Tag Archives: lander

Elon Musk Responds Rashly After NASA Reveals Plans to Source Lunar Lander from SpaceX Competitor

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NASA’s Acting Administrator Sean Duffy seems to have drawn the ire of Elon Musk.

Elon Musk, founder and CEO of SpaceX, took to social media on Tuesday to criticize Mr. Duffy’s intelligence and recent actions as the leader of the space agency.

“Sean Dummy is trying to destroy NASA!” Musk stated on X, using a derogatory nickname for the acting administrator. In another post, he remarked: “There’s no way the leader of America’s space program can have a double-digit IQ.”

On Monday, Duffy announced that NASA is considering utilizing a lunar lander from a SpaceX competitor to help return astronauts to the moon before China establishes its presence there.

NASA initially planned to use SpaceX’s next-generation Starship rocket system for the lunar landing.

Musk conducted a poll on Tuesday asking his followers on X: “Should someone whose greatest achievement is climbing trees lead America’s space program?” One option was, “Yes, chimpanzees are good at it!” while the other suggested, “No, he needs More Brains!”

By Tuesday afternoon, the poll had garnered around 110,000 votes.

In 2021, SpaceX secured a $2.9 billion contract to use its Starship rocket to land two astronauts on the moon during NASA’s Artemis III mission, aimed for a 2027 launch.

However, Musk’s company has faced delays in the testing and development of Starship, which experienced several explosions this year.

Meanwhile, political pressure is mounting as the competition with China escalates; the nation is targeting a moon landing by 2030 and has already dispatched two robotic probes and tested a new rocket for manned lunar missions.

Duffy appeared on Fox News and CNBC on Monday, stating that NASA would expand the Artemis III contract, inviting proposals from rival space companies to maintain U.S. competitiveness against China.

“We are not going to wait for a single company,” Duffy reiterated in an appearance on CNBC’s “Squawk Box.” on Monday. “We are focused on moving forward and winning the second space race against China.”

Duffy mentioned his and President Donald Trump’s goal to return astronauts to the moon during Trump’s second term.

He cited Blue Origin, the space launch company founded by Jeff Bezos, as a potential competitor capable of providing unique technology.

This statement appeared to antagonize Musk.

In a subsequent post, Musk questioned the ability of other commercial space firms to meet such stringent deadlines.

“In comparison to other space industries, SpaceX is advancing at remarkable speed,” he asserted. “Moreover, Starship will ultimately execute the full lunar mission. Mark my words.”

In reality, SpaceX is so ahead of its rivals that it is already conducting regular NASA missions to transport astronauts and cargo to the International Space Station.

Reacting to Musk’s remarks, Duffy replied on X: “Love the enthusiasm. The race to the moon is on. Great companies should welcome challenges. Competition among innovators benefits America!”

However, Musk’s tirade on Tuesday took a personal turn, questioning Duffy’s competence to lead NASA. Duffy is temporarily in charge of the agency; a Wall Street Journal report suggested he is positioning himself to continue in that role alongside his responsibilities as transportation secretary.

The report indicated that Duffy is contending against billionaire Jared Isaacman, who may reemerge as a candidate for the NASA leadership position. Trump had retracted Isaacman’s nomination in May, just ahead of an anticipated confirmation vote. This withdrawal followed what the president described as a “thorough review of prior connections.” (Trump did not elaborate, but some Republicans had expressed reservations that Isaacman previously donated to Democrats.)

Musk has shown support for Isaacman, who has made two orbital flights on commercial SpaceX missions.

NASA spokesperson Bethany Stevens informed NBC News that President Trump has asked Duffy to consult with potential administrators, and that the interim administrator “will be glad to assist by evaluating candidates and providing honest feedback.”

“Sean is thankful to the president for this opportunity to lead NASA,” Stevens stated. “At the president’s direction, Sean is committed to ensuring America returns to the moon before China. He has indicated that NASA’s integration into the Cabinet, possibly even the Department of Transportation, might be beneficial, though he has never claimed he wishes to continue in this role.”

The White House did not respond to inquiries for comment.

The timing of Isaacman’s controversy in May coincided with a public feud between Trump and Musk, which escalated before the SpaceX CEO departed the White House on a special public service assignment. Musk’s departure was fraught with tension as he criticized President Trump’s “One Big Beautiful Bill,” labeling it a “huge, outrageous, pig-filled Congressional spending plan” and a “distasteful, ugly bill” that would exacerbate the budget deficit.

playing cards We welcomed Duffy in July. Becomes interim administrator of NASA.

Source: www.nbcnews.com

Japan’s Sturdy Lunar Lander Successfully Touches Down on the Moon

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The surface of the moon as captured from orbit prior to the crash

ISPACE SMBC X Hakuto-R Venture Moon

On June 5th at 7:13 PM, a Japanese space endeavor aiming to be the third private lunar landing failed as ISPACE’s Resilience lander succumbed on the moon’s surface.

The lander began its descent from around 20 km above the moon, but ISPACE’s mission control quickly lost communication after the probe activated its main engine for final descent, receiving no further signals.

The company announced that the laser tool used to gauge the distance to the surface seemed to malfunction, leading to inadequate slowing of the lander and likely resulting in a collision.

“Given the absence of a successful lunar landing at this time, our top priority is to analyze the telemetry data collected so far and diligently investigate the cause,” stated ISPACE CEO Mr. Takeshi.

Had it succeeded, Resilience would have marked the second private moon landing of the year and the third overall, making it the first non-U.S. company to land on the moon after ISPACE’s prior attempt, the Hakuto-R mission, failed in 2023.

The Resilience Lander embarked on its lunar journey aboard a SpaceX rocket on January 15th, alongside Firefly Aerospace’s Blue Ghost lander. While the Blue Ghost successfully landed on March 2, Resilience took a more circuitous route, moving into deeper space before returning on May 6 to enter lunar orbit. This complex trajectory was essential for targeting the challenging northern plain called Male Frigolis, which had not been surveyed by previous lunar missions.

Equipped with six experiments, the lander included a device for splitting water into hydrogen and oxygen, a module for algae-based food production, and a radiation monitor for deep space. Additionally, it housed a five-kilogram rover named Tenesial, designed to explore and capture images of the moon during the two weeks that Resilience was set to operate.

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Source: www.newscientist.com

NASA’s luck turns around with success of Blue Ghost Moon Lander after month of disappointment

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NASA took a chance some years back that commercial companies could conduct scientific experiments on the moon at a lower cost than institutions.

Unfortunately, last year, NASA’s initial attempt missed its mark, and the second attempt ended in a crash. However, this month saw success with the robot lander, Blue Ghost, built by Firefly Aerospace in Texas.

On March 16th, as Blue Ghost completed its mission on the moon, the mood at Firefly’s mission operation in Austin was a mix of happiness and bittersweet anticipation for the spacecraft’s demise.

The sun had already set on the lunar surface where Blue Ghost had been working for two weeks, 15 million miles away from Earth.

For solar-powered spacecraft like Blue Ghost, time was running out, and the end was near.

Ray Allensworth, the director of the spaceship program at Firefly, described the atmosphere as light and enthusiastic as they reflected on the successful mission of Blue Ghost.

While other commercial moon missions have faced challenges, Blue Ghost’s success has provided NASA with valuable data for future collaborations.

Scientists like Robert Grimm at the Southwest Institute in Colorado, who led one of the scientific payloads, expressed gratitude for the successful mission, noting that it was better than ending up as a crater.

One of the NASA experiments on Blue Ghost captured images of the lunar surface, providing valuable insights for future missions and research.

The data collected by the cameras will help scientists understand the dynamics of lunar surfaces and potential hazards for future spacecraft landings.

Source: www.nytimes.com

Intuitive Machine: Athena Lander Reaches Moon, but Deems to Have Collapsed

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IM-2 missions in low lunar orbits

An intuitive machine

The intuitive machine Athena Lander has reached the moon, but appears to have fallen. The Lander is still working, but it is not yet clear which part of the mission will still be able to achieve.

The spacecraft was mounted on a SpaceX Falcon 9 rocket from NASA’s Kennedy Space Center (KSC) in Cape Canaveral, Florida on February 27th. It landed on March 6th, but the landing was not completely successful, and the exact location or orientation of the lunar surface is still unknown.

“I don’t think we’re in the right attitude on the surface of the moon,” the CEO of the intuitive machine said. Stephen Altmus At a press conference just after landing. This is similar to the company’s last attempt at landing on the moon, the Odysseus spacecraft. It was the first time a private company had landed a spacecraft on the moon, but it turned over to its side and was unable to send much of the data back.

There are a variety of scientific instruments in Athena, but perhaps the most important of these are the regoliths and ice drills to explore new terrain (Trident), a NASA experiment designed to drill up to a maximum metre to a meter through the lunar soil. The purpose is to take samples from underground, analyze their contents, and search for water ice and other compounds.

“This experiment marks an important milestone as it will mark the first robotic drilling activity to be carried out in the Antarctic region of the lunar.” Jacqueline Quinn At KSC at a press conference on February 25th. If Trident is still working, “This is an important step in understanding and leveraging the moon’s resources to support future exploration,” she said.

As part of the IM-2 mission, Athena carried several rovers to the moon. One of them is called Grace after Grace Hopper, a computer scientist and mathematician, and unlike the rover that came before him, he is designed to fly around the surface, firing small boosters to dive into the air up to 100 meters, travelling about 200 meters. Grace aims to explore the strange, permanently shadowed craters of the moon.

Athena operators were able to send craft commands to turn it on and off and downlink some of their data to Earth. The solar panels also function to charge Lander electronics. That seems good news, but the team is still working to figure out which instruments can achieve some of their scientific goals, Altemus said.

This is part of a broader push to increase lunar exploration in preparation for planned human missions over the next decade. The Blue Ghost Lander at Firefly Aerospace arrived in the moon on March 2nd. Resilience Lander, a Japanese company Ispace, is on the way.

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Source: www.newscientist.com

This week, a new moon lander will be launched at the Antarctic on the moon.

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Scheduled to appear in space this week, the Robot Moonlander is set to mark the second moon mission of a company that made history last year by becoming the first private company to successfully land on the moon’s surface.

The spacecraft, named Athena, was built by Intuitive Machines, a company based in Texas. It is equipped with a drill and various instruments to analyze the chemical composition of rocks and soil beneath the lunar surface.

The mission is part of NASA’s Commercial Moon Payload Services Program, which aims to assist private companies in developing Moonlanders. The anticipated landing site is the plateau of the lunar Antarctic region, specifically a flat mountain known as Monsmouton.

NASA is particularly interested in the Antarctic region of the Moon due to the presence of water ice in permanently shadowed craters. The presence of water could be crucial for establishing permanent bases on the moon, and Athena’s mission will focus on searching for groundwater.

Athena is scheduled to launch on top of the SpaceX Falcon 9 rocket on Wednesday at 7:17pm from NASA’s Kennedy Space Center in Florida. The same rocket will also launch a lunar mapping satellite developed by NASA, called the Lunar Trailblazer.

In addition to these missions, NASA plans to send the Spherex Space Observatory into orbit on Thursday to study the origins of the universe. SpaceX’s Starship Megarocke is set for its eighth test flight on Friday, and another robot Moonlander developed by Firefly Aerospace will attempt to land on the moon over the weekend.

Following its release, the Athena Lander is expected to travel for about a week before landing, potentially as early as March 6th. The mission will also test a 4G communications system developed by Nokia on the moon’s surface.

During the mission, Athena Lander will deploy a drone named Grace to explore the landing site through a series of hops. The company aims to replicate their historic moon landing success from February 2024 near Marapart A crater in the Antarctic region of the Moon.

The goal is for Athena Lander to successfully land and fulfill its mission objectives, paving the way for future lunar exploration and potentially aiding in establishing human presence on the moon.

Source: www.nbcnews.com

Athena, the intuitive moon lander machine, poised for explosive mission on the lunar surface

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Artist's impression of the moon's Athena spaceship

NASA

This week, a private space mission was launched on the moon, aiming to reach the southernmost point we've ever visited on the moon. The Athena spacecraft, built by an intuitive US-based machine, will be released from NASA's Kennedy Space Center in Cape Canaveral, Florida at 12:17am on February 27th (7:17pm on February 26th). It will be installed on the SpaceX Falcon 9 rocket. Also, several other missions hitch on the same rocket, including expeditions that mine asteroids.

The intuitive machine became the first private company to succeed on the moon last year when Odysseus' spacecraft landed near the moon's Antarctica. The spacecraft's instruments remained in operation, but Odysseus made a troublesome landing, flipped over, limiting the amount of data the equipment could collect, and shortening the mission.

The company hopes for a cleaner landing as Athena begins its descent towards the end of March. The planned landing site is near the highest mountain on the moon, the lunar mewton, about 60 kilometers from Antarctica, and Athena's attempts have become the most southern approach to date. If the ship is successful, it will start a moon night and operate for several weeks on par with the moon in a day before it loses power.

Athena carries over 10 musical instruments and missions from both NASA and other private companies. That's not all. The Falcon 9, the same one that fires Athena at the moon, also carries three unrelated spacecraft. These are asteroid-controlled spacecraft from space company Astroforge, and the first mission of this kind will investigate potential minable metal space rocks later this year. You can also map water to the moon along with NASA's lunar satellite aboard, looking for future landing sites. The third spacecraft, built by epic aerospace, is designed to help other satellites move between orbits.

Once Athena lands, NASA instruments will excavate up to 1 meter into the lunar soil to sample it, then look at water sediments and other chemicals. NASA would like to know if these will be present in sufficient quantities for future astronauts to be used as part of the Artemis Moon Landing, which is planned for the agency to be released in 2027. It's there.

Several small rovers will also be released near the landing site, including the plant pot-sized Yaokirovers of Japanese company Dimon. The heavier 10kg mobile autonomous exploration platform (MAPP), built by Space Company Lunar Outspost, explores and creates 3D maps of landing sites, testing how the 4G phone network built by Nokia works in a Lunar environment. Masu. Sitting on a mapp will be a much smaller, ant-sized robot built by researchers at the Massachusetts Institute of Technology.

The intuitive machine deploys a suitcase-sized hopping robot called Grace. Grace runs a series of four hops, jumping into the air up to 100 meters, travelling a distance of about 200 meters until it lands in a deep, permanently shaded crater. Scientists have seen evidence that these areas do not get warmer than -170°C (-274°F), but have never been visited in person. Grace scans the bottom of this crater. This crater is scanned for about 45 minutes, about 20 meters below, before popping out again.

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Source: www.newscientist.com

Japan’s lunar lander “Slim” miraculously persevered through three lunar nights

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The SLIM lander continues to take photos of the moon's surface.

JAXA

Somehow, Japan's Smart Lunar Survey Lander (SLIM) survived three lunar nights. This is an amazing feat. The moon's nights are so cold that the spacecraft's batteries and electronics fail, so a lunar lander can typically survive one day on the moon, or about two weeks on Earth.

The lunar lander is built to withstand the moon's nighttime temperatures, which can drop to -133°C (-208°F). SLIM is no exception. There are no heaters or special insulation designed to keep the spacecraft's electronics warm.

The original plan was for the lunar night to mark the end of the lander's mission, so no one expected to wake up again when night fell less than two weeks after SLIM's January 19 landing. I wasn't expecting it. But on February 25, the sun rose over SLIM's resting place near the moon's south pole, lighting it up again.

Alarmed, the SLIM operations crew on Earth began instructing the lander to image and measure its surroundings until the next lunar night, when the mission would truly end. In late March, the sun rose again and the lander powered on and began transmitting data to Earth.

By all standards, the mission was a shocking success, even after a difficult landing left the spacecraft tilted. But yet another surprise awaited – three nights later on April 23, SLIM was revived again.

X's SLIM official account Posted“SLIM maintained its primary functionality even after a three-night stay, which was not envisioned at the time of its design.” New photos of the lunar surface accompanying that post show that the lander once again understands the moon. It also shows that they are working hard to collect data that will not only help them do this, but also help them create a spacecraft that can withstand moonlit nights.

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Source: www.newscientist.com

SLIM, Japan’s Lunar Lander, Astonishingly Survives Second Night on the Moon

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View of the lunar surface taken from the tilted position of the SLIM lander

JAXA

Most landers we send to the Moon will operate for one lunar day, or about two weeks on Earth, until they die from the extreme cold of the lunar night. But Japan’s Smart Lunar Lander (SLIM) has now survived two nights on the moon and continues to send images back to Earth, an amazing feat.

SLIM is Japan’s first lunar lander and becomes the fifth country to land a spacecraft on the lunar surface. When the plane landed on January 19, it was tilted and the solar panels could not provide enough power to continue operating for more than a few hours. After nine days, the sun began to move again, moving across the sky.

But just three Earth days later, the lunar night began. Nighttime temperatures on the moon can drop as low as -133°C (-208°F), potentially damaging the spacecraft’s batteries and electronics. Normally, the lunar lander shuts down on a lunar night and never wakes up again, but it started up again on February 25 as the sun rose above Slim.

This in itself was a surprise. The lander was not specifically designed to withstand lunar nights, and its original mission was scheduled to end at night. So, as night approached again, this seemed to be the end of SLIM.

However, on March 27th, the SLIM official account I posted an image above X has the following caption: “Last night, we received a response from SLIM confirming that SLIM achieved its second success during the night. Last night, the sun was still high and the equipment was hot, so I quickly turned on my navigation camera. It looks like the lander will be able to resume analyzing its surroundings within the next few days.

Its survival is especially surprising because while some spacecraft use radioactive elements to stay warm, SLIM does not. “This is a significant achievement considering we are not using radioisotope heaters,” he says. Haim Benaroya at Rutgers University in New Jersey. “This result is important and impressive, given that this is a major design consideration for electronics (and people) to survive moonlit nights.” SLIM has failed while many other spacecraft have failed. Analyzing how they survived may help us understand how they stay warm on the moon.

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Source: www.newscientist.com

First images from civilian lunar lander capture historic moon landing

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A privately built spacecraft on the moon has sent back new photos from the lunar surface. The images captured the spacecraft’s much-lauded descent and the moment it rolled over shortly after landing.

The Odysseus lander, built by Houston-based Intuitive Machines, touched down on the moon on February 22, making it the first commercial ship to reach the moon’s surface and the first U.S. ship to reach the moon in more than 50 years. It made history as a spaceship.

The Odysseus Lunar Module took this image about 35 seconds after it rolled over on its approach to the landing site.
Intuitive machine via AP

The next day, Intuitive Machines announced that Odysseus had rolled over as it landed near a crater called Malapart A near the moon’s south pole. Company officials said the 14-foot-tall lander was operational, but part of the rover’s antenna was pointing toward the ground, limiting its ability to communicate with flight controllers on Earth. Ta.

with update MondayIntuitive Machines said it was continuing to communicate with the spacecraft, adding that flight controllers “will collect data until the lander’s solar panels are no longer exposed to light.”

Company officials said they expect to be able to communicate with Odysseus until Tuesday morning, based on the positions of the Earth and the moon. The lander was originally expected to spend about a week collecting data on the lunar surface before the lunar night begins and the spacecraft powers down.

In its latest update, the company announced that Odysseus’ instruments detected nine safe landing sites within the target zone near the moon’s south pole. The moon’s south pole region has long intrigued scientists because water ice is thought to be relatively abundant in permanently shadowed craters.

Source: www.nbcnews.com

Lunar lander leans to the side on the moon’s surface but remains operational

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The lunar lander, known as Odysseus, is in good condition but resting on its side a day after making history as the first civilian spacecraft to touch down on the moon’s surface and the first U.S. lunar landing since 1972, a company official confirmed on Friday.

The landing craft caught one of its six landing legs on a rock near the end of its final descent, causing it to tip over on its side, according to a data analysis by aeronautical engineers at Houston-based Intuitive Machines.

Despite the unexpected landing, Odysseus is believed to be stable and near its planned landing site near a crater called Malapart A in the moon’s south polar region, said Stephen Altemus, CEO of Intuitive Machines.

“We are in contact with the lander and are actively sending commands to it in order to capture the first images of the lunar surface from the landing site,” Altemus added.

An update on the mission’s status posted on the company’s website early Friday confirmed that Odysseus was still operational.

Although initial reports indicated that the lander had landed upright, company officials clarified that it had actually landed on its side due to telemetry errors, but most of the payloads onboard were still functional, allowing for communication.

While there are some challenges, such as certain antennas pointing towards the surface and solar panels facing in the wrong direction, the spacecraft’s battery is fully charged and the mission director remains optimistic about fulfilling all payload requirements.

Odysseus utilized liquid methane and liquid oxygen propellants and performed well during its flight to the moon, making it the first of its kind in space exploration.

After overcoming navigation system issues during the final approach and descent to the moon, engineers successfully landed the spacecraft, reestablished communication, and are now monitoring its operation as it begins its mission on the lunar surface.

Following the news of the lander tipping over, Intuitive Machines’ stock experienced a 30% decline in extended trading on Friday, offsetting gains made earlier in the day.

Source: www.nbcnews.com

Odysseus’ quest to become the first privately funded lunar lander delayed

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A Houston-based company’s planned launch of a spacecraft to the moon, aimed at becoming the first commercially built spacecraft to land on the moon, has been postponed.

The Intuitive Machines spacecraft, nicknamed Odysseus, was scheduled to lift off from Cape Canaveral, Florida, at 12:57 a.m. ET on Wednesday. However, the launch was postponed because “the methane temperature before entering the methane load was outside nominal values,” according to NASA. Announced just before release.

The new launch date is scheduled for Thursday at 1:05 a.m. ET.

The lander will ride into orbit atop SpaceX’s Falcon 9 rocket.

Odysseus was originally scheduled to spend eight days in space before landing on the moon on February 22nd. This event marks the first U.S. moon landing in more than 50 years.

Another company attempted to accomplish the same feat a month ago, but ultimately failed. The lander, built by Pittsburgh-based Astrobotic Technology, suffered a catastrophic fuel leak shortly after liftoff, forcing operators to abort the entire mission.

Astrobotic Technology and Intuitive Machines are part of NASA’s Commercial Lunar Lander Services Program, which is designed to accelerate the development of lunar landers by private companies and ultimately help NASA deliver cargo to the lunar surface. The lander could also be used to transport scientific equipment.

On its next flight, the lander will carry a combination of commercial cargo and NASA scientific equipment.

Odysseus is expected to land near the moon’s south pole, an area that has long intrigued scientists because water ice is thought to be relatively abundant in craters. .

NASA’s Commercial Lunar Payload Services Program is part of NASA’s Artemis program, which aims to return astronauts to the Moon in the next few years. NASA recently announced delays for two upcoming Artemis missions, pushing back a lunar circumnavigation flight that was scheduled to launch later this year to 2025 and pushing back Artemis’ first landing attempt to next year.

NASA eventually hopes to begin regular missions to the moon and build a base camp there.

Source: www.nbcnews.com

Odysseus Makes Historic Landing on the Moon as First Commercial Lander

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Houston-based company successfully launched a private lunar lander into space on its second attempt early Thursday morning. The spacecraft, developed by Intuitive Machines, took off from NASA’s Kennedy Space Center in Cape Canaveral, Florida, at 1:05 a.m. ET atop SpaceX’s Falcon 9 rocket. The original launch was scheduled for Wednesday but was canceled due to a problem with the rocket’s methane fuel. Intuitive Machines aims to land the first commercially built spacecraft on the moon, which would be the first U.S. moon landing in over 50 years. The lander, named Odysseus, will spend a week in space before attempting to settle on the moon’s surface on February 22nd. This mission comes after another company, Astrobotic Technology, attempted but failed to send a lander to the moon’s surface due to a severe fuel leak shortly after liftoff. Both Intuitive Machines and Astrobotic Technology are part of NASA’s Commercial Lunar Lander Services Program, designed to accelerate the development of lunar landers by private companies to deliver cargo to the lunar surface and transport scientific equipment. On its next flight, Odysseus will carry a combination of commercial cargo and NASA scientific equipment and is expected to land near the moon’s south pole. NASA’s Commercial Lunar Payload Services Program is part of NASA’s Artemis program, which aims to return astronauts to the Moon in the next few years. The timeline for upcoming Artemis missions has been delayed, and NASA eventually hopes to begin regular missions to the moon and build a base camp there.

Source: www.nbcnews.com

The reason behind the burning up of Hayabusa’s lunar lander in Earth’s atmosphere.

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Launch of the Peregrine Lunar Module on a Vulcan rocket on January 8th

APFootage / Alamy Stock Photo

The mission of the Hayabusa lander is over. The American company that built Astrobotic, a lunar lander whose plans failed, was unable to complete its trip to the moon due to a fuel leak, so it was brought back and burned in Earth's atmosphere.

What was wrong with the Hayabusa lander?

Just seven hours after launching on a Vulcan rocket on January 8, engineers noticed that Peregrine wasn't facing the right direction and its solar panels weren't charging the batteries that power its electronics. Shortly afterward, it was discovered that fuel was leaking from the aircraft. It was eventually determined that the oxidizer tank had ruptured, probably due to a stuck valve, and that the leak had generated a small amount of thrust, causing the probe to change direction. By the time everything was figured out, Peregrine had already lost too much fuel to reach the moon, let alone perform the maneuvers needed to land gently on the moon.

The peregrine falcon was in space for days, but what was it doing all that time?

Astrobotic's engineers were able to correct Peregrine's orientation, and once the solar panels were oriented in the correct direction, the battery was charged. This will allow Peregrine operators to perform a quick test ignition of the main engine and power on the onboard spacecraft, allowing them to better understand the spacecraft's operation in space and determine what went wrong. Helpful. They also remotely switched on some scientific instruments and made measurements of radiation in interplanetary space that could provide useful scientific insights. By operating the spacecraft for several days, Astrobotic will also be able to decide whether to extend its mission in space by changing from its planned moon landing, or continue on its way back to Earth. I was given time to do it.

Why did it have to be brought back to Earth rather than left in space?

Although the peregrine falcon could have survived a little longer in Earth orbit, there were some risks to leaving it there. Eventually, the spacecraft will run out of fuel completely and become essentially a cannonball flying uncontrollably around the Earth. This type of space debris can cause significant damage to operating satellites.a statement The Astrobotic article says: “Ultimately, we have to balance the risk of a damaged spacecraft causing problems with our own desire to extend Peregrine's life, operate the payload, and learn more about the spacecraft. .”

Wouldn't it be dangerous to bring it back to Earth?

It's actually much safer to return the spacecraft to Earth. Satellites are regularly deorbited in this way, usually burning up in the incredible heat they experience as they plummet through the atmosphere. The falcon was also carefully targeted towards the Pacific Ocean just east of Australia to minimize the risk of any surviving debris hitting populated areas.

What about the other things Peregrine was carrying?

In addition to scientific instruments, the spacecraft also carried two controversial payloads sent into space by a company called Celestis, which provides what is called a “commemorative spaceflight.” These two vessels of hers contained cremated human remains. Star Trek Creator Gene Roddenberry and actors James Doohan and Nichelle Nichols. It is unclear whether the capsule survived Earth's atmosphere and ended up in the ocean.

Why do missions to the moon continue to fail?

Indeed, this is the third mission to land on the moon that has failed in the last year, but that's only partially due to the difficulty of sending a probe into space and making a soft landing hundreds of thousands of kilometers away. Lunar landing attempts have also increased significantly, many using new equipment and protocols that have not yet been tested. While there are understandably some growing pains, more moon landings are planned in the future, and Astrobotic executives are already discussing plans to try again.

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Source: www.newscientist.com

Hayabusa lunar lander meets fiery fate as it re-enters Earth’s atmosphere

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After more than a week in space, the doomed lunar lander met a violent end Thursday as it burned up in Earth’s atmosphere, ending its mission.

A private spacecraft named Peregrine was designed to travel to the moon and settle on its surface. However, shortly after launching into orbit on January 8, the lander suffered a severe propellant leak, forcing operators to abort the entire mission.

Astrobotic Technology, the Pittsburgh-based company that developed the lander, said Thursday that the limp spacecraft safely burned up in Earth’s atmosphere in a remote stretch of the South Pacific Ocean at about 4:04 p.m. ET. announced.

in Updates posted on XThe company confirmed it had lost contact with the spacecraft just before 4 p.m. ET, suggesting the lander had re-entered the atmosphere, but officials said they were “waiting for independent confirmation from a government agency.” ” he added.

An early failure left the Peregrine lander with no means of reaching the moon. Astrobotic’s team fought for nine days to save the spacecraft and its onboard equipment and extend the remainder of the mission.

Engineers were able to stabilize the spacecraft, but Astrobotic said last week it would not be possible to attempt a controlled landing on the moon.

“We applaud @Astrobotic’s perseverance,” NASA announced Tuesday. Statement posted on X.

The Peregrine mission attracted attention because it was the first American lunar lander launched into space in more than 50 years. If successful, Peregrine would also have become the first commercially developed spacecraft to land on the moon.

Besides NASA, the former Soviet Union, China, and India are the only countries to have successfully made a controlled landing, or “soft landing,” on the moon’s surface. Japan aims to join that elite club on Friday when it attempts to land its Smart Lander for Lunar Exploration (SLIM).

Peregrine’s mission is part of NASA’s Commercial Lunar Module Services Program, which was established to encourage private companies to develop new lunar landers and ultimately help NASA bring cargo and scientific equipment to the lunar surface. You can now hire this lander for transport.

Another Houston-based company, Intuitive Machines, plans to launch its own commercially developed lander next month as part of the same NASA effort.

The Commercial Lunar Payload Services Program is part of the agency’s Artemis program, with the goal of returning astronauts to the Moon over the next few years, eventually establishing regular flights to the Moon, and building a lunar base camp. It is said that NASA recently announced the postponement of two upcoming Artemis missions, pushing back a lunar circumnavigation flight that was scheduled to launch later this year to 2025 and pushing back Artemis’s first landing attempt to next year.

Source: www.nbcnews.com

Japanese lander Slim prepares to touch down on the moon

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Artist's thoughts on SLIM after landing on the moon

JAXA

Japan is preparing for its first moon landing. The Smart Lunar Survey Lander (SLIM) is scheduled to land on the lunar surface on January 19th. If all goes well, Japan will become the fifth country to land a probe on the moon, following the United States, Soviet Union, China and India.

SLIM launched in September 2023 and took a long, narrow path to the moon, making a steep descent to conserve fuel. It entered lunar orbit in December and has since taken images of the lunar surface and slowly lowered its altitude in preparation for landing.

This spacecraft's landing technique is so precise that it has been nicknamed the “Moon Sniper.” It is designed to match images from its onboard camera with data from other lunar rovers to determine its location and autonomously navigate to a precise landing site. “[It] “We can expect 20 minutes of breathless, numbing fear,” said Kenji Kushiki, one of the mission managers at the Japan Aerospace Exploration Agency (JAXA). in a statement.

If successful, future missions will be equipped to land exactly where they want to land, rather than within a few dozen square kilometers of their desired spot, as is the case today. “Lunar orbiting satellites… have provided a large amount of high-resolution observation data of the lunar surface,” Kushiki said. “Thus, interest in lunar science and resource exploration has shifted from 'somewhere on the moon's surface' to 'that rock next to this particular crater.'”

When the spacecraft lands, it releases a pair of probes with new and strange ways to travel across the moon's surface. Lunar Expedition Vehicle-1 (LEV-1) is designed to fly around rather than roam on wheels like traditional rovers. LEV-2 is a sphere slightly smaller than a tennis ball that was designed by toy manufacturers to roll on the ground. take a picture. The lander itself also carries scientific instruments to survey the area around the crater that will be the target of the landing.

The landing is part of a large-scale international effort to explore the moon. India's Chandrayaan-3 lander reached the moon's surface in August 2023, but there were a series of failures. A lander sent by Japan's iSpace company crashed last April, Russia's Luna 25 had a similar accident in August, and more recently the US crashed. Astrobotic's Peregrine lander suffered a fuel leak and failed to reach the moon. If this mission is successful, it could be the moment when lunar exploration gets back on track.

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Source: www.newscientist.com

There is a possibility that Hayabusa’s lunar lander will not make it to the moon

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Peregrine photo showing disturbance of insulation in the foreground

astrobotic

Things look grim for Astrobotic's Peregrine spacecraft. The Vulcan rocket launched toward the moon on January 8, but just seven hours after liftoff, an “anomaly” began to occur that could prevent a safe landing on the moon's surface.

The first hint of trouble was that the spacecraft was unable to orient itself so that its solar panels faced the sun. The technical team on the ground was able to command the aircraft to steer in the right direction so the battery could be recharged. These batteries power Peregrine's communications and scientific equipment, and so far appear to be working properly.

But the problem doesn't end there. The thrusters meant to carry Peregrine to the moon and land safely are powered by rocket fuel, and appear to be leaking fuel.in a short series
statement

Astrobotic said the problem was “causing significant loss of propellant.”[this] If the propulsion anomaly proves true, it would threaten the spacecraft's ability to make a soft landing on the moon. The first images sent back from the spacecraft show rippling insulation in the foreground, suggesting that whatever caused the fuel leak may have also destroyed the spacecraft's insulation.

If Peregrine can't land on the moon, even if its batteries are fully charged, it's unclear which of its science goals it will accomplish. “The team is working to stabilize this [propellant] “While there was a loss, given the circumstances, we prioritized making the most of the science and data we could collect,” the statement said. “We are currently evaluating what alternative mission profiles are feasible at this time.” Astrobotic did not immediately respond to a request for comment.

Assuming Peregrine is unable to land, this would be the third consecutive failed attempt by a private company to land on the moon. In 2019, the Beresheet lander crashed on the moon, and in 2019, the Hakuto-R lander also crashed on the moon. 2023. No private company has yet successfully made a soft landing on the moon.

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Source: www.newscientist.com

First American lunar lander in over five decades blasts off towards the moon, but faces early technical issues

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Astrobotic said the cause of the failure was likely a propulsion failure, adding that a further update would be issued once more data is acquired and analyzed.

Peregrine’s mission represents a new chapter in the commercial space industry, launching private companies into the space race and delivering to NASA and other customers.

The Pittsburgh-based company First private company to succeed in landing This is something only four countries have achieved on the moon. A Houston-based company also has a lander ready to fly and is expected to take a more direct route to the moon.

NASA provided both companies with significant funding to build and fly their own lunar landers. The space agency hopes the privately owned lander will scout the site before astronauts arrive, while also providing technical and scientific experiments for NASA and benefiting other customers. Astrobotic’s Peregrine lander contract: $108 million.

During its first flight, the Peregrine lander carried five NASA instruments. Following the technical anomaly, NASA said it would learn from the situation.

“Each success and setback is an opportunity for us to learn and grow,” Joel Kearns, deputy assistant administrator for exploration at NASA’s Science Mission Directorate, said in a statement Monday. “We will use these lessons to advance our efforts to advance science, exploration, and commercial development of the Moon.”

The last time the United States launched a moon landing mission was in December 1972. Apollo 17’s Gene Cernan was the last human to set foot on the moon as mission commander, and Harrison Schmidt was the 12th astronaut to walk on the moon. , concluded an era that continued to be the pinnacle of NASA.

The space agency’s new Artemis mission, named after Apollo’s twin sister in Greek mythology, aims to return astronauts to the moon’s surface within the next few years. first, Flight around the moon by four astronautsProbably by the end of the year.

Highlighting Monday’s moonshot was the long-delayed initial test flight of the Vulcan rocket from Cape Canaveral Space Force Station. The 202-foot (61-meter) rocket is essentially an upgraded version of ULA’s highly successful flagship Atlas V, which will be phased out along with the company’s Delta IV. Jeff Bezos’ rocket company Blue Origin provided his two main engines for the Vulcan.

The then-Soviet Union and the United States suspended touchdowns after a string of successful moon landings in the 1960s and 1970s. China joined the elite club in 2013, India in 2023.But I also saw it last year Landing craft from Russia and Japanese private companies crash into the moon. In 2019, an Israeli nonprofit organization's lander crashed.

Next month, SpaceX will provide lifts for the lander from Intuitive Machines.

In addition to flight experiments for NASA, Astrobotic has launched its own cargo transportation business, shipping its 6-foot-tall (1.9-meter-tall) Hayabusa lander with rock chips from Everest and toy-sized objects it catapults from Mexico. I packed everything up to my car. It will reach and cruise the moon’s surface, collecting the ashes and DNA of deceased space enthusiasts, including “Star Trek” creator Gene Roddenberry and science fiction writer Arthur C. Clarke.

The Navajo Nation recently asked for the launch to be postponed because of the human remains. He said it would be a “grave desecration” of the celestial bodies worshiped by Native Americans. Thornton said the December challenge was too late, but promised to work to find a “good path forward” with the Navajo Nation for future missions.

Celestis, one of the spaceflight memorial companies that purchased space for the lander, said in a statement that no single culture or religion owns the moon and should not be able to veto the mission. There will be more debris in the rocket’s upper stage, and once released from the lander, it will orbit the sun indefinitely all the way to Mars.

Freight rates for Hayabusa range from a few hundred dollars to $1.2 million per kilogram (2.2 pounds), not enough for Astrobotic to break even. But Astrobotic CEO John Thornton says that’s not the point for this first flight.

“A lot of people’s dreams and hopes rest on this,” he said.

Source: www.nbcnews.com

First Vulcan Rocket Successfully Launches Civilian Lander to the Moon

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United Launch Alliance's Vulcan rocket prepares to launch from Cape Canaveral, Florida

UPI / Alamy Stock Photo Credit: Alamy Live

The series of missions to the moon in 2024 will kick off in a big way with the first launch of the new Vulcan rocket. The launch, scheduled for January 8, will carry Astrobotic's Peregrine lander to the Moon as the first mission in NASA's ambitious Commercial Lunar Payload Service (CLPS) program.

Vulcan was manufactured by United Launch Alliance (ULA), a joint venture between Boeing and Lockheed Martin. Before SpaceX, ULA was the dominant force in the U.S. space launch business, but in recent years SpaceX has performed the majority of U.S. launches.

Vulcan could be an opportunity for ULA to regain some of its market share. This is particularly important for ULA as the company is currently up for sale. Potential buyers include Jeff Bezos' spaceflight company Blue Origin. If all goes well with this launch, six more aircraft are planned for launch in 2024.

The purpose of this launch is to transport the Peregrine lander to the lunar surface and back. If successful, it will be the first time a private company has successfully landed on the moon. The lander carries a variety of scientific instruments, including sensors to study lunar water and radiation on the lunar surface, both of which are key to understanding future human exploration. The CLPS program includes many other lunar exploration missions in the coming years that will take complementary measurements to prepare for the continued presence of humans on the lunar surface.

The rocket also carries two particularly controversial payloads. It's a capsule of human remains sent into space by a company called Celestis, which offers something called a “commemorative spaceflight.” One of these capsules contains the ashes of: Star Trek Author Gene Roddenberry and actors James Doohan and Nichelle Nichols will be sent into orbit around the sun, while another will contain the ashes of other humans bound for the moon.

Buu Nygren, the leader of the Navajo tribe, sent a letter In response to the U.S. government's opposition to loading the capsule, he stated, “Putting human remains on the moon is a grave desecration of this celestial body that our people revere.'' NASA responded that because this was a civilian mission, it had no authority over what payload it carried.

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Source: www.newscientist.com

SLIM lunar lander from Japan successfully enters lunar orbit

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Japan Aerospace Exploration Agency (JAXA)
December 26, 2023

Smart Lander for Investigating Moon (SLIM) aims to demonstrate pinpoint landing technology and obstacle detection technology to “land where you want to land.” Credit: JAXA

Japan Aerospace Exploration Agency(JAXA) announced that its Smart Lander for Lunar Exploration (SLIM) has successfully entered lunar orbit at 16:51 on December 25, 2023 (Japan Standard Time, JST).

SLIM’s lunar orbit will be inserted into an elliptical lunar orbit connecting the moon’s north and south poles every 6.4 hours, and the altitude at the point closest to the moon (near orbit) will be approximately 600 km (approximately 370 miles). . , 4,000 km (about 2,500 miles) at its furthest point from the moon (Apolune). The orbit change proceeded as planned, and the spacecraft is currently in a normal state.

Lunar orbit insertion (LOI) on December 25, 2023 at 16:51 (Japan time).
Light blue line: current orbit of the moon.
Future Plans:
Green line: Circular orbit at an altitude of approximately 600km.
Yellow line: Altitude approximately 600km x 150km on an elliptical orbit.
Red line: Altitude approximately 600km x 15km on an elliptical orbit. Credit: JAXA

From now on, the Apollone point will descend until mid-January 2024, and the orbit will be adjusted to a circular orbit at an altitude of about 600 km. After that, the perigee will drop and preparations for landing will begin. On January 19th, the near-orbit point will be lowered to an altitude of 15 km (approximately 9 miles), and the descent toward the moon will begin at around midnight (Japan time) on January 20th, with a scheduled landing on the lunar surface. There is. Around 0:20 a.m. on January 20th (Japan time)

Source: scitechdaily.com

SpaceX and Intuitive Machines delay lunar lander launch to February

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intuitive machine The company announced earlier this week that it was working with launch provider SpaceX to postpone its first lunar lander mission to mid-February.

The Houston, Texas-based company said the new launch window “comes as a result of changes to SpaceX’s launch manifest due to adverse weather conditions.”

The new target launch date, one month later than the original January 12-16 date, is due to the mission profile. Intuitive Machines’ Nova-C spacecraft aims to land near the moon’s south pole and requires specific lighting conditions, including: There are only a few days each month.

The company is also constrained by launch infrastructure availability. The Lunar Module must be refueled with oxygen and methane propellant before liftoff, so it must launch from a specific launch site at NASA Kennedy Space Center, Launch Complex 39A. This pad is the only one equipped with a tower to provide access for refueling the lander.

In the original launch window, Nova-C was scheduled to land on the lunar surface on or shortly after January 19, as it was on a direct orbit to reach lunar orbit. Intuitive Machines has not disclosed the exact launch date, but it is increasingly likely that it will coincide with plans to land another privately developed lunar lander. The lander, Astrobotic’s Peregrine, aims to land on the moon on February 23rd. That means we could see two privately developed American spacecraft land on the moon in the same week.

Both landers were developed as part of NASA’s Commercial Lunar Lander Service (CLPS) program. This program is an effort to recruit commercial landers to transport science and research payloads to the lunar surface. Nova-C will carry her six payloads for NASA as part of this initial mission, and he has been awarded two additional CLPS contracts for her to deliver cargo to the Moon.

All in all, the new launch window is a negligible delay for Intuitive Machines, which aims to base its business on access to the moon’s surface.according to Presentation released last Septemberwhen the company announced it would go public through a merger with a blank check company, Intuitive Machines expected to generate $279 million in revenue from its lander services next year alone.

Intuitive Machines is also launching a business unit related to orbital services, such as maintaining and refueling satellites, providing data services to the moon, and selling other space products.

Source: techcrunch.com

Astrobotic Lunar Lander Set for ULA Launch on Christmas Eve

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based in pittsburgh astroboticULA’s first lunar lander is scheduled to take off on Christmas Eve aboard United Launch Alliance’s new Vulcan Centaur rocket, ULA CEO Tori Bruno said.

Bruno told the audience at the CNBC Technology Executive Council Summit that the company is targeting its first Vulcan launch between Dec. 24 and Dec. 26. “The reason it’s Christmas Eve today is science: orbital mechanics,” said Tori Bruno, CEO of ULA.

The rocket will carry a payload hosted by Astrobotic’s Peregrine robotic lander and Celestis, a company that partners with launch companies to send parts of cremated remains into space as memorials. ULA, a joint venture between Boeing and Lockheed Martin, has a backup period in January in case the rocket fails to take off in December.

Astrobotic’s Peregrine will launch as part of a $79.5 million NASA contract awarded in 2019 under the Commercial Lunar Payload Services initiative. The lander, which is just over 6 feet tall, 8 feet wide and has a payload of 120 kilograms, will deliver scientific payloads to the northern part of the moon on behalf of the space agency.

Although the mission date seems festive, Bruno said that’s partly due to Astrobotic’s mission requirements. “We’re going to parts of the moon where we have to control the lighting conditions very carefully, and we also have to maintain radio communication with the deep space network,” he explained. “This guy only gets a few days every month when you put the two together.”

This mission will take a long time. Astrobotic first announced that it had selected her ULA to launch its lander in 2019. At the time, both companies said the launch would happen in 2021.

However, the schedule has been pushed back due to numerous technical delays to Vulcan, including an accident in March of this year when the upper stage exploded during a test at NASA’s Marshall Space Flight Center in Alabama. Another explosion occurred during a rocket engine test of the BE-4 engine being developed by Blue Origin, further delaying the flight. Even before December, ULA still has work to do. Bruno told CNBC that the company is currently certifying Vulcan’s upper stage, and work should be completed in November.

This first mission, called Certification-1, is one of two certification flights that ULA must complete to meet Space Force requirements.

The mission will take off from Launch Complex 41 at Cape Canaveral Space Force Station in Florida. ULA wants to rapidly increase the pace of Vulcan’s launches, with a goal of launching once every two weeks by mid-2025. Some of that demand will come from the government, but ULA also expects demand from private customers. ULA won a huge contract from Amazon to launch part of its giant Kuiper satellite internet mega-constellation in 2022, but the price of the launch contract has soared. Not disclosed.

Source: techcrunch.com