Intuitive Machines is taking its shot at nailing the first commercial moon landing

Houston-based space company Intuitive Machines is gearing up for an actual moonshot at the end of this month, when it’ll try to land a spacecraft named Odysseus on the lunar surface — ideally without it breaking in the process. The mission follows Astrobotic’s unsuccessful attempt in January; that company’s lander, Peregrine, never made it to the moon due to a propellant leak that cut its journey short. Peregrine’s failure means Intuitive Machines’ IM-1 mission could be the first ever commercial moon landing if it makes it there intact.

Intuitive Machines is hoping to make its landing attempt on February 22, targeting the Malapert A crater near the moon’s south pole for touchdown. This arrival date is dependent on Odysseus, one of the company’s Nova-C class landers, leaving Earth atop a SpaceX Falcon 9 rocket sometime between February 14 and February 16. The launch window opens at 12:57AM ET on Wednesday.

Odysseus is the first of three Nova-C landers Intuitive Machines plans to send to the moon this year, all of which will have commercial payloads on board and NASA instruments as contracted under the agency’s Commercial Lunar Payload Services (CLPS) program. At 14 feet tall (4.3 meters), the lander is roughly the size of a giraffe and can carry about 280 pounds (130kg) of cargo. Its mission, if it nails a soft landing, will be a short but potentially valuable one for informing future excursions to the region, including NASA’s upcoming crewed Artemis missions. Orbiting probes have found evidence of water ice at the lunar south pole, which could be used for astronaut subsistence and even fuel, making it an area of high interest for human exploration.

The lunar southpole
NASA

The solar-powered craft and any functional equipment it’s carrying are only expected to be in working condition for about a week before the onset of lunar night, a 14-day period of frigid darkness that the company says will leave the lander inoperable. But while everything’s up and running, the various instruments will gather data at the surface. NASA awarded Intuitive Machines a $77 million contract for the delivery of its payloads back in 2019, and there are six NASA instruments now hitching a ride on Odysseus.

One, the Laser Retroreflector Array (LRA), will “function as a permanent location mark” from its position on the moon after landing to help incoming spacecraft determine their distance from the surface, according to NASA. The lander is also carrying the Navigation Doppler LIDAR for Precise Velocity and Range Sensing (NDL), a sensor that measures velocity and altitude to better guide the descent, and the Lunar Node 1 Navigation Demonstrator (LN-1) to support communication and autonomous navigation in future missions.

NASA is also sending instruments to study surface plumes — everything that gets kicked up when the lander touches down — along with radio waves and the effects of space weather. That includes the Stereo Cameras for Lunar Plume-Surface Studies (SCALPSS), which will capture images of these dust plumes, and the Radio wave Observation at the Lunar Surface of the photoElectron Sheath (ROLSES) instrument.

The rest of the payloads on board Odysseus are commercial. Columbia Sportswear worked with Intuitive Machines to incorporate the brand’s Apollo-inspired Omni-Heat Infinity thermal reflective material, which is being used for this mission to help protect the cryogenic propulsion tank, according to Intuitive Machines. Students at Embry-Riddle Aeronautical University developed a camera system dubbed the EagleCam that will attempt to separate from the lander before it touches down and snap a picture of the moment from a third-person point of view. EagleCam is also equipped with an experimental dust-removal system.

Intuitive Machines' Odysseus Nova-C lander is pictured in front of an American flag in a dimly lit warehouse room
Intuitive Machines

There are even some Jeff Koons sculptures heading to the moon, which will have physical and NFT counterparts back on Earth. In Koons’ Moon Phase piece, 125 small stainless steel sculptures of the moon at different phases are encased in a clear cube made by 4Space, with the names of important historical figures from around the world listed below each sphere. The International Lunar Observatory Association, based in Hawaii, and Canadensys Aerospace are sending a 1.3-pound dual-camera system called ILO-X, with which they’ll attempt to capture wide and narrow field images of the Milky Way from the moon.

Odysseus is also carrying small discs called “Lunagrams” from Galactic Legacy Labs that contain messages from Earth, including text, images, audio and archives from major databases such as the Arch Mission Foundation and the English-language version of Wikipedia. Similar archival materials were sent to space with Peregrine last month. The information technology company Lonestar plans to demonstrate its Disaster Recovery as a Service (DRaaS) by storing data on the lander and transmitting documents ( including the US Declaration of Independence) between Earth and the moon. It’ll follow this up with a prototype mini data center on Intuitive Machines’ next launch.

Now, the pressure is on for the Odysseus Nova-C lander to actually get to the lunar surface safely. This year started off rocky for moon missions, with the failure of Astrobotic’s Peregrine and a descent hiccup that caused JAXA’s SLIM spacecraft to faceplant into the lunar surface (though the latter was miraculously able to resume functions to some degree after a few days). Intuitive Machines will have other chances to get it right if it doesn’t this time — it has multiple missions already booked up — but only one private lander can be “first.”

This article originally appeared on Engadget at https://www.engadget.com/intuitive-machines-is-taking-its-shot-at-nailing-the-first-commercial-moon-landing-170024349.html?src=rss

Japan’s SLIM lunar probe returns to life more than a week after landing upside down

Japan's lunar lander has regained power a full nine days after it landed on the moon's surface nearly upside down and was subsequently switched off, JAXA (Japan Aerospace Exploration Agency) announced. A change in the sun's position allowed the solar panels to receive light and charge the probe's battery, allowing JAXA to re-establish communication. 

Things were looking dire shortly after the SLIM (Smart Lander for Investigating Moon) touched down. The agency immediately noticed a problem with power generation, but was able to launch a pair of probes onto the moon's surface. The Lunar Excursion Vehicle 2 (LEV-2) snapped an incredible photo of SLIM, showing it to be upside down with its panels pointing away from the sun. The cause was found to be a malfunction of the main engine.

JAXA thought there was a chance the probe could recover once the sun's rays pointed more toward the solar panels, and that's exactly what transpired. Shortly after power was regained, it snapped another picture of a previously imaged rock formation called "toy poodle" using a multi-band spectral camera. The team is also targeting several other rocks with canine-themed names, including "St. Bernard," "Bulldog" and "Shibainu."

The upside-down landing may have seemed like an unrecoverable fault, but it looks like the mission can now proceed more or less as planned. While the baseball-sized LEV-2 explores the surface (relaying data via the LEV-1 probe, which also has two cameras), SLIM will grab whatever science it can. 

In any case, the mission was already deemed a success, as the primary goal was a precision landing. It did just that, hitting a spot just 55 meters (180 feet) of its target. It's not known how much longer SLIM can function, as it was never designed to survive a solar night and the next one happens on Thursday. 

This article originally appeared on Engadget at https://www.engadget.com/japans-slim-lunar-probe-returns-to-life-more-than-a-week-after-landing-upside-down-124507467.html?src=rss

Japan’s SLIM lunar spacecraft landed upside down on the moon

Shortly after Japan’s space agency became the fifth country to land a spacecraft on the surface of the moon, its scientists discovered the Smart Lander for Investigating Moon (SLIM) unfortunately touched down upside down. The Japan Aerospace Exploration Agency (JAXA) said that the SLIM landed on the lunar surface on January 20 but it knew it might have bigger problems due to an issue with power generation. Just hours after making landfall, JAXA expected the power to run out, before it ultimately did.

SLIM met the moon’s surface about 55 meters east of the original target landing site, JAXA said. The agency did get all of the technical information related to its navigation prior to landing and ultimately becoming stationary on the lunar surface. JAXA captured photos of the SLIM from its The Lunar Excursion Vehicle 2, its fully autonomous robot currently exploring the moon.

The reason behind the main engine malfunctioning is under investigation by the space agency. There is a slim chance for regeneration because the solar cells that power the spacecraft are facing west, meaning there is a chance for SLIM recovery if enough light from the sun reaches the cells as more time passes. The SLIM JAXA team took to X earlier this week to write, “We are preparing for recovery.” The agency said it will “take the necessary preparations to gather more technical and scientific data from the spacecraft.

This article originally appeared on Engadget at https://www.engadget.com/japans-slim-lunar-spacecraft-landed-upside-down-on-the-moon-202819728.html?src=rss

NASA’s Ingenuity helicopter has gone silent on Mars

NASA is trying to figure out how to reach its Ingenuity Mars helicopter after losing contact with the craft earlier this week. During its 72nd flight — a “quick pop-up” to an altitude of about 40 feet — NASA says Ingenuity stopped communicating with the Perseverance rover before it was meant to. It went quiet on Thursday, and as of Friday afternoon, NASA still hadn’t heard from it.

Perseverance serves the go-between for all communications to and from the helicopter; Ingenuity sends information to Perseverance, which then passes it on to Earth, and vice versa. According to NASA, the small helicopter completed the ascent as planned, but ceased communications while on its way back down. “The Ingenuity team is analyzing available data and considering next steps to reestablish communications with the helicopter,” NASA said in a status update on Friday. Ingenuity had previously ended a flight earlier than it was supposed to, and Thursday’s jaunt was meant to “check out the helicopter’s systems.”

Ingenuity has been on the red planet since 2021, when it arrived with the Perseverance rover. And it’s far exceeded its mission goals. NASA originally hoped the experimental helicopter would be able to complete a handful of flights. It went on to fly more than 20 times within its first year in operation. The space agency officially extended its mission in 2022, and it’s since executed dozens more more successful flights. Ingenuity is the first aircraft to take flight from the surface of Mars.

This article originally appeared on Engadget at https://www.engadget.com/nasas-ingenuity-helicopter-has-gone-silent-on-mars-195746735.html?src=rss

Scientists extract the sharpest image of a black hole yet

Black holes are one of the most powerful forces in the universe, but we had never seen one until the Event Horizon Telescope (EHT) team released the first image back in 2019. Now, the EHT Collaboration has released the most detailed image yet of the same M87 black hole, created with the aid of an additional telescope and independent data from 2018, that better displays the insane physics behind these supermassive objects. 

The first image was captured in 2017 (it takes a long time to process the data) using eight high-altitude telescopes from locations including Chile and Antarctica. The complex technique required the synchronization of atomic clocks, use of the Earth's rotation and processing of petabytes of RAW telescope data. The result was slightly fuzzy, but clearly showed the expected "donut" with the black hole at the center and accretion disk made of matter inhaled from nearby stars. 

However, the EHT collaboration captured another image a year later using an additional telescope in Greenland. That "significantly" improved the image fidelity, particularly in the north-south direction, according to the EHT. One of the original platforms, The Large Millimeter Telescope, also gained sensitivity by using its full 50 meter surface for the first time. The teams also introduced new data analysis techniques that boosted accuracy.

The result is a sharper and brighter image that also clearly shows the Doppler/Einstein effects that cause a black hole to appear to be brighter on one side. That bright spot actually shifted to the right between the capture of the two images. 

"The biggest change, that the brightness peak shifted around the ring, is actually something we predicted when we published the first results in 2019," said Dr. Britt Jeter from Taiwan's ASIAA. "While general relativity says the ring size should stay pretty fixed, the emission from the turbulent, messy accretion disk around the black hole will cause the brightest part of the ring to wobble around a common center. The amount of wobble we see over time is something we can use to test our theories for the magnetic field and plasma environment around the black hole."

The new image also shows that the science behind the image technique is sound and reproduceable. "Confirmation of the ring in a completely new data set is a huge milestone for our collaboration and a strong indication that we are looking at a black hole shadow and the material orbiting around it," said Dr. Keiichi Asada from ASIAA. 

The EHT Collaboration will continue to advance the science with new observations set for the first half of 2024. At that time, scientists hope to capture multiple images to create the first "video" of a black hole to show its chaotic movements. As before, it could take several years (and the participation of many scientists) to get the final result. 

This article originally appeared on Engadget at https://www.engadget.com/scientists-extract-the-sharpest-image-of-a-black-hole-yet-131003088.html?src=rss

Peregrine moon lander and its cargo will likely burn up in Earth’s atmosphere

It looks like the Peregrine lunar lander’s final resting place will be back at home where it started. The doomed spacecraft, which experienced an anomaly shortly after launch and has been leaking propellant ever since, is expected to burn up in Earth’s atmosphere, Astrobotic wrote in an update on X this weekend. The company plans to host a press conference with NASA on Thursday January 18 at 12PM ET to discuss the lander’s fate.

Peregrine has so far hung on much longer than anyone thought it would after the leak was first detected on January 8, and Astrobotic has been posting round-the-clock status updates. The company days ago ruled out a soft landing on the moon’s surface, but there’s been some uncertainty about where exactly it’ll end up. Peregrine did manage to make it to lunar distance — reaching 238,000 miles from Earth on Friday and then 242,000 as of Saturday — but because of where the moon currently is in its orbit, nothing was there to meet it.

If all had gone according to plan, Peregrine would have met up with the moon about 15 days after launch, at which point it could begin the transition from Earth orbit to lunar orbit. It’s only been six days, and Peregrine’s dwindling fuel supply isn’t likely to carry it for nine more. “Our analysis efforts have been challenging due to the propellant leak, which have been adding uncertainty to predictions of the vehicle’s trajectory,” Astrobotic wrote in its most recent update on Saturday. “Our latest assessment now shows the spacecraft is on a path towards Earth, where it will likely burn up in the Earth’s atmosphere.”

It was always a known risk that Peregrine Mission One might end this way; moon landings are notoriously hard. The commercial mission marked the first of those contracted under NASA’s Commercial Lunar Payload Services (CLPS) program, and in a briefing ahead of last week’s launch, NASA’s CLPS Program Manager Chris Culbert said, “We recognize that success cannot be ensured.” 

This article originally appeared on Engadget at https://www.engadget.com/peregrine-moon-lander-and-its-cargo-will-likely-burn-up-in-earths-atmosphere-204002942.html?src=rss

Peregrine moon lander and its cargo will likely burn up in Earth’s atmosphere

It looks like the Peregrine lunar lander’s final resting place will be back at home where it started. The doomed spacecraft, which experienced an anomaly shortly after launch and has been leaking propellant ever since, is expected to burn up in Earth’s atmosphere, Astrobotic wrote in an update on X this weekend. The company plans to host a press conference with NASA on Thursday January 18 at 12PM ET to discuss the lander’s fate.

Peregrine has so far hung on much longer than anyone thought it would after the leak was first detected on January 8, and Astrobotic has been posting round-the-clock status updates. The company days ago ruled out a soft landing on the moon’s surface, but there’s been some uncertainty about where exactly it’ll end up. Peregrine did manage to make it to lunar distance — reaching 238,000 miles from Earth on Friday and then 242,000 as of Saturday — but because of where the moon currently is in its orbit, nothing was there to meet it.

If all had gone according to plan, Peregrine would have met up with the moon about 15 days after launch, at which point it could begin the transition from Earth orbit to lunar orbit. It’s only been six days, and Peregrine’s dwindling fuel supply isn’t likely to carry it for nine more. “Our analysis efforts have been challenging due to the propellant leak, which have been adding uncertainty to predictions of the vehicle’s trajectory,” Astrobotic wrote in its most recent update on Saturday. “Our latest assessment now shows the spacecraft is on a path towards Earth, where it will likely burn up in the Earth’s atmosphere.”

It was always a known risk that Peregrine Mission One might end this way; moon landings are notoriously hard. The commercial mission marked the first of those contracted under NASA’s Commercial Lunar Payload Services (CLPS) program, and in a briefing ahead of last week’s launch, NASA’s CLPS Program Manager Chris Culbert said, “We recognize that success cannot be ensured.” 

This article originally appeared on Engadget at https://www.engadget.com/peregrine-moon-lander-and-its-cargo-will-likely-burn-up-in-earths-atmosphere-204002942.html?src=rss

Peregrine spacecraft experiences ‘anomaly’ that could threaten moon landing

The Peregrine spacecraft has experienced an ‘anomaly’ that could endanger its planned moon landing, as reported by the BBC. Astrobotic, the private company behind the project, says this anomaly prevents the spacecraft from pointing its solar panels at the sun. In other words, the vehicle can’t charge its battery. Without power, the planned lunar landing for February might have to be canceled.

Astrobotic engineers are working the problem and will provide updates as they become available. The launch itself went off without a hitch early this morning, as the issue popped up during post-launch checks after communications had been established. The team behind the launch suggest the most likely cause of the anomaly is a problem with propulsion. Unfortunately, the engineers have a limited window of time to troubleshoot and fix the issue, as the spacecraft’s battery is currently “reaching operationally low levels.” There was a short comms breakdown, but it looks like that issue has been resolved.

The company has also stated that the propulsion issue led to a "critical loss of propellant." Astrobotic has planned for a wide variety of fault scenarios and could get everything squared away before too long, but it's looking less likely by the minute. The company says it's still trying to stabilize the propellant loss, but is investigating "alternative mission profiles" and trying to save as much science and data as it can. 

Peregrine is supposed to be the first American lunar lander to visit the moon in over 50 years. The United Launch Alliance’s new Vulcan Centaur rocket carried the craft out of the atmosphere. If it manages to touch down on the moon, Peregrine will become the first commercial craft to land on any planetary body outside of Earth.

Though not directly affiliated with NASA, the Peregrine launch is part of the space agency’s new Commercial Lunar Payload Services (CLPS) program. To that end, it’s supposed to deliver five payloads to the moon for NASA to help prepare for the upcoming Artemis missions. It’s also carrying a number of payloads for commercial clients at a cost of $1.2 million per kilogram. This cargo includes everything from mini rovers and science instruments to art collections and physical representations of cryptocurrency.

There’s also human remains on board, including the DNA of science fiction author Arthur C. Clarke. Peregrine is scheduled to land on the moon’s nearside, which faces Earth, on February 23, though that timeframe could change or disappear altogether. Ahead of the launch, CLPS Program Manager Chris Culbert acknowledged that a lunar landing was not guaranteed, stating that “landing on the moon is extremely difficult.”

This article originally appeared on Engadget at https://www.engadget.com/peregrine-spacecraft-experiences-anomaly-that-could-threaten-moon-landing-191221991.html?src=rss

Peregrine Mission 1 heralds the beginning of the moon’s commercialization

Hours before sunrise on Monday morning, United Launch Alliance’s brand spankin’ new Vulcan Centaur rocket is scheduled to make its maiden flight carrying a historic passenger: Peregrine, the first American lunar lander to be sent to the moon in over 50 years. And its mission could mark a turning point in humankind’s exploration of the cosmos. Peregrine is not a NASA spacecraft, but one developed by Pittsburgh-based Astrobotic, a private company. If it survives touchdown, Peregrine will be the first commercial craft to successfully land on the moon — or any planetary body outside of Earth, for that matter.

Astrobotic is among a small group of companies that have been selected to carry out lunar deliveries for the space agency over the next few years as part of NASA’s new Commercial Lunar Payload Services (CLPS) program. Peregrine Mission 1, expected to launch January 8 at 2:18AM ET, is the first of these operations under a $79.5 million contract with the space agency. But it’s a wholly commercial endeavor, and alongside the five payloads it’ll deliver for NASA to support the upcoming Artemis missions, Peregrine will have cargo for other clients on board too, at a cost of $1.2 million per kilogram (roughly 2.2 pounds). That includes mini rovers and science instruments, collections of art and archival material, a physical “bitcoin” and, controversially, human remains.

Peregrine is headed for the moon’s nearside, the hemisphere that is always facing Earth. The 6-foot-tall, 8-foot-wide lander will (hopefully) touch down softly in a region named Sinus Viscositatis — the “Bay of Stickiness” — for the mysterious domes there that are thought to have been formed long ago by thick silicic lava. These peculiar features, called Gruithuisen Domes, don’t match up with the surrounding basaltic terrain, nor is the moon home to the ingredients so far known to give rise to silicic volcanoes.

A graphic showing the path Peregrine will take to the moon
Astrobotic

“The formation of the domes is a scientific mystery we are still working to understand,” said CLPS project scientist Paul Niles in a briefing on Thursday ahead of the launch. Peregrine will land near the domes on a patch of lunar mare, or the dark features created by hardened basaltic lava flows that we can see from Earth. The NASA payloads on board consist of a Laser Retroreflector Array (LRA), Neutron Spectrometer System (NSS), Linear Energy Transfer Spectrometer (LETS), Near InfraRed Volatiles Spectrometer System (NIRVSS) and Peregrine Ion-Trap Mass Spectrometer (PITMS). These instruments will gather data to help characterize the local environment.

“Three of our instruments will collect data on lunar volatiles using different techniques,” Niles said. “Two instruments will provide perspectives on the radiation environment at the lunar surface, helping us better prepare to send crewed missions back to the moon. We'll also learn information about the composition of the surface by evaluating its mineralogy.” Later, NASA will send another suite of instruments to the summit of Gruithuisen Domes.

As far as science deliveries are concerned, Peregrine will also carry a payload for Agencia Espacial Mexicana (AEM), the Mexican Space Agency. Its fleet of five mini rovers, each measuring just shy of 5 inches wide, will be the first Latin American science instruments to make it to the surface of the moon, according to Astrobotic. Carnegie Mellon University’s 4-pound Iris rover is hitching a ride on Peregrine too, with plans to snap photos that it’ll send back home. And the German Aerospace Center (DLR) is sending its M-42 radiation detector, which is intended to measure how much radiation a human would be exposed to on a roundtrip mission to the moon.

Among the non-science payloads, ULA’s Vulcan Centaur and Peregrine will be ferrying small portions of human remains for the space memorial companies Celestis and Elysium Space. Celestis has two separate memorial destinations planned for the trip: one, “Tranquility,” will land on the moon with Peregrine, while another, “Enterprise,” will continue on to deep space with the Centaur upper stage after it separates from the lunar lander. Flights like these that go beyond Earth’s immediate vicinity start at just under $13,000, and potential clients are given the option to send up symbolic amounts of either human ashes or DNA.

The Peregrine lander seen in position to be encapsulated in the Vulcan Centaur rocket ahead of launch
Astrobotic/ULA

One of the luminaries whose DNA is headed to the lunar surface will be 2001: A Space Odyssey co-writer and science fiction author, Arthur C. Clarke. On the Enterprise flight are the remains of several key figures from the Star Trek franchise, including series creator Gene Roddenberry, his wife, Majel Barrett Roddenberry, and their son Eugene “Rod” Roddenberry, plus Nichelle Nichols (Lt. Uhura of the original series) and her son, Kyle Johnson. Elysium has been less forthcoming about whose remains it’ll be sending.

There’s been some backlash about the idea of turning the moon into a memorial site. Navajo Nation President Buu Nygren spoke out against the upcoming mission after hearing about the plan, calling it “tantamount to desecration” for the many cultures who consider the moon to be sacred, Arizona Public Radio reported.

In response to questioning led by Reuters’ Joey Roulette during the NASA briefing on Thursday, members of the space agency repeatedly reiterated that the decision of which payloads to fly fell solely on Astrobotic. “They don't have to clear those payloads with us,” CLPS Program Manager Chris Culbert said. “These are truly commercial missions. It's up to them to sell what they can sell.”

The issue highlights one of the potential downsides to relying on contractors, and it’ll undoubtedly rear its head again as NASA leans more heavily on the commercial industry for future missions. While NASA may not be in the position to approve what payloads are included alongside its own on commercial missions, Culbert added that the teams “obviously have a lot of discussions about how the payloads fit together.”

The rest of the 20 total payloads are a mix of mementos and items representing Earth and the achievements of humanity. Astrobotic partnered with DHL to curate a “moonbox” of keepsakes that will fly with Peregrine, including items such as photographs, literature and even a chunk of Mount Everest. Hungary’s Puli Space Technologies and the UK’s SpaceBit are sending plaques to the lunar surface, while the Japanese space company Astroscale has filled a “Lunar Dream Capsule” with “185,872 messages from children from around the world.”

In addition to its rover, Carnegie Mellon created what it’s calling the “first museum on the moon.” The University’s MoonArk project, a small cylinder made up of four chambers that contain “hundreds of images, poems, music, nano-objects, mechanisms and samples from Earth,” will remain on the Peregrine lander where it can be appreciated by future visitors along with the other stationary objects on board. Similarly, Peregrine will carry the Arch Mission Foundation’s Lunar Library 2, which it calls “an ultra-durable archive of humanity.” Wikipedia is in there, as well as other major collections of Earthly information and human languages.

And, there are two bitcoin projects going to the moon with Peregrine because crypto is, apparently, inescapable: a physical bitcoin engraved with its private key, from the Seychelles cryptocurrency exchange BitMEX; and US-based BTC Inc.’s Bitcoin Magazine Genesis Plate, which includes a copy of the first block of bitcoin ever mined.

Once Peregrine reaches lunar orbit, it’ll remain there for a few weeks before making its attempt to land on the surface. That’s expected to happen on February 23. Considering the US hasn’t put a lander on the moon since the days of the Apollo mission, it’s a pretty big deal. But, it’s risky business. When it comes to moon landings, there have been far more unsuccessful attempts than successful ones. “Landing on the moon is extremely difficult,” Culbert said during NASA’s briefing. “We recognize that success cannot be ensured.”

Regardless, NASA and its commercial partners aim to keep trying, and in close succession at that. Peregrine Mission 1 will be followed by the second of NASA’s CLPS missions in February, led by Intuitive Machines. After that, there are plans for at least four more CLPS lunar launches before the end of 2024.

This article originally appeared on Engadget at https://www.engadget.com/peregrine-mission-1-heralds-the-beginning-of-the-moons-commercialization-140038460.html?src=rss

Russia will assist NASA with ISS space flights through 2025

Russia and the United States have had a strained relationship, at best, in recent years. However, the pair are still working together in one regard: getting crews to the International Space Station (ISS). Roscosmos, Russia's federal space agency, has announced that the two countries will continue partnering on "cross-flights until 2025 inclusive."

Cross-flights involve putting crews from multiple countries onto the same spacecraft. Roscosmos intends always to have at least one of its own representatives in the Russia section of the ISS and at least one NASA representative in the US section. The agency added that the decision was made "to maintain the reliability of the ISS as a whole." The ISS, launched in 1998, is a symbol of US-Russia cooperation after the Cold War and the space race ended.

The news follows NASA's April 2023 announcement that Russia will remain aboard the ISS until 2028. The Director General of Roscosmos, Yuri Borisov, had previously said Russia would pull out of the ISS "after 2024" to focus on creating its own space station. NASA had been preparing for Russia's departure with plans ranging from pulling astronauts from the ISS to figuring out how to control the ISS if Russia took away its thrusters. The US agency has committed to maintaining the ISS until at least 2030.

This article originally appeared on Engadget at https://www.engadget.com/russia-will-assist-nasa-with-iss-space-flights-through-2025-115533326.html?src=rss