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Week in images: 21-25 April 2025
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By NASA
What does the future of space exploration look like? At the 2025 FIRST Robotics World Championship in Houston, NASA gave student robotics teams and industry leaders a first-hand look—complete with lunar rovers, robotic arms, and real conversations about shaping the next era of discovery.
Students and mentors experience NASA exhibits at the 2025 FIRST Robotics World Championship at the George R. Brown Convention Center in Houston from April 16-18. NASA/Sumer Loggins NASA engaged directly with the Artemis Generation, connecting with more than 55,000 students and 75,000 parents and mentors. Through interactive exhibits and discussions, students explored the agency’s robotic technologies, learned about STEM career paths and internships, and gained insight into NASA’s bold vision for the future. Many expressed interest in internships—and dreams of one day contributing to NASA’s missions to explore the unknown for the benefit of all humanity.
Multiple NASA centers participated in the event, including Johnson Space Center in Houston; Jet Propulsion Laboratory in Southern California; Kennedy Space Center in Florida; Langley Research Center in Virginia; Ames Research Center in California; Michoud Assembly Facility in New Orleans; Armstrong Flight Research Center in Edwards, California; Glenn Research Center in Cleveland; Goddard Space Flight Center in Greenbelt, Maryland; and the Katherine Johnson Independent Verification and Validation Facility in West Virginia. Each brought unique technologies and expertise to the exhibit floor.
FIRST Robotics attendees explore NASA’s exhibit and learn about the agency’s mission during the event.NASA/Robert Markowitz Displays highlighted key innovations such as:
Automated Reconfigurable Mission Adaptive Digital Assembly Systems: A modular system of small robots and smart algorithms that can autonomously assemble large-scale structures in space. Cooperative Autonomous Distributed Robotic Exploration: A team of small lunar rovers designed to operate independently, navigating and making decisions together without human input. Lightweight Surface Manipulation System AutoNomy Capabilities Development for Surface Operations and Construction: A robotic arm system built for lunar construction tasks, developed through NASA’s Early Career Initiative. Space Exploration Vehicle: A pressurized rover prototype built for human exploration of planetary surfaces, offering attendees a look at how future astronauts may one day travel across the Moon or Mars. Mars Perseverance Rover: An exhibit detailing the rover’s mission to search for ancient microbial life and collect samples for future return to Earth. In-Situ Resource Utilization Pilot Excavator: A lunar bulldozer-dump truck hybrid designed to mine and transport regolith, supporting long-term exploration through the Artemis campaign. Visitors view NASA’s Space Exploration Vehicle on display.NASA/Robert Markowitz “These demonstrations help students see themselves in NASA’s mission and the next frontier of lunar exploration,” said Johnson Public Affairs Specialist Andrew Knotts. “They can picture their future as part of the team shaping how we live and work in space.”
Since the FIRST Championship relocated to Houston in 2017, NASA has mentored more than 250 robotics teams annually, supporting elementary through high school students. The agency continued that tradition for this year’s event, and celebrated the fusion of science, engineering, and creativity that defines both robotics and space exploration.
NASA’s booth draws crowds at FIRST Robotics 2025 with hands-on exhibits. NASA/Robert Markowitz Local students also had the chance to learn about the Texas High School Aerospace Scholars program, which offers Texas high school juniors hands-on experience designing space missions and solving engineering challenges—an early gateway into NASA’s world of exploration.
As the competition came to a close, students and mentors were already looking ahead to the next season—energized by new ideas, strengthened friendships, and dreams of future missions.
NASA volunteers at the FIRST Robotics World Championship on April 17, 2025. NASA/Robert Markowitz “It was a true privilege to represent NASA to so many inspiring students, educators, and mentors,” said Jeanette Snyder, aerospace systems engineer for Gateway. “Not too long ago, I was a robotics student myself, and I still use skills I developed through FIRST Robotics in my work as a NASA engineer. Seeing so much excitement around engineering and technology makes me optimistic for the future of space exploration. I can’t wait to see these students become the next generation of NASA engineers and world changers.”
With the enthusiastic support of volunteers, mentors, sponsors, and industry leaders, and NASA’s continued commitment to STEM outreach, the future of exploration is in bold, capable hands.
See the full event come to life in the panorama videos below.
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By NASA
Explore This Section Earth Earth Observer Editor’s Corner Feature Articles Meeting Summaries News Science in the News Calendars In Memoriam More Archives Conference Schedules Style Guide 2 min read
2025 EGU Hyperwall Schedule
EGU General Assembly, April 27 – May 2, 2025
Join NASA in the Exhibit Hall (Booth #204) for Hyperwall Storytelling by NASA experts. Full Hyperwall Agenda below.
MONDAY, APRIL 28
10:15 – 10:30 AM —— PACE —— Ivona Cetinic 3:45 – 4:00 PM —— Science Explorer (SciX): Accelerating the Discovery of NASA Science —— Mike Kurtz 4:00 – 4:15 PM —— Juno’s Extended Vision in its Extended Mission —— Glenn Orton 6:05 – 6:20 PM —— Getting the Big Picture with Global Precipitation —— George Huffman 6:20 – 6:35 PM —— Exploring Europa with Europa Clipper —— Jonathan Lunine TUESDAY, APRIL 29
10:15 – 10:30 AM —— Science Explorer (SciX): Accelerating the Discovery of NASA Science —— Jennifer Lynn Bartlett 10:30 – 10:45 AM —— From ESTO to PACE, A CubeSat’s Journey to Space —— Brent McBride 12:30 – 2:00 PM —— Ask Me Anything with NASA Scientists —— Informal Office Hours 3:45 – 4:00 PM —— Exoplanets (Virtual) —— Jonathan H. Jiang 4:00 – 4:15 PM —— Scattering of Realistic Hydrometeors for Precipitation Remote Sensing ——Kwo-Sen Kuo 6:05 – 6:20 PM —— Space Weather Center of Excellence CLEAR: All-CLEAR SEP Forecast —— Lulu Zhao WEDNESDAY, APRIL 30
10:15 – 10:30 AM —— SPEXone on PACE: First year in Orbit —— Otto Hasekamp 12:30 – 2:00 PM —— Ask Me Anything with NASA Scientists —— Informal Office Hours 3:45 – 4:00 PM —— Science Explorer (SciX): Accelerating the Discovery of NASA Science —— Jennifer Lynn Bartlett 4:00 – 4:15 PM —— Scattering of Realistic Hydrometeors for Precipitation Remote Sensing ——Kwo-Sen Kuo 6:05 – 6:20 PM —— Ship Tracks Tell the Story of Climate Forcing by Aerosols through Clouds —Tianle Yuan 6:20 – 6:35 PM —— The Excitement of Mars Exploration —— Jonathan Lunine 6:35 – 6:50 PM —— Using NASA Earth Observations for Disaster Response —— Kristen Okorn THURSDAY, MAY 1
10:15 – 10:30 AM —— Getting the Big Picture with Global Precipitation —— George Huffman 3:45 – 4:00 PM —— PACE —— Morgaine McKibben 4:00 – 4:15 PM —— Using AI to Model Global Clouds Better Than Current GCRMs —— Tianle Yuan 6:05 – 6:20 PM —— Science Explorer (SciX): Accelerating the Discovery of NASA Science —— Mike Kurtz Share
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Last Updated Apr 24, 2025 Related Terms
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By NASA
The asteroid Donaldjohanson as seen by the Lucy Long-Range Reconnaissance Imager (L’LORRI). This is one of the most detailed images returned by NASA’s Lucy spacecraft during its flyby. This image was taken at 1:51 p.m. EDT (17:51 UTC), April 20, 2025, near closest approach, from a range of approximately 660 miles (1,100 km). The spacecraft’s closest approach distance was 600 miles (960 km), but the image shown was taken approximately 40 seconds beforehand. The image has been sharpened and processed to enhance contrast.NASA/Goddard/SwRI/Johns Hopkins APL/NOIRLab NASA’s Lucy spacecraft took this image of the main belt asteroid Donaldjohanson during its flyby on April 20, 2025, showing the elongated contact binary (an object formed when two smaller bodies collide). This was Lucy’s second flyby in the spacecraft’s 12-year mission.
Launched on Oct. 16, 2021, Lucy is the first space mission sent to explore a diverse population of small bodies known as the Jupiter Trojan asteroids. These remnants of our early solar system are trapped on stable orbits associated with – but not close to – the giant planet Jupiter. Lucy will explore a record-breaking number of asteroids, flying by three asteroids in the solar system’s main asteroid belt, and by eight Trojan asteroids that share an orbit around the Sun with Jupiter. April 20, 2025 marked Lucy’s second flyby. The spacecraft’s next target is Trojan asteroid Eurybates and its satellite Queta in Aug. 2027.
Lucy is named for a fossilized skeleton of a prehuman ancestor. This flyby marked the first time NASA sent a spacecraft to a planetary body named after a living person. Asteroid Donaldjohanson was unnamed before becoming a target. The name Donaldjohanson was chosen in honor of the paleoanthropologist who discovered the Lucy fossil, Dr. Donald Johanson.
Learn more about Lucy’s flyby of asteroid Donaldjohanson.
Image credit: NASA/Goddard/SwRI/Johns Hopkins APL/NOIRLab
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