Tag: engineering

Boeing and NASA still aiming for a May launch of unmanned Starliner test demo

7:58 pm

Capitalism in space: Boeing and NASA are still targeting a May launch of Starliner’s unmanned test demo flight to ISS, delayed since August because of a valve issue in the service module.

Though they think they have identified and fixed that sticky valve problem, they have also decided to replace the service module for the demo flight, using the module originally planned for the first manned flight that will follow.

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SpaceX launches another 49 Starlink satellites

7:14 pm

Capitalism in space: SpaceX tonight used its Falcon 9 rocket to launch 49 Starlink satellites into orbit.

The first stage successfully landed on a drone ship in the Atlantic Ocean, completing its 10th flight. SpaceX now has three four first stages that have completed at least ten flights. (The correction comes from a comment by one of my readers below.)

The 2022 launch race:

3 SpaceX
1 Virgin Orbit
1 China

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Philippino presidential candidate meets with SpaceX officials

9:35 am

SpaceX officials have held a virtual meeting with two senators from the Philippines, one of which is running for president, to discuss allowing Starlink service in their country as well as the establishment of a launch site.

TOP executives of SpaceX met with Senators Emmanuel “Manny” Pacquiao and Aquilino “Koko” Pimentel 3rd to discuss the use of low-orbit satellites to provide cheap internet to the Philippines. SpaceX is a space exploration company owned by technology magnate and billionaire Elon Musk.

During the virtual meeting on Saturday, the SpaceX executives also talked about the possibility of setting up a spaceship launch pad in the Philippines.

Pacquiao also proposed projects for Musk’s other companies, Tesla and Boring. He seems enthusiastic about bringing SpaceX to the Philippines. The odds right now of him becoming president however is not great, according to recent polling. This meeting with SpaceX was clearly an effort by him to garner attention and increase his poll numbers.

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Update on SLS: Still aiming for very unlikely March launch

9:20 am

A detailed update on the work being done by NASA and Boeing engineers to prepare SLS for its first unmanned test launch suggests that though a March launch is still the target, it is likely to be delayed.

The update at the link is very thorough, and outlines a large number of tests that need to be done to get this very cumbersome and complicated rocket ready for launch. They are just about done with the prep work for the core stage, and are now shifting to final testing of the upper stage, followed by some countdown sequence testing and a test of the flight termination system. In addition there are a number of other tests they wish to perform, all of which will take time.

Once these are done they will be ready to roll the rocket out to the launchpad for a final dress rehearsal countdown — dubbed the Wet Dress Rehearsal (WDR), now scheduled for mid- to late-February.

NASA will not set a launch date until after the WDR is completed and they can factor in any additional tasks with already-known work. “We’ve continually said that until we get through WDR we won’t set a launch date, so us getting out in mid-February for WDR allows them to look at March and April as opportunities,” Lanham said.

“I really can’t put my finger on it again until we come back from WDR and see if we have any issues there that we’ve got to go correct.” After the WDR test, the vehicle and Mobile Launcher will be rolled back to the VAB for final pre-launch maintenance and servicing.

Some have said the earliest realistic launch date is May, with the mid-summer more likely. We shall have to wait and see.

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Carbon isotope signature detected in Curiosity data suggests possible ancient life, or not

9:03 am

The uncertainty of science: In reviewing data from Curiosity, scientists have detected a faint enrichment on ridge tops in Gale Crater of the carbon isotope carbon-12, normally associated with life on Earth because it is easier for life to process than the heavier carbon-13 isotope.

In order to explain this enrichment, the scientists have concocted several complicated explanations, all of which seem unlikely because of their complexity. The explanations that include life require a series several precise steps to get the enrichment limited to only high ridges. Another that doesn’t involve life requires the solar system to pass through an interstellar cloud.

One proposed explanation is simpler however, and does not require ancient microbes or interstellar clouds.

More prosaically, a few studies suggest UV rays can generate the signal without help from biology at all. UV can react with carbon dioxide—which makes up 96% of the martian atmosphere—to produce carbon monoxide that is enriched in carbon-12. Yuichiro Ueno, a planetary scientist at the Tokyo Institute of Technology, says he has recently confirmed the process can occur in unpublished lab results. “The reported carbon isotope ratios are exactly what I have expected,” he says.

Though this explanation must explain why they have seen the enrichment only at high points, it is straight forward and fits all the present data we presently have of Mars

All in all, the data is tantalizing but hardly a indicator that Mars once had life. There is too much uncertainty. We do not yet know enough about Mars’ geological and climate history to come to any consensus on an explanation.

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Japan delays launch of JAXA’s new rocket

8:46 am

According to unnamed sources in Japan’s space agency JAXA, the first launch of its new H3 rocket, presently scheduled for the end of March ’22, will be delayed by as much as a year because of “defects” in the rocket’s engine.

…the discovery of defects forced the Japan Aerospace Exploration Agency (JAXA) to delay it a second time as it remains unclear by when the vehicle’s engine can be redesigned and produced, the sources said Monday.

Some people in the government expressed concerns over the postponement being potentially prolonged, the sources said.

…In May 2020, a test conducted on the H3 rocket’s main engine found holes on the wall of a combustion chamber and a crack on a turbine that feeds fuel to the chamber, prompting the agency to announce the first delay.

Since then, JAXA has reviewed its design and has been reassembling the rocket at Tanegashima Space Center in Kagoshima Prefecture, from where the rocket is planned to lift off.

None of this has as yet been officially announced. If true, this is a serious blow to Japan’s space effort, which has not been very competitive anyway in the global launch industry. The older H2 rocket in use now is very expensive, so that it has garnered few customers outside of the Japanese government. The new H3 was supposed cost less, but it is entirely expendable, so it can’t compete with the reusable rockets of SpaceX, Blue Origin, or Rocket Lab.

It is also apparently being designed and controlled by JAXA, not Mitsubishi, the prime contractor. Government-run programs nowadays routinely experience endless delays and cost overruns, and the H3 project appears to be more of the same.

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Russian researchers: ISS home to more than 20 types of microorganisms

8:59 am

After studying more than 200 samples from ISS brought back to Russia, researchers have identified more than 20 types of microorganisms that make their home on ISS, including some pathogens and fungi.

The habitat of the module and the entire Russian segment of the ISS is an environmental niche home to bacteria and microscopic fungi, the materials suggest. “These microorganisms use the station’s decorative-finishing and design materials as their basic habitat,” according to the materials.

The experiment aboard the ISS involved taking samples and delivering them to Earth in descent modules. In the course of three years, over 200 samples were taken, with bacteria discovered in 34% and fungi in 3% of them. “In 5% of the samples with the presence of bacterial microflora and in 100% of the samples with the presence of fungal microflora, the standard indicator regulated by SSP 50260 NORD was exceeded,” the materials say.

The fungi indicate mold, a long known problem on manned space stations first identified by the Russians on their Salyut stations in the ’70s and ’80s. The pathogens do not appear to be harmful, or else the astronauts would have experienced sicknesses. No such sicknesses have been reported, though they might have occurred but have not been released publicly due to medical privacy concerns.

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China launches military test satellite

8:49 am

The new colonial movement: China yesterday completed its first launch in 2022, using its Long March 2D rocket to launch a military test satellite into orbit.

No word on where the first stage crashed in the interior of China, or whether it used parachutes or grid fins to control its landing.

The 2022 launch race:

2 SpaceX
1 Virgin Orbit
1 China

These numbers should change later today, as SpaceX has a Falcon 9 Starlink launch scheduled. UPDATE: The SpaceX Starlink launch has been delayed one day to tomorrow.

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Stratolaunch’s giant Roc airplane makes third test flight

9:22 pm

Capitalism in space: Stratolaunch today successfully completed the third test flight of its giant Roc airplane, now being optimized to provide a test bed for launching hypersonic test vehicles.

Today’s flight was conducted from California’s Mojave Air and Space Port and lasted four hours and 23 minutes. It came nearly three years after Roc’s first aerlal test, and almost a year after the second flight. The outing’s main objective was to evaluate the airplane’s performance and handling characteristics at increased altitude, and to retract and extend the left mid-main landing gear.

Stratolaunch said Roc reached an altitude of 23,500 feet at an indicated air speed of 180 knots (207 mph), besting the previous flight test’s maximum altitude of 14,000 feet. Before landing, the plane’s crew conducted a couple of close approaches for testing purposes.

The company plans about six to eight more Roc test flights leading up to the first test flights of its hypersonic Talon-A test vehicle, of which Stratolaunch is presently developing two.

I have embedded below the fold the video of the flight, cued about one hour twelve minutes after the start of the live stream to the moment Roc takes off. Those geeks in my readership might want to go back to the beginning to hear the full almost six-hour-long broadcast. My impression is that Stratolaunch provided some excellent announcers to provide technical details describing what is happening.
» Read more

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The plan for clearing Perseverance’s sample carousel of debris

9:22 am

Debris in core sample carousel on Perseverance
Click for full image.

The Perseverance science team yesterday outlined the first steps in their plan to remove pieces of debris that had fallen into the core sample bit storage carousel, as shown by the picture to the right, and thus prevents them from storing further core samples.

First they have taken pictures of an area of the ground below the rover to establish a baseline. Then,

With this below-chassis, preliminary imaging, in hand, the team [will return] the remaining contents of Sample Tube 261 (our latest cored-rock sample) back to its planet of origin. Although this scenario was never designed or planned for prior to launch, it turns out dumping a core from an open tube is a fairly straightforward process (at least during Earth testing). We sent commands up yesterday, and later on today the rover’s robotic arm will simply point the open end of the sample tube toward the surface of Mars and let gravity do the rest.

This maneuver will tell them exactly how much material broke off the core when some pieces of it dropped into the carousel.

Next, on January 18th, they will have the bit carousel perform two short rotations, the first short and the second longer, to shift the debris in the carousel and get more information about it. Some might drop out with this maneuver, so they are also going to take more ground pictures to see if any did.

They have not yet outlined the next steps in this removal procedure, though they have said the need for this procedure was anticipated when the rover was designed. Thus they must know what those steps will be, but are likely holding off outlining them because they might need to revise their actions depending on what they learn in the next few days.

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Texas grants $5 million grants to two spaceport regions

12:45 pm

Texas today awarded $5 million grants to two spaceport regions, one in Houston and the other in Cameron County where SpaceX’s Boca Chica facility is located.

Governor Greg Abbott today announced Spaceport Trust Fund grant awards of $5,000,000 to the Cameron County Spaceport Development Corporation and $5,000,000 to the Houston Spaceport Development Corporation. Administered by the Governor’s Office of Economic Development and Tourism, the Spaceport Trust Fund is a financial tool to support the development of infrastructure necessary for establishing a spaceport in the state of Texas. The 87th Legislature appropriated $10,000,000 in funds in fiscal year 2022 to provide grants, disbursed on a cost-reimbursement basis, to help support the creation of quality jobs and attract continuing investments that will strengthen the economic future of the state.

The money is obviously intended to help pay for things like roads and bridges and other various improvements required to handle the increased traffic and population brought to the locations because of the new spaceport activity.

One wonders, however, why Houston got as much as the Boca Chica area. As far as I know, there is no spaceport begin built near Houston. It houses the Johnson Space Center, but that handles activities prior to and after launch.

I suspect there was some politics involved. Abbott couldn’t award Boca Chica while ignoring Houston, especially because Houston’s importance in the space industry is presently declining as the industry moves from a government-run model (epitomized by the Johnson center) to a private commercial model (epitomized by SpaceX’s Boca Chica facility). Abbott probably felt obliged to send some support Houston’s way to avoid accusations that he is ignoring its increasingly problematic position.

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A cracking and collapsing glacier on Mars

12:18 pm

Fractured ice sink hole on Mars?
Click for full image.

Cool image time! The photo to the right, rotated, cropped, and reduced to post here, was taken on November 4, 2021 by the high resolution camera on Mars Reconnaissance Orbiter (MRO). It shows a small portion of the floor of a very ancient and eroded unnamed 40-mile-wide crater on Mars.

MRO’s science team labeled this picture simply as a “Fractured Feature.” The section I have focused on in the cropped image is clearly the fractures the scientists were interested in. What is heck caused this?

The location is at 39 degrees north latitude and is located at the very western end and in the center of the 2,000-mile-long mid-latitude strip I call glacier country because practically every photo exhibits evidence of glaciers. Thus, this fractured terrain is almost certainly evidence of ice that partly buried and thus protected from sublimating away.

The collapse feature indicates more, however. The circular shape of the fractures suggests that the center of this feature is sinking, with the ice on all sides slipping downward and breaking as it does so. The location however is not in the center of this crater, but near its southern interior rim. Moreover, in a wider image from MRO’s context camera this feature appears to be within what looks like a thick patch of ice filling most of the southeast quadrant of the crater. On it are other similar collapse features.

The data suggests that this ice patch is eroding, but doing so influenced by the rough terrain on which it sits. The sinks suggest the glacial ice is sublimating first over low spots, but this is hardly certain.

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Virgin Galactic wants to borrow $500 million from investors to stay afloat

8:52 am

Capitalism in space: Virgin Galactic announced yesterday that it is offering investors a chance to loan it up to $500 million, an effort apparently to keep the company operating while it refits its WhiteKnightTwo carrier aircraft and its Unity spacecraft.

The company plans private offerings of $425 million in convertible senior notes that will mature in 2027, and an additional $75 million in notes is expected to be granted to the buyers, it said in a statement.

In response, the stock price for the company tumbled, dropping for the second time below the initial $11.75 price offered two years ago when the company went public. Unlike the previous time last week, the price has not quickly recovered, but has continued to fall, dropping to a new low today under $10.

When the company went public in early 2019, it predicted it would be flying commercial tourist flights in 2020. That did not happen, which should have been no surprise to investors considering the company’s failed track record of meeting its promised schedule. At present it says that the first commercial flight will occur near the end of this year. Don’t bet on it. I would not be surprised it bankruptcy occurs first.

Freedom carries great opportunity. It also carries great risk. For those who invested in Virgin Galactic and did not sell right after its one and only suborbital tourist flight in July ’21 (as did the company’s founder Richard Branson), it appears they are about to experience the latter.

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Virgin Orbit successfully launches seven satellites

4:12 pm

Capitalism in space: Virgin Orbit today successfully launched seven smallsats into orbit using its LauncherOne rocket released from a 747.

The link takes you to the Virgin Orbit live stream, which has now ended but can be replayed. The upper stage is presently coasting to its apogee where it will fire again to circularize the orbit for satellite deployment.

This was Virgin Orbit’s third successful launch, and second commercial launch.

The 2022 launch race:

2 SpaceX
1 Virgin Orbit

No one else as yet launched this year.

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Curiosity’s wheels holding up despite very mountainous and rocky terrain

12:01 pm

Wheel comparison on Curiosity after five months of rough travel
Click here and here for original images.

In the past half year the Mars rover Curiosity has moved into the mountainous foothills of Mount Sharp, crossing the roughest and rockiest terrain seen during its entire decade-long sojourn on the red planet.

Such terrain poses a serious threat to the rover’s already damaged wheels. Since early in the mission the science team had discovered that the wheels were more easily damaged by the Martian surface than had been expected when they were designed. Since then engineers have been very careful about picking the rover’s route, weaving it in and out to avoid the worst ground. They also take images of the wheels every few months to see if any additional damage has occurred.

The bottom image to the right is part of the most recent wheel survey, taken on January 11, 2022, the 3,353 sol the rover has been on Mars. The top image was taken about six and a half months earlier, in early June 2021. The numbers indicate the same tread areas in both pictures.

Based on this one comparison of part of one wheel, it appears that Curiosity’s wheels have not experienced much new damage, even though during the last half year it has climbed into the mountains and has been traveling continuously over rocks, stones, and boulders. Even now, as its sits in the stone valley beyond Gordon Notch, the ground everywhere is stark and forbidding. Yet, this wheel appears to show no new damage, suggesting that the rover’s full set of wheels are also holding up quite well considering its recent travels.

I focus on this particular wheel because it is the same wheel I have used for comparison since 2017, and thus provides a nice baseline for change. In fact, a comparison of today’s image with the one from 2017 shows that in four years there has been practically no change.

This data is quite encouraging, and bodes well for the mission, suggesting there is really nothing to stop Curiosity from climbing Mount Sharp for years to come.

Of course, this is a comparison of only one part of one of Curiosity’s six wheels. A review of the other wheels might suggest a different conclusion. I suspect however that the other wheels show the same thing. The engineers of Curiosity have done a miraculous job protecting the wheels these last four years.

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India gets a new head of its space agency

9:36 am

The new colonial movement: The Modi government of India has put a new person in charge of its space agency ISRO, scientist Dr S Somanath.

As he takes over as the 10th ISRO chairman, succeeding K Sivan, that will be one of the biggest challenges before Somanath — putting the agency’s human space flight programme back on track following setbacks due to launch failures, the Covid-19 outbreak, and a general slowdown since the failure of the Chandrayaan 2 robotic moon landing mission in September 2019.

As director of the Vikram Sarabhai Space Centre since 2018, and as head of the Liquid Propulsion Systems Centre, Somanath has been closely associated with developing the key rocket technology that will go into the mission.

He was the project director and mission director for the development of the GSLV Mk-III rocket that will be used for the programme. He has also been involved in making it usable for human flight in recent days.

Like Sivan, Somanath’s appointment is for a limited period of time, presently set for three years. Sivan’s had been extended a year during the Wuhan panic. Whether the almost complete shut down of India’s space effort during that panic, plus several launch failures, were a factor in this change is unclear, though they likely played a part in the decision. If all had gone as originally planned, Sivan’s appointment might have been renewed.

Somanath’s extensive background as a rocket engineer however appears to make him ideal for heading ISRO in the next few years, when it attempts its first manned launch.

In related news, ISRO today announced that it has successfully completed a 720 second qualification test of the cryogenic engine to be used in that manned flight.

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SpaceX launches 105 satellites on its third smallsat launch

9:14 am

Capitalism in space: SpaceX today successfully placed 105 satellites and other spacecraft into orbit using its Falcon 9 rocket.

The first stage successfully landed at Cape Canaveral, completing its 10th flight. The launch itself was SpaceX’s third launch dedicated to smallsats in its effort to compete against the small rockets of Rocket Lab, Virgin Orbit, and Astra for that the smallsat market.

Of those 105 satellites, I actually know the owners of two. First, Joe Latrell, frequent commenter here on BtB, put his first Pocketqube cubesat into orbit, testing a variety of space sensors that could be used to track global water use. Second, Jeremiah Pate’s first Lunarsonde prototype cubesat was launched. If successful, he hopes to launch a constellation of similar cubesats for detecting Earth mineral resources, with six more launches already scheduled in ’22 with SpaceX, Virgin Orbit, Rocket Lab, Northrop Grumman, and Arianespace.

This was SpaceX’s second launch in ’22. At the moment the company is the only entity worldwide to launch anything this year, though Virgin Orbit is targeting its own launch later today.

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Lucy update: Engineers testing solar panel fix on ground

3:44 pm

Engineers for the asteroid probe Lucy have begun doing ground tests on a duplicate solar array motor on Earth to see if their plan will work to get the partly deployed solar panel in space opened and latched.

If all goes right, they are aiming for an April attempt at deploying the panel.

In the meantime, the spacecraft continues its coast outwards, presently being about 30 million miles from Earth. Even though one solar array is not fully open, it appears the spacecraft is getting “ample power” for its present operations. It is unclear if this power — with one solar panel not fully opened — will be sufficient once the spacecraft reaches the region of Jupiter’s Trojan asteroids, much farther from Earth.

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Roscosmos struggles to figure out how private enterprise works

12:25 pm

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Liberty for private enterprise in Russia’s space industry?

Doug Messier at Parabolic Arc today published a translation of an interview given by Oxana Wolf, Roscosmos Deputy Director of the Department of Advanced Programs and the Sphere Project, describing Roscosmos’ effort to work with Russian private commercial aerospace companies.

Though she declared near the end of the interview that “We want our private companies to succeed,” the rest of the interview indicated that she and Roscosmos don’t really understand how private enterprise works, though it also appeared both are struggling to figure it out.

For example, when asked why Russia is having so much difficulty changing its regulations to encourage private enterprise, Wolf said the following:

I wondered this question. I saw at what point the Americans decided to change their legislation in order to raise a whole galaxy of private owners and entrust them with tasks that were previously solved by the state. Changes in space laws began in the 1980s, and laws that got [Jeff] Bezos, [Elon] Musk and [Richard] Branson and others on their feet were passed in the mid-1990s. That is, the “era of private traders education” began more than 30 years ago!

When the “private traders” proved their ability to provide quality services, the American government agencies involved in space, on a competitive basis, gave them orders for launches. [emphasis mine]

To her mind, the government led this change. In Russia’s top-down culture, such change must always come from above, from government leadership. However, her impression of this history is wrong. » Read more

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Scientists discover that mid-sized dunes near Mars’ north pole move

11:41 am

Mars' North Pole

Scientists using images from Mars Reconnaissance Orbiter (MRO) collected over six Martian years (6.5 Earth years) have found that the mid-sized dunes dubbed mega-dunes near the north pole actually do move from year to year, unlike similar sized dunes elsewhere on the planet.

Megaripples on Mars are about 1 to 2 meters tall and have 5 to 40 meter spacing, where there size falls between ripples that are about 40 centimeters tall with 1 to 5 meter spacing and dunes that can reach hundreds of meters in height with spacing of 100 to 300 meters. Whereas the megaripples migration rates are slow in comparison (average of 0.13 meters per Earth year), some of the nearby ripples were found to migrate an average equivalent of 9.6 meters (32 feet) per year over just 22 days in northern summer – unprecedented rates for Mars. These high rates of sand movement help explain the megaripple activity.

Previously it was believed that such dunes were static planetwide, left over from a time when Mars’ atmosphere was thicker and could then move them more easily. This data however suggests that the winds produced over the north pole when the carbon dioxide in the atmosphere freezes in winter and sublimates back to a gas in summer are sufficient to shift these dunes in the surrounding giant Olympia Undae dune sea.

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Orbit Fab wins contract to refuel Astroscale’s satellite repair robots

10:26 am

Capitalism in space: Orbit Fab today announced that it has won a contract to provide up to 1,000 kilograms of xenon fuel for the satellite robots launched by the private company Astroscale and designed to repair other satellites.

Orbit Fab, a startup founded in 2018, developed a refueling port known as RAFTI, short for Rapidly Attachable Fluid Transfer Interface. The port is being offered to government and commercial operators to make their satellites compatible with Orbit Fab’s refueling tankers.

The company last year deployed its first propellant-storage tanker in low Earth orbit and plans to launch its first tanker to geostationary orbit on a SpaceX Falcon 9 lunar lander mission projected for late 2022 or early 2023. Orbit Fab’s first two fuel shuttles in LEO are expected to be operational in 2023.

Once Astroscale begins launching its repair robots in ’26, those robots will be able to extend their life by refilling their tanks from Orbit Fab’s tankers, and thus repair more satellites while in orbit, thus serving more customers.

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InSight recovering from safe mode caused by Martian dust storm

9:34 am

Engineers have been able to regain contact with the Mars lander InSight after a Martian dust storm that put it in safe mode and cut off all communications for three days.

The mission’s team reestablished contact with InSight Jan. 10, finding that its power was holding steady and, while low, was unlikely to be draining the lander’s batteries. Drained batteries are believed to have caused the end of NASA’s Opportunity rover during an epic series of dust storms that blanketed the Red Planet in 2018.

The lander remains however in safe mode. The engineers hope they can resume limited science operations in about a week. Even before this even the limitations on InSight’s power generation due to dust on its solar panels had forced the science team to only gather data from the seismometer, and even then had to suspend all data gathering periodically.

Though the lander has survived this dust storm, it is presently unclear how much dust remains on its panels and thus how much power it can generate. If it only can generate enough power to keep the lander from freezing, but not do any science, it might be time to shut it down entirely.

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A butte on Mars

11:13 am

A butte on Mars
Click for full photograph.

Cool image time! Because the Martian geology inside the enclosed stone valley beyond Maria Gordon notch is so complex and exposed, the Curiosity science team is spending a lot of time there. As noted in their January 7th update:

[W]e are marvelling at the landscape in front of us, which is very diverse, both in the rover workspace and in the walls around us. It’s a feast for our stratigraphers (those who research the succession in which rocks were deposited and deduce the geologic history of the area from this). We are all looking forward to the story they will piece together when they’ve had a bit of time to think!

The image to the right, cropped and reduced to post here, was taken by the rover’s high resolution camera on December 18th, soon after it entered this stone valley and was part of scan covering both this butte as well as a nearby cliff. I had previously featured a close-up of the top of this butte and its incredible overhang on December 20, 2021. This image however shows the whole butte, which I estimate to be about 30 to 40 feet high is about 10 feet high.

Not only does the butte illustrate well the alien nature of this stark and barren Martian terrain, so does all the terrain surrounding it. The surface everywhere is nothing but pavement stones of all sizes. Once again, there is no life, something you practically never see on Earth.

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A tumbling 1,100-foot-wide asteroid

10:04 am

Nereus tumbling on December 10th close approach
Click for full image.

Using the Goldstone radio antenna in California, scientists have been able to take some of the highest resolution radar images of the 1,100-foot-wide asteroid Nereus during its close approach to Earth on December 10, 2021.

The montage to the right, cropped to post here, shows twelve images from the 39-image sequence, which can also be viewed as an animation here.

During the asteroid’s close approach, an image resolution of about 12.3 feet (3.75 meters) per pixel was possible, revealing surface features such as potential boulders and craters, plus ridges and other topography. Asteroid Nereus’ previous approach in 2002 was near enough to Earth to reveal the asteroid’s size and overall shape, but too distant to show surface features. The new observations will also help scientists better understand the asteroid’s shape and rotation while providing them new data to further refine its orbital path around the Sun.

The asteroid will not make a similar close-approach again until 2060.

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SpaceX pushing to launch 2nd generation Starlink satellites by March

9:36 am

Capitalism in space: In paperwork filed by SpaceX to the FCC, it has announced it is pushing to launch the first second generation Starlink satellites by March, 2022.

While some news reports have suggested that SpaceX intended to launch those upgraded satellites on Starship, this reporting is certainly wrong. As the article at the link correctly notes, SpaceX does not have to state what rocket it plans to use in its paperwork. It could very easily launch these first upgraded satellites on a Falcon 9.

The story however does provide this interesting tidbit about the FCC’s treatment of SpaceX in this licensing process:

SpaceX filed the first unmodified Gen2 Starlink application with the FCC in May 2020, requesting permission to launch an unprecedented 30,000 satellites. While the size of the proposed constellation is extraordinary, the FCC has also been exceptionally slow to process it. Only five months after SpaceX submitted its Starlink Gen2 modification request and nineteen months after its original Gen2 application did the FCC finally accept it for filing, which means that it has taken more than a year and a half to merely start the official review process. [emphasis in original]

In other words, the FCC stalled SpaceX for more than a year and a half. If the DC bureaucracy can play such games with Starlink, this suggests it might very well be doing the same with the approval of the environmental reassessment for SpaceX’s Boca Chica facility, which the FAA has now delayed repeatedly since last year. There are many people in Washington, both in the Biden administration and in the established and permanent bureaucracy, who do not like SpaceX’s success or its independence, and wish to use government power to squelch it. This story provides us some evidence that such misuse of government power in the FAA is very likely occurring.

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An independent Russian private space company?

9:20 am

Capitalism in space? The Russian company S7 Space announced today that plans to soon begin tests of the fuel tanks of its proposed reusable smallsat rocket, and is in the process of deciding what Russian facility to use.

“We plan to test the rocket’s elements, namely fuel tanks of a smaller size, with a diameter of 1.5 meters. The trials are aimed at proving that the structure is durable. A concrete laboratory is yet to be selected for the purpose. In other words, there has been no firm contract for trials so far,” [explained the head of the company’s technological research department, Arseny Kisarev.]

The official expressed hope that the trials would be carried out by TsNIIMash (Central Research Institute of Machine Building), a main research institution of Russia’s state-run space corporation Roscosmos.

“However, choosing another lab is also possible, if it corresponds to our requirements of the testing procedure,” he said.

This rocket was first announced in 2019. Development was suspended in 2020, however, when the Putin government imposed new much higher fees on the company for storing the ocean launch platform Sea Launch, fees so high that the company was soon negotiating to sell the platform to a Russian state-run corporation.

It is not clear whether that sale ever occurred, but the company itself appears only now to be resuming some operations. Though today’s story suggests it is operating independent of the control of Roscosmos and the Russian government, this is quite doubtful. Russia today functions much like the various Mafia mobs in the U.S. The various different government agencies divide up the work into “territories” that belong to each company. No other independent company can enter that territory and compete for business. Since S7 Space wants to build its own rocket, that makes it a direct competitor with Roscosmos and the government design bureaus within it that build the various Russian rockets.

More likely Roscosmos wants S7 Space to survive, but under its control and only for the purpose of building a smallsat rocket for Roscosmos. S7 Space appears to be struggling to stay independent, with this announcement likely part of that struggle.

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Strange land forms on the flanks of Mars’ Arsia Mons volcano

1:24 pm

Strange landforms on the flanks of Arsia Mons
Click for original image. Click here for the context camera image.

Cool image time! The center of the photo to the right was taken by the high resolution camera on Mars Reconnaissance Orbiter (MRO) on September 5, 2021. For posting here I have rotated, cropped, and reduced it, as well as added to each side the lower resolution context camera image of this region.

The ground slopes downhill to the north. Make sure you click on the image to see the full resolution version. In only a few miles the terrain changes from a mound with small knobs to a smooth area with few knobs to a chaotic area where the larger ridges and knobs are the dominant feature, with hollows and canyons in between.

You should also take a look at the full context camera image. Just to the southeast of the above picture is a large depression that looks like it has been filled with lava, with its western rim covered by that flow. Scientists have taken a lot of high resolution pictures of this depression with MRO, trying to decipher its geology.
» Read more

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Data from China’s Chang’e-5 lander detects very tiny amounts of water in lunar soil

9:29 am

The uncertainty of science: In a paper published yesterday, Chinese scientists revealed that data from an instrument on the Chang’e-5 lunar lander has detected evidence of very tiny amounts of water in lunar soil, amounts that confirm past data showing the Moon is very dry.

From China’s state-run press:

The study published on Saturday in the peer-reviewed journal Science Advances revealed that the lunar soil at the landing site contains less than 120 ppm water or 120g water per ton, and a light, vesicular rock carries 180 ppm, which are much drier than that on Earth. … The additional 60 ppm water in the rock may originate from the lunar interior, according to the researchers. [emphasis mine]

It is believed that most of this water is the result of hydrogen in the solar wind.

The paper can be found here.

Before we begin dancing in joy that the Moon is wet, reread the highlighted words. This data instead simply confirms past data that the Moon is very dry. In the paper itself, it is made very clear that this high water content, small as it is, was only detected in a single rock, with all of the surrounding terrain much much drier. From the paper:

The water contents are less than 30 ppm in most measured regolith spots except for [areas] D12 and D17, which may be due to the disturbance of the top layer of the more space-weathered/solar wind–implanted regolith by the lander exhaust and the subsequent sampling process. The unsampled areas of D12 and D17 may have been shielded by [a rock] from the lander exhaust and thus retain the top space-weathered layer that contains higher water content. We predict that higher water content may be found in surface regolith than that from the subsurface of the returned borehole samples if the original stratigraphy is preserved. The estimated water contents of the regolith in the landing area are in agreement with those measured in the Apollo regolith samples and the orbital observations.

In other words, the higher water content, still very dry, appears to only exist on the surface, which is why they suspect it is produced by the solar wind and is also very temporary.

Moreover, there are many uncertainties in this result. The detection might not even be water, but hydroxyl molecules.

What this study suggests is that the patches of suspected water that some orbiters think they have identified in low latitudes on the Moon may simply be these surface molecules left by the solar wind, and that if there is usable water on the Moon, it will only be found in those permanently shadowed craters at the poles, if there.

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Webb’s primary mirror successfully deployed

2:54 pm

Today engineers successfully completed the unfolding of the primary mirror on the James Webb Space Telescope.

The two wings of Webb’s primary mirror had been folded to fit inside the nose cone of an Arianespace Ariane 5 rocket prior to launch. After more than a week of other critical spacecraft deployments, the Webb team began remotely unfolding the hexagonal segments of the primary mirror, the largest ever launched into space. This was a multi-day process, with the first side deployed Jan. 7 and the second Jan. 8.

Mission Operations Center ground control at the Space Telescope Science Institute in Baltimore began deploying the second side panel of the mirror at 8:53 a.m. EST. Once it extended and latched into position at 1:17 p.m. EST, the team declared all major deployments successfully completed.

Next step over the next few months will be aligning the primary mirrors 18 segments with each other as well as the secondary mirror. First science images are expected during the summer, but do not be surprised if NASA releases some test images before then, should all be well and it obtains some eye candy.

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