Tag: engineering

Update on SpaceX’s Starship and Superheavy

8:50 am

Link here. The article not only outlines the test program leading to the first launch of prototypes Starship #24 and Superheavy #7, it describes the status of later prototypes, as well as the construction of SpaceX’s Starship launch site in Florida. Key quote:

Booster 7’s gradual approach to static fire testing will allow the teams to fix issues as they test and fully mature procedures and software ahead of the long-awaited orbital flight of Starship. Should this gradual testing go without a hitch, it could culminate in one or perhaps even two 33-engine static fire tests of Booster 7 on the OLM [orbital launch mount].

Once this testing is completed and any issues found fixed, it’ll be cleared to proceed into another phase of testing: Ship 24 will then be stacked on top of Booster 7 for combined tests. This could include launch countdown simulations, an eventual full-up countdown, and a 33-engine static fire test.

SpaceX hopes to complete this by mid-next month and clear both vehicles for launch shortly after. However, as we’ve seen in the past few weeks, any issues encountered during this intense test campaign could well mean a slip to later into the year and, perhaps, into next year.

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September 14, 2022 Quick space links

3:20 pm

Links courtesy of BtB’s stringer Jay, who does the trolling on Twitter so I don’t have to. Commentary however is mostly by yours truly.

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The new in-space repair and refueling industries that are about to revolutionize space exploration

2:57 pm

Robot repair, as imagined in 1979
Robots doing work in orbit, as imagined in 1979

When Orbital ATK announced in 2016 that its robotic Mission Extension Vehicle (MEV) — designed to dock with and extend the life of defunct commercial communications satellites — had won its first contract with Intelsat, that contract award only came after several years of persistent campaigning.

In fact, Orbital ATK had had great difficulties getting any satellite communications company interested. At the time, all communication satellites were in geosynchronous orbit, were expensive to build, but lasted routinely from 10 to 15 years. The satellite companies didn’t see a need to fix them when they ran out of fuel. It seems better to launch a new replacement.

Even after winning that contract with Intelsat, it was still four years before that MEV docked with Intelsat’s satellite, bringing it back to life. In the interim Northrop Grumman (which had purchased Orbital ATK in a merger) had managed just one other contract, even as it had announced upgrades to the MEV to allow it to service many satellites, not just one.

The satellite industry seemed in those days to be largely resistant to the concept of repairing and refueling its older satellites.

No more. We are on the cusp of a major revolution in satellite operations, driven first by innovations like the MEV, but accelerated greatly by the new satellite companies launching low orbit constellations. These new companies are willing to take risks, and thus have also shown an eager desire to link their satellites to a variety of in-space services that they themselves did not wish to provide, from satellite repair and refueling to tug services to space junk removal to quick and controlled de-orbit technologies.

The variety and innovation of this new industry is somewhat astonishing, especially considering how young an industry it is.
» Read more

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The shattered cliffs of Mount Sharp

11:04 am

A broken cliff on Mars

Cool image time! The picture above was taken on August 11, 2022 by the left navigation camera on the Mars rover Curiosity. It shows a great example of the strange manner in which the bedrock in the layered cliffs on Mount Sharp appear to break apart.

I am not certain exactly where this feature is, or its exact scale, but based on the date and where Curiosity was located when the photo was taken, it likely is a small section from one of two hills, Deepdale and Bolivar, that Curiosity passed between in mid-August. It is likely somewhere in the panorama included in my August 11th post, but I have not yet been able to locate it.

Nonetheless, the breakage here is typical of these cliff faces. The structural strength of these layered hills is not very high, so at some point one section can break away from another as the hill sags downward to the left. What makes the cracks here more intriguing is that something caused the higher sections surrounding the main block to widen. On Earth we would assume that this widening was caused by rainwater pouring in from the top. On Mars, that explanation doesn’t hold water.

Wind? Seasonal thermal changes? Neither explains the change in the width of the cracks along their length. Maybe the wider cracks indicate an increased sagging of the hill to the left. The layers below this broken block have simply not slid to the left as much.

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Blue Origin’s BE-4 rocket engine experiences more delays

9:27 am

Capitalism in space: Though Blue Origin appears only a few weeks from delivering its first flightworthy BE-4 rocket engine to ULA for use in that company’s new not-yet-launched Vulcan rocket, the second flightworthy engine is further delayed due to technical problems discovered when static fire testing began.

Sources told Ars that the first engine was put onto the test stand in Texas early in August, but almost as soon as work began to hot-fire the powerful engine, an issue was discovered with the engine build. This necessitated a shipment back to Blue Origin’s factory in mid-August, as the company’s test stands in Texas do not allow for more than minor work.

As a result of this technical issue, ULA now appears likely to get one flight engine this month, but it probably will not receive the other one for installation onto the Vulcan rocket before mid-October, assuming a clean battery of tests in Texas.

This issue almost certainly means that Vulcan will not attempt its first launch this year. The rocket is thus more than three years behind schedule.

The problems outlined here however are far greater than simply the technical issues with this one engine. First, Blue Origin’s pace of operations continues to be far too leisurely. Nothing the company has done since 2017 has proceeded with any sense of urgency, and thus neither ULA nor Blue Origin have been able to launch their rockets.

Second, and far more important, Blue Origin is supposed to be manufacturing the BE-4 for two rockets, both Vulcan and its own New Glenn. Neither rocket will be reusable to begin with, which means the number of needed engines required at first will be high. For example, ULA has contracts to launch Vulcan twice almost immediately, with the need to follow these with several military launches. Each launch will require two BE-4 engines, so Blue Origin at a minimum needs to manufacture four engines, probably more, just to fulfill its obligations to ULA. To supply its own New Glenn rocket, it needs seven BE-4 engines for each launch, with the company having four launches on its manifest for 2023.

All told, Blue Origin thus has to deliver, at a minimum, 32 engines in 2023 alone, to meet its contractual obligations. And since the rockets and engines will be untested, expect at least one or two launch failures that will further increase the need for more engines.

Yet, there is no sign that Blue Origin has figured out how to manufacture these engines on an assembly line basis. Even if it gets these two engines delivered soon, it is unclear it can produce a lot of flightworthy engines fast enough to meet this launch schedule. Expect therefore that both rockets will continue to experience launch delays that could stretch out years.

Meanwhile, a plethora of new rocket companies have been appearing, all aiming eventually to compete with Blue Origin and ULA. If Blue Origin doesn’t get a move on, these new companies will soon be in a position to replace both it and ULA, entirely.

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Astrobotic acquires bankrupt Masten

9:05 am

Capitalism in space: Astrobotic announced this week that it has successfully purchased Masten, a bankrupt company that for almost two decades specialized in developing suborbital vertical rocket landing technology.

This acquisition will combine the workforce of the two companies, and give Astrobotic control over Masten’s test sites at Mojave. Since Astrobotic is one of the many companies with a NASA contract to build lunar landers, the experience of Masten’s workers — experienced experts in vertical rocket landings — will be immeasurable.

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Update on CAPSTONE, still in safe mode

8:57 am

According to a detailed update from Advanced Space, the private company operating CAPSTONE for NASA, engineers have partly recovered control of the spacecraft after an anomaly had caused it to tumble and lose power.

It appears the problem that occurred on September 8th near the end of an mid-course correction engine burn was more serious that NASA initially revealed. CAPSTONE was tumbling out-of-control, its use of power was exceeding the power the solar panels were generating (draining its batteries), and the computer was periodically rebooting.

Since then engineers at Advanced have managed to stabilize the tumbling so that the spacecraft’s batteries were gaining power rather than losing it. Communications were re-established and the computer was also stabilized so that the spacecraft was able to get into a good safe mode. It remains however in a poor orientation that limits communications, power, and prevents proper operations.

While work is ongoing to diagnose the cause of the anomaly, the team is preparing the spacecraft to attempt a detumble operation to regain attitude control of the vehicle. This detumble operation was successfully demonstrated after separation from the launch vehicle in July. A successful detumble will result in the vehicle resuming control of its orientation, orienting the solar panels to the Sun to fully charge the batteries of the power used during the detumble. The spacecraft will then orient to the ground and await further instructions.

When this operation will occur was not stated, but it certainly will take place as soon as possible.

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InSight’s power levels rise again

10:16 pm

InSight's power levels through September 10th

Based on another status update issued today by the InSight science team, the electricity generated by the Mars lander’s dust-covered solar panels increased again slightly in the past week, going from 410 watt-hours per day to 420 watt-hours per day.

The graph to the right shows the trends since May. The science team had expected the power levels to steadily drop throughout the summer so that by early September the lander would die.

Instead, the power levels remained steady throughout the summer, and have in the past two weeks actually risen slightly, thus extending InSight’s life.

If at any moment a strong gust of wind or dust devil sweeps over InSight, the panels could be blown clear and it would gain a rebirth. The longer it manages to survive, the greater the chance that this might happen.

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September 13, 2022 Quick space links

4:48 pm

Courtesy of stringer Jay.

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China’s Long March 7A launches communications satellite; dumps debris on Philippines

9:19 am

China today launched its Long March 7A rocket from its coastal Wenchang spaceport, successfully placing a communications satellite into orbit.

The coastal launch site meant that the rocket’s lower stages would not fall on China’s interior. Instead, it appears the drop zones were located in the Philippines.

The [Philippines Space] agency said it was able to verify the estimated drop zones of the rocket debris from a notice by the Civil Aviation Administration of China. “Two drop zones within the Philippine territory have been identified based on the NOTAM: Drop zone 1 is approximately 71 kilometers from Burgos, Ilocos Norte, while drop zone 2 is approximately 52 kilometers away from Sta. Ana, Cagayan,” PhilSA said in an advisory.

No word on whether this debris caused any damage. Regardless, China is continuing its policy, in violation of the Outer Space Treaty, of recklessly dumping rocket stages on others.

The leaders in the 2022 launch race:

41 SpaceX
37 China
11 Russia
6 Rocket Lab
5 ULA

American private enterprise still leads China 56 to 37 in the national rankings, but is now tied with the entire world combined 56 to 56. This tie will likely not be long-lived. Though Firefly’s launch has been delayed until next week, SpaceX and Rocket Lab have launches scheduled for today and tomorrow, respectively.

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NASA revises its SLS launch schedule, pending approval of the range’s safety office

6:13 pm

NASA today announced that it is now targeting September 27, 2022 for the first test launch of its SLS rocket and Orion capsule.

Engineers have — on the launchpad — completed the repair work on the hydrogen leak that caused the previous launch scrubs. The plan now is to do a test fueling on September 21st to see if the repair worked.

If all is then well, the agency wants to launch on September 27th. To do so however NASA needs to get the approval of the safety range office to waive the use-by date of the batteries used to terminate the flight after launch, should something go seriously wrong. The rules require those batteries to be checked every 20 days, and as of today they have been in use for 31 days. The range had already given NASA a five day waiver so it could try to launch on September 5. To launch on September 27th will require the range to allow those batteries to remain unchecked for 46 days, more than double their accepted use-by date.

For the range to allow such a waiver would be I think entirely unprecedented, especially for the very first launch of a new rocket. Such test launches are exceedingly risky. A lot can go wrong, and often does when a rocket tries to fly for the first time. To allow such a lift-off with a questionable flight termination system seems completely insane and irrational.

NASA is also proposing an October 2nd launch date. I suspect this date is based on the range safety office refusing to give this waiver. If so, NASA would then do its September 21st fueling test on the launchpad, quickly roll the rocket back to the assembly building to check the batteries, and then try to get it back to the launch pad in time for that October 2nd date.

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InSight’s power level goes up!

5:54 pm

InSight's power levels as of September 5, 2022

The most recent status update on the Mars lander InSight, released today, shows a slight rise in the amount of power generated by its dust-covered solar panels.

As shown on the graph to the right, on August 27, 2022 the power level was 400 watt-hours generated per Martian day. On September, 5, 2022, the power level was 410 watt-hours per Martian day, the first power increase since late July. At the same time, the dust in the atmosphere continued to clear, going from a tau level of .88 to 0.8. Outside of the winter dust season tau is usually between 0.6 and 0.7.

The slight power increase continues to suggest that the lander’s death might be delayed. At 400 watt-hours per day, it has been able to run its seismometer since the beginning of July. With this slight increase, the chance increases that InSight will finally get that one gust of wind or dust devil that will blow the dust off its solar panels and allow it to recover some power and operate for longer.

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Crazy badlands in the equatorial region of Mars

2:49 pm

Badlands in the equatorial regions of Mars
Click for full image.

Cool image time! The photo to the right, rotated and cropped to post here, was taken on June 17, 2022 by the high resolution camera on Mars Reconnaissance Orbiter (MRO). The section highlighted is at full resolution, in order to make clear the absolutely crazy and complex terrain seen in the full image.

This terrain is not glacial, as the location is only about 1 degree south of the Martian equator. There might have been surface or near surface ice here once in the past, but there is none now.

Could we be looking at some form of lava flow? This is possible, because a close look at the context map at the image link suggests this region has been partly covered by some material, obscuring some craters to the east and west. However, there is no visible evidence anywhere in this region of a volcanic vent or caldera. If this covering material was volcanic it is very unclear where it came from.

The overview map below does not really provide any answers, but at least gives the context.
» Read more

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September 12, 2022 Quick space links

1:17 pm

Courtesy of stringer Jay.

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Blue Origin suborbital flight aborted during ascent

9:09 am

Capitalism in space: For what appeared to be an engine issue in the booster during the ascent phase, Blue Origin was forced to abort an unmanned New Shepard suborbital flight today.

I have embedded the live steam below, cued to just before the abort. It appears that something went seriously wrong with that first stage booster. The abort system immediately activated, separating the capsule and firing the capsule’s abort engines to take it safely away, with its parachutes bringing it down safely. That first stage booster was likely destroyed.

This particular suborbital flight fortunately was the first carrying no passengers since Blue Origin began commercial flights. Its payloads were a variety of experiments and commercial packages.

Regardless of the issue, Blue Origin will not be doing suborbital flights now for a considerable time, pending an investigation into this failure.

» Read more

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Firefly scrubs launch of Alpha rocket

7:37 am

UPDATE: September 12th launch scrubbed due to weather. No word on when the next launch attempt will be scheduled.

Original post about September 11th scrub:
————–
After making two attempts, engineers at Firefly yesterday finally scrubbed the launch of their Alpha rocket, rescheduling the next attempt for today with a four hour launch window opening at 3 pm (Pacific).

Firefly has yet to make orbit. Their first launch attempt last year of Alpha failed when one first stage engine shut down prematurely due to a loose connection.

If you wish to watch the launch, I will embed the live stream below, once it goes live later today.

UPDATE: I have embedded the live stream below, with it beginning at 1:30 pm (Pacific).
» Read more

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CAPSTONE in safe mode

1:07 pm

The lunar orbiter CAPSTONE, presently on its way to the Moon, went into safe mode on September 8th at the end of a mid-course correction engine burn.

The CAPSTONE mission team has good knowledge of the state and status of the spacecraft. The mission operations team is in contact with the spacecraft and working towards a solution with support from the Deep Space Network.

Under such conditions engineers almost always recover the spacecraft so that the mission proceeds as normal. No guarantees of course, but it is not unreasonable to expect the same with CAPSTONE.

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SpaceX launches 34 Starlink satellites plus commercial satellite for AST Mobile

6:30 pm

Capitalism in space: SpaceX today successfully used its Falcon 9 rocket to launch 34 additional Starlink satellites into orbit. It also launched another customer’s communications satellite, AST Mobile’s BlueWalker-3.

The first stage successfully completed its record 14th flight, the most times a Falcon 9 first stage has been reused. It landed on a drone ship in the Atlantic. In addition, the two fairing halves completed their 4th and 5th flights, respectively. As of this writing, the satellites have not yet deployed from the upper stage.

The leaders in the 2022 launch race:

41 SpaceX
36 China
11 Russia
6 Rocket Lab
5 ULA

American private enterprise now leads China 56 to 36 in the national rankings, and the entire world combined 56 to 55. That U.S. lead stands a good chance of increasing this weekend, as tomorrow SpaceX plans another Starlink launch, but more significantly, Firefly will make the second attempt to complete the first launch of its Alpha rocket, almost a year after the first failed attempt.

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Defense to help Commerce create its own ability to track orbital objects

12:40 pm

The Defense and Commerce departments yesterday signed an agreement where Defense will help Commerce create its own capability for tracking of all objects in orbit, from satellites to space junk.

The agreement, the Commerce Department said in a statement, defines how the two departments will work together to implement provisions of Space Policy Directive (SPD) 3 in 2018 that directed commerce to provide space situational awareness (SSA) and space traffic management (STM) services, such as conjunction warnings, currently provided by the U.S. military.

The result of this is that the federal government is now creating a second bureaucracy to do what the military has been doing quite capably for more than a half century. Commerce intends to obtain its data by awarding contracts to private companies, who will do the actual tracking. The irony is that it is very possible the military will eventually sign similar contracts with the same companies, thus paying them twice for the same service. Meanwhile, Washington has an excuse for hiring more people.

Even more ironic, this policy directive was issued during the Trump administration. It might have intended for Commerce to replace the military, but under the Biden administration the federal bureaucracy is being allowed to interpret the policy more broadly, thus allowing both agencies to do the work.

I also guarantee that the Republicans will almost certainly do nothing to change this, should they take over Congress. For the past thirty years this so-called party of small government has done nothing to earn that title. Instead, it has simply engineered the growth of government, in a more subtle and deliberate manner.

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FAA and NTSB sign deal dividing turf for investigating space accidents

11:46 am

FAA & NTSB agreement

Turf war! The FAA and the National Transportation Safety Board (NTSB) yesterday signed an agreement that divides up the responsibilities for investigating accidents that occur in or by space entities.

You can read that agreement here [pdf]. A screen capture of the key clauses is to the right. Essentially, the NTSB will lead any investigation that either causes death or injury, or involves damage to property not related to the space operation itself, while the FAA will lead all other investigations.

The agreement also has a lot of clauses describing how the two agencies will work together in dividing up this turf before, during, and after investigations. Above all, the agreement now authorizes both agencies to “conduct its own analysis and determine its respective conclusions and recommendations in accordance with its authorities.”

The agreement stems from an effort by the NTSB to take over all space-related accident investigations it proposed in November 2021 that both the FAA and industry strongly opposed. This agreement however shows that the Biden administration ignored those objections in order to give the NTSB a wider range of power, while also giving bureaucrats in both agencies more power as well. Under this agreement, every space incident is now going to be investigated twice, with both the NTSB and FAA doing their own investigations.

Expect this agreement to be used by the Washington bureaucracy to slow or shut down innovation and new technology. The NTSB is designed to investigate incidents caused in the long established and robust airline industry, not developing cutting-edge experimental work. It will naturally act to discourage such experimental work.

Meanwhile, the FAA will chime in with its own investigation and analysis. The competing results will only cause confusion and disorder, thus further acting to discourage any new and risky innovations.

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A “what the heck?!” mesa in the southern polar regions of Mars

4:49 pm

A
Click for full image.

Cool image time! The photo to the right, rotated, cropped, and reduced to post here, was taken on July 28, 2022 by the high resolution camera on Mars Reconnaissance Orbiter (MRO). It shows what the scientists label a “Circular and Banded Landform.”

I put this mesa into a geological category I dub “What the heck?!” We are clearly looking at a mesa, probably no more than 200 feet high, if that. What makes it baffling are the parallel bands that not only cut across the mesa but extend in the same direction for many miles in all directions. Though at first glance these bands appear to be dunes, their rocky eroded look along the mesa’s northwest rim suggests instead the bands are the top edge of many vertically oriented parallel layers, which at this mesa’s flanks are eroding alternatively at different rates.

The overview map below shows us where this mesa is located, relative to the south pole.
» Read more

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SpaceX successfully test fires all six engines on Starship prototype #24

10:08 am

Capitalism in space: SpaceX yesterday successfully completed for the first time an eight-second-long static fire test of all six engines on Starship prototype #24.

I have embedded video of the test below. The amount of power exhibited is quite impressive. In fact, it was so powerful it likely melted the concrete below the rocket, sending hot debris flying that caused a major brushfire.

Most likely, eight long seconds of blast-furnace conditions melted the top layer of surrounding concrete and shot a hailstorm of tiny superheated globules in almost every direction. Indeed, in almost every direction there was something readily able to burn, a fire started. In several locations to the south and west, brush caught fire and began to burn unusually aggressively, quickly growing into walls of flames that sped across the terrain. To the east, debris even made it into a SpaceX dumpster, the contents of which easily caught fire and burned for hours.

Eventually, around 9pm CDT, firefighters were able to approach the safed launch pad and rocket, but the main fire had already spread south, out of reach. Instead, they started controlled burns near SpaceX’s roadblock, hoping to clear brush and prevent the fire (however unlikely) from proceeding towards SpaceX’s Starbase factory and Boca Chica Village homes and residents.

The rocket itself came though the test unscathed, a major milestone on the path to its first orbital flight.

During a launch, the rocket would have quickly lifted off, and thus caused far less stress to the concrete on the ground. Nonetheless, this test suggests SpaceX needs to do more pad preparation for any tests of Superheavy prototype #7, which has 33 engines at its base.

» Read more

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NASA wants to launch SLS in September; needs range safety office waiver to do it

9:39 am

In outlining the status of the repair work on the hydrogen leak on SLS on the launchpad yesterday, NASA officials indicated that they are targeting a September 23rd launch date that will require the Space Force range safety office to okay the use of a flight abort system with batteries that are significantly past their use-by date.

NASA has submitted a request to the Eastern Range for an extension of the current testing requirement for the flight termination system. NASA is respecting the range’s processes for review of the request, and the agency continues to provide detailed information to support a range decision.

The range office had required that the batteries for that flight termination system be checked every 20 days, a process that requires the rocket to be rolled back to the assembly building. It had already given NASA a five day extension to 25 days, but even that was insufficient to get the rocket launched in its previous launch window, expiring on September 6th. Though NASA has not said how long an extension it is requesting, to do a September 23rd launch would require another extension of 17 days, making for a total 23-day waiver for those batteries. Thus, instead of limiting the life of those batteries to 20 days, NASA is requesting the range to allow the batteries to go unchecked for 43 days, at a minimum.

For the range to give that first waiver I think is somewhat unprecedented. To do it again, for that much time, seems foolish, especially as this will the rocket’s first launch, and a lot can go wrong.

NASA officials also hinted during yesterday’s press conference — in their bureaucrat way — that human error might have caused the hydrogen leak.

NASA has not confirmed if an “inadvertent” manual command that briefly overpressurized the hydrogen fuel line caused the leak, but the agency is investigating the incident. Bolger said new manual processes replaced automated ones during the second attempt and the launch team could have used more time to practice them. “So we didn’t, as a leadership team, put our our operators in the best place we could have,” Bolger said. During the Sept. 17 fueling test, NASA will try out a slower, “kinder and gentler” process that should avoid such events.

If the Space Force and the Biden administration demand the range officer allow this rocket, with this team, to be launched with a questionable flight termination system, we should expect public resignations from several range officers. Whether anyone in our present government however has the ethics to do such a thing appears very doubtful.

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September 8, 2022 Quick space links

3:30 pm

Courtesy of string Jay:

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Russia confirms Luna-25 delayed till next year

8:42 am

The landing area for Luna-25
The landing zone for Luna-25 at Boguslawsky Crater

The head of Roscosmos, Yury Borisov, confirmed yesterday that the launch of Russia’s first lunar science probe since the 1970s has been delayed until 2023.

The Doppler speed and distance sensor made by the Vega Concern owned by the Rostech State Corporation, that could guarantee a soft landing, underperformed in terms of measurement precision, a source in the space industry told TASS in July. The launch will likely be postponed until 2023, the source added.

Russian sources had indicated in July that this delay was likely. Yesterday’s announcement merely made it certain.

This project has been under development for almost a quarter of century, which appears to be the average development time for government-run projects, whether in Russia or in the U.S. Just long enough to provide an almost entire career for bureaucrats.

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Arianespace’s Ariane-5 rocket launches communications satellite

5:29 pm

Arianespace today used its Ariane-5 rocket, launching from French Guiana, to successfully place a Eutelsat communications satellite into orbit.

This was the fourth successful launch this year for Arianespace, so Europe still does not make the leader board. The company had predicted it would launch eleven times in 2022. At this moment it appears very questionable it will be able to match that prediction.

The leaders in the 2022 launch race:

40 SpaceX
36 China
11 Russia
6 Rocket Lab
5 ULA

American private enterprise still leads China 55 to 36 in the national rankings, but is now tied with the entire world combined 55 to 55.

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Axiom chosen by NASA to build first Artemis moonsuits

5:22 pm

Capitalism in space: NASA today awarded Axiom the contract to build the moonsuits the astronauts will use on the first lunar landing of its Artemis program, dubbed Artemis-3.

After reviewing proposals from its two eligible spacesuit vendors, NASA selected Axiom Space for the task order, which has a base value of $228.5 million. A future task order will be competed for recurring spacesuit services to support subsequent Artemis missions.

The contract award continues NASA shift from its failed spacesuit effort — taking fourteen years and a billion dollars to produce nothing — to hiring the private sector to do it.

Previously NASA had awarded contracts to both Axiom and Collins Aerospace to build spacesuits, either for spacewalks or on the Moon. Today’s award is specifically for moonsuits for that first lunar mission.

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Ingenuity completes 31st flight

3:06 pm

Perseverance's location on September 2, 2022
Click for interactive map

Though no details have yet been released, the engineering team for the Mars helicopter Ingenuity has posted the numbers for the helicopter’s 31st flight, which took place yesterday.

Ingenuity flew 318 feet to a height of 33 feet for 56 seconds. The maximum ground speed was 10.6 mph. The white dot on the map to the right indicates the approximate landing spot. The blue dot Perseverance’s location as of September 3rd.

The flight plan had been to fly 319 feet, so Ingenuity landed one foot short of that plan.

That difference does not indicate any problems. However, one of the present goals of the engineering team is to improve their landing accuracy in order to provide data for the future sample return helicopter that is now in development to come and get Perseverance’s sample cores. That future helicopter will need to be able to land very precisely, and they are using Ingenuity to refine the Martian flight software.

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An example of the youngest big lava flow on Mars

1:34 pm

An example of the youngest big lava flow on Mars
Click for full image.

Overview map

Cool image time! The photo above, rotated, cropped, and reduced to post here, was taken on May 13, 2022 by the high resolution camera on Mars Reconnaissance Orbiter (MRO), and shows two dramatic ancient flows of flood lava. The arrows indicate what I think is the direction of flow for each, though the direction of the flow to the north appears more certain. In a wider context camera image the bulk of the evidence suggests the southern flow is heading west (as indicated by the arrow), but there are scalloped mesas within it that suggest the opposite.

The overview map above marks the location of this picture by the white cross inside the Athabasca Valles flood lava, thought by some scientists [pdf] to be Mars’ youngest major lava event that erupted about 600 million years ago and in just a matter of a few weeks poured out enough lava to cover an area about the size of Great Britain.

The general trend of the Athabasca flow was to the south, splitting into a big western and southeastern flows. This picture captures the southern edge of that southeastern flow, which might help explain why the flow directions in the picture seem so different from the main Athabasca flow. On a large scale, the flow was to the southeast. On a small scale at the edges the flow could go in many directions as the lava looks to find its level.

The Medusa Fossae Formation is the largest volcanic ash deposit on Mars, and is thought to be the source of most of the red planet’s dust. Though the origin of the ash is not yet known, it likely came from the eruptions that formed the planet’s giant volcanoes to the east and west.

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