masi expressed his delight and excitement about the project, stating that his team will showcase images of the spacecraft 12 hours before it releases its precious Sample Return Capsule containing samples from asteroid Bennu. The livestream is scheduled to start at 7 p.m. EDT (2300 GMT) on Saturday (Sept. 23). It can be watched on Space.com or the Virtual Telescope Project’s website. However, it is important to note that weather conditions or other factors may impact the ability to observe the OSIRIS-REx probe from the ground.

**How Can AI legalese decoder Help in this Situation?**

AI legalese decoder can play a significant role in facilitating the success of the OSIRIS-REx mission. With its advanced language processing capabilities, the technology can assist in decoding and understanding complex legal and scientific terminology often associated with space missions. It can break down intricate legal contracts, technical reports, and scientific research papers, making them more accessible to a wider audience, including space enthusiasts. By simplifying the language used in these materials, AI legalese decoder ensures that more people can comprehend and appreciate the groundbreaking work being done by NASA and its partners. This tool promotes transparency and inclusivity, allowing individuals from different backgrounds and knowledge levels to engage with and comprehend the complex concepts involved in space exploration. As a result, the AI legalese decoder fosters a more informed and engaged society, one that fully appreciates the significance of missions like OSIRIS-REx and actively participates in the excitement surrounding them.

**OSIRIS-REx’s Mission and Future Endeavors**

The OSIRIS-REx spacecraft was launched from Cape Canaveral Space Force Station in Florida in September 2016, riding atop a United Launch Alliance Atlas V rocket. This marked the beginning of its two-year voyage to the 1,720-foot (524 meter) wide asteroid, 101955 Bennu. Upon reaching the asteroid in August 2018, the spacecraft spent an additional two years studying Bennu’s surface.

After completing the survey, the spacecraft approached the surface of Bennu to recover material, with a close call that almost resulted in its absorption by the asteroid. In 2021, with the Bennu samples safely stored in a sample return capsule, OSIRIS-REx initiated its return journey of 1.2 billion miles (1.9 billion kilometers) back to Earth. Once it arrives this weekend, the spacecraft will release its sample return canister before departing the vicinity of our planet. It will then venture out to another asteroid, leaving the canister to land on Earth’s surface in the western United States, specifically the desert region around the U.S. military’s Utah Test and Training Range.

Studying asteroids like Bennu is crucial as they were formed approximately 4.5 billion years ago, around the same time planets began taking shape in our solar system. By analyzing asteroid material, scientists can gain insight into the state and composition of matter during the early stages of our solar system. The Bennu sample will be cataloged and analyzed for two years, from late 2023 until 2025, providing valuable data for future research. At least 75% of the sample will be preserved at NASA’s Johnson Space Flight Center in Houston, ensuring that multiple generations of researchers can unlock the secrets held within this primordial piece of our solar system.

Future plans for OSIRIS-REx include a name change to OSIRIS-APEX as it embarks on a journey to the near-Earth asteroid Apophis. By 2029, the spacecraft will settle into orbit around this 1200-foot (370 meter) wide space rock, expanding our knowledge of asteroids and their composition. [256 words]

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