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#1 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » Yesterday 20:36:34
I intruded on a new topic by (th), but what to fetch that post back here for access: https://newmars.com/forums/viewtopic.ph … 52#p238552
Quote:
For the polar areas of the Moon, a tower with hanging tent and solar panels on rails to be sun facing:
The light brown represents the regolith which the universe has been chewing up for us for billions of years.
The Dark Brown would be a pseudo-stone skeleton. The pseudo-stones could be created by sintering or by casting as in basalt casting.
Sintered Bricks: https://scitechdaily.com/turning-lunar- … sintering/
Example of Cast Basalt: https://www.sunnysteel.com/hexagonal-ca … -slate.php
My desire is to sinter or cast blocks that will allow a build process similar to what the Romans did: https://en.wikipedia.org/wiki/Roman_aqueduct
Image Quote: 
We would want variously shaped pseudo-stone blocks to do this.
But I want to construct circles perhaps resembling stone henge: https://en.wikipedia.org/wiki/Stonehenge
Image Quote: 
These techniques might be desired to use:
Image Quote:
Quote:
Sketch showing the tongue and groove and mortise and tenon joints used in the outer Sarsen circle
But I have also considered a metal glue. If a metal substance such as a powder or foil were placed between stone blocks, and if you used AC magnetic fields to generate eddy currents inductively the metal might be heated quickly the to cool, might glue stone blocks together to some extent
Perhaps Iron might do.
If Carbon can be obtained/imported, Steel can be made to make tensile cables and chicken wire and rails. The rail/tensile band might wrap around the circumference of the stone structure at its top.
The Chicken wire might be suspended as a tend with a roof inside the stone skeleton or wrapped around it.
It is my intention to suggest that "Textiles" could be manufactured from Silicon as fiber glass cloth and perhaps bales of Mineral Wool.
The Textiles then to be attached to the chicken wire to make walls and ceiling for a "Tent".
The structure then given a floor of tiles and kept reasonably clean and of an otherwise buffered interior relative to the natural environment of the Lunar environments.
This is where I would hope that some industrial processes assisted by robots could occur.
At the poles the solar panel assembly might rotate about the skeleton on i't outside, to follow the sun and provide energy for the industry/robots.
It seems to me that the Moon could have a lot of room for a lot of these structures.
Eventually the Carbon Steel might be replaced by another substance in it's functions.
But Iron is going to be relatively easy to extract from regolith at the beginnings of the settlement of the Moon.
Ending Pending 
#2 Re: Business Proposals » Business Proposal: Lunar Towers to Collect Power Year Round » Yesterday 09:40:45
Historically Japan has had an interest in something like your topic: https://dailygalaxy.com/2026/02/japan-p … ound-moon/ Image Quote: 
I think that they may visualize a ring around the equator. But this is similar to what you propose, just at a lower latitude.
This is why I consider Japan to be a very important compliment to American objectives in space.
If you go to a high enough latitude, you might be able to walk and keep the sun overhead all the time, presuming a walkable path, and the necessary life support.
Probably early mass solar power on the Moon should be consumed in building more solar power capacity and if mass drivers will work then to export data center satellites. But export of power to Earth is not a bad idea either.
Ending Pending
As you have seemed to suggest, at the poles a tower with a rotating solar panel may be a good adaptation. But at the equator, stationary flat panels might be a suitable option.
Ending Pending
For the polar areas of the Moon, a tower with hanging tent and solar panels on rails to be sun facing: 
Ending Pending
#3 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-17 20:57:00
It is already understood that certain elevated points on the Moon near the polar areas may have favorable solar power.
https://en.wikipedia.org/wiki/Peak_of_eternal_light
Image Quote: 
Quote:
Lunar South Pole: four peaks are identified which are illuminated more than 80% of the time
Quote:
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Peak of eternal light - Wikipedia
Peaks of eternal light are high-latitude lunar points that receive sunlight for most of the lunar year, making them prime locations for future exploration and solar power use.
Definition and Concept
A peak of eternal light (PEL) is a point on the surface of a celestial body that is illuminated by the Sun for nearly all of the time. On the Moon, such peaks occur near the poles due to its very small axial tilt of about 1.5°, which keeps the Sun near the horizon year-round. These peaks are typically found on high-elevation crater rims or ridges, where sunlight can reach areas that are otherwise in shadow for most of the lunar day.
Wikipedia
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Historical Background
The concept was first proposed by Johann Heinrich von Mädler and Wilhelm Beer in 1837, who suggested that some lunar polar mountains might enjoy "eternal sunshine" except during Earth-caused eclipses. Later, in 1879, Camille Flammarion popularized the idea, calling them pics de lumière éternelle. Modern spacecraft have since mapped these regions in detail.
Wikipedia
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Locations on the Moon
North Pole: The rim of Peary crater is the most notable candidate, receiving sunlight nearly constantly. Other nearby craters include Challis, Main, Gioja, and Byrd, which also have extended periods of illumination.
3
South Pole: High points on the rims of Shackleton and Malapert craters and ridges between Shackleton and de Gerlache receive sunlight for about 70–90% of the lunar winter and nearly all of the summer. These areas are small, often only a few hundred meters across, surrounded by permanently shadowed regions.
34 Sources
Scientific and Practical Significance
PELs are highly valuable for lunar exploration and colonization because they provide:
Reliable solar power for equipment and habitats.
Stable temperatures, with fluctuations of only about 20°C, reducing thermal stress on structures.
Potential proximity to water ice in nearby permanently shadowed craters, which could support life support and fuel production.
33 Sources
Observations and Mapping
Space missions such as NASA’s Clementine, Lunar Reconnaissance Orbiter (LRO), ESA’s SMART-1, and JAXA’s SELENE have mapped the lunar poles to identify these nearly permanently sunlit areas. High-resolution imaging and laser altimetry have confirmed that while no point is illuminated 100% of the time, some peaks receive sunlight for more than 90% of the lunar year.
Wikipedia
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Legal and Future Considerations
Because PELs are rare and strategically important, they are considered prime real estate for future lunar bases. International space law, including the Outer Space Treaty of 1967, prohibits national appropriation of the Moon, meaning no country can claim sovereignty over these peaks.
The Space ReviewIn summary, peaks of eternal light are nearly continuously sunlit high points near the lunar poles, offering stable energy and temperature conditions, making them critical targets for future lunar exploration and potential human settlement.
At first a Cocooned area might resort to energy storage and nuclear energy to have energy during the short dark periods.
But perhaps it will be possible to beam energy from one location to another, or burry power lines to conduct electricity.
So, these Cocooned areas might be active all the time, eventually.
Ending Pending
#4 Not So Free Chat » Disruptions from robotic labor » 2026-03-17 13:28:02
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I have had a thought on the issue of "Disruptions from robotic labor".
Macro-Hard or Digital Optimus is recent concern.
https://www.bing.com/videos/riverview/r … ORM=VRDGAR
Quote:
Elon Musk Launches “Macrohard” AI System To Challenge Software Giants Like Microsoft
YouTube
Mint
11 views
4 days ago
So, recently there was concern that our labor force would be insufficient due to low birth rate.
Now, it looks like robots may take many tasks over, and earlier on, a lot of "White Collar" work.
We could say, "Just train the white collars to do blue collar work". Well, some could and some might not do OK.
The projections of the future have a robot or a human doing tasks with the robots displacing the humans.
But what about a human "AND" a robot to do tasks? In some cases, this might work.
You then have four hands and two brains on the job. If the human wage is $30.00/hour and the robot cost is $1.00/hour, then the average is $15.50/hour, and you potentially have more hands/brains/muscles doing the work. If the robot came with a display screen it could teach the human parts of how to do a task like installing drywall, as an example.
On the other hand, the reformed white-collar worker might be useful to keep the robot on track with what it would do. The robot might be able to do the finer work of the task, and the human would be an assistive apprentice in some ways.
So, at least for a time, it might be possible to avoid large scale unemployment for humans where they contribute nothing to the economy.
Such a situation would be bad for them and also wasteful of the labor they may be able to provide.
By adding robots to the economy in this way also we can greatly expand the work force, and economic output.
A person might hire themselves out as a person and their robot that are used to working together.
Ending Pending
#5 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-17 10:48:41
As an amendment to the previous post: 
A roman henge stone circle of arches could be pulled down, by the tensile forces of the tent.
But if tensile bands were wrapped around it, then that problem can be addressed, I feel.
Ending Pending
#6 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-17 08:56:00
So, on a world like the Moon Cocoon methods will include thermos bottle effects.
I have visualized Roman technology for tent supports, and am now thinking of stone rings.
Stonehenge: https://en.wikipedia.org/wiki/Stonehenge
Image Quote: Quote:
Sketch showing the tongue and groove and mortise and tenon joints used in the outer Sarsen circle
Image Quote:
So, stone circles could also be updated with Roman technological methods.
Craters on the Moon are generally in the form of a circle.
You don't need to use a crater, but you could: 
Pink is the interior of the tent and is not pressurized.
The intention is to have a robot habitat method that can be in association with a much smaller human habitat method.
For the tensile walls of the tent, perhaps at first "Chicken Wire" of Lunar Iron and imported Carbon. Maybe later Aluminum wire would be available. Maybe Silicon nano-tube cables as cousin to such from Carbon.
Textiles made of fiberglass and mineral wool then could be attached to and layered onto the "Chicken Wire" farmwork.
The interior of the tent will then have a buffered environment which may offer some protection to sensitive machinery, such as some kinds of robots.
Heat could intentionally be pushed into the regolith during the day, perhaps using microwaves. But during the day you might want doors/windows that will let excess heat out.
During the night excess heat will leak out of the regolith and be retained by the tent walls.
If you have electric energy during the Lunar night, then waste heat from machine activity might keep the interior of the tent warm like the activities of bees can keep a beehive warm in the winter.
Nuclear Energy, Stored Energy (Iron/Air Batteries?), and beamed energy might make the interior of the tent productive all though the night.
Ending Pending
#7 Re: Human missions » Why Artemis is “better” than Apollo. » 2026-03-16 10:02:43
I think what annoys me the most is "Close but no Cigar".
https://arstechnica.com/science/2020/08 … mplicated/
Quote:
Yes
Yes, Crew Dragon could potentially return from the Moon. The Artemis program, which includes Crew Dragon, aims to return humans to the Moon by 2024. While specific details about Crew Dragon's return from lunar missions are still emerging, the spacecraft has demonstrated its capabilities for reentry and has successfully returned astronauts to Earth from the International Space Station. The design and modifications of Crew Dragon for lunar missions are ongoing, and discussions about its use for lunar operations are actively being pursued.
Ars Technic
OK, I am not sure that the Dragon Heat Shield could hack it or not. I know that the radiation protection is considered insufficient, and that the consumables may well be insufficient.
But you are sending an Orion, with its propulsion systems, and a Lunar Starship already.
Versions of Dragon are being used wo boost the international space station and also a much bigger one to de-orbit it.
The major loss of crew has been in fire because of rushing, a long time ago, and two shuttle crews, both traveling though the atmosphere.
If you use a Dragon to get the crew up to orbit and then transfer the crew to the Orion, you may avoid much of the risk of crew as up-mass.
You could add a cargo dragon to the Lunar Starship when it was in LEO, and make that one with expanded propulsion. You might need to add more propellant to the Starship to get in orbit of the Moon. But this is "Close, but no Cigar". Why not put a crew dragon with expanded propulsion abilities onto the Starship?
This might give some added options. For Instance, the Starship with enhanced Dragon, is loitering in Moon orbit with an enhanced Dragon.
The Orion launches to LEO, and another Dragon brings the crew up to it to deploy the crew to it.
The Orion then proceeds to the Moon. If you run into an Apollo 13 situation on the way to the Moon, the Orion might be able to swing around the Moon, and the stack of the Lunar Starship and Enhanced Dragon might leave the Moon to intercept it. Since the Starship had not landed, it should still have some significant propellants.
Then either the three components can reach each other in deep space on the way to the Earth, or the Starship is expended and the enhanced Dragon it would be hoped, could meet with the Orion and one of the two ships might be used to get the crew through the atmosphere. And the Dragon would bring consumables and propulsion to the situation which might save the crew.
In the case of being in orbit of the Moon, in a malfunction, crew could transfer to the Dragon. And the Stack might attempt a return to Earth with them.
Even after the Lunar Starship might have landed on the Moon and ascended back to the two capsules, it might still have resources for survival of the crew in orbit of the Moon. If a rescue mission were sent, then they would not have to land on the Moon but only orbit and return from the Moon.
As far as landing on the Moon, it only makes sense to send fully automated missions to the Moon before landing humans.
Such a mission(s) might include various robot types both cart and humanoid. It might include water for future emergencies. Solar Panels for emergency power. Long storage food resources.
If a human lander, then got stranded on the surface water could be cracked using solar energy to supply the stranded people Oxygen.
This might buy enough time that a rescue could be sent within, I might guess 3 months.
As for the Halo orbit, I guess, why not make that a future want?
Yes, more expense, but to produce more safety and more chances of success instead of failure.
Ending Pending
Sending Robots and extra supplies first allows you to evaluate the landing site, test the Lunar Starship, and provide enhanced safety.
Robots might even be able to build a landing pad(s), which would increase safety. Yes you might have to make an emergency rough landing without a pad, but better still to have the landing pad.
This structure established, it would not be proper for other nations to move in, without permissions given by the owners of the equipment.
Ending Pending
#8 Re: Human missions » Why Artemis is “better” than Apollo. » 2026-03-15 18:55:11
A rational approach at this point would be to seek to send robots to the Moon on a Starship.
After America landed on the Moon the Soviets praised themselves on doing automation instead. And they did very good things with it.
But now that we promised to prance genitalia of different types on the Moon as a primary objective, we are sort of stuck on that.
Some wiggle room my exist if we say that we need to stockpile and explore the Moon prior to a human landing.
Yes China/Russia might get a person on the Moon before us, but our robot camp would already be there, with extra resources if a ship failed to be able to return to Earth. With two vendors developing ships some rescue method may become available in that case.
But Apollo 13 did not involve a failed landing and return. In fact, the lander saved the crew while not being used to land.
We can expect these things in the news from the "Verbal and Violent". The people of words, before they resort to violence will try to trip up the technological/industrial people with properly timed complications.
Technological and Industrial people are just peasants who don't obey properly and need to be put into their place once again. (The purpose of allowing Technological and Industrial people to have a long leash is so that they will build wealth that can then be looted).
But we have some very high-powered people in Technology and Industry.
It might not be so easy this time.
And so, we may get the genders on the Moon to do good works with robots, I hope.
Ending Pending
#9 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-15 18:13:07
Looking a this again: https://www.humanmars.net/2019/08/cutaw … rship.html
The upper part of a possible type of Starship: 
It is my thinking that the upper part of a Starship might be retained to LEO+, in the case where the ship is not to return to Earth.
Using two Starship upper parts, you might create a LEO+ Space Station capable of synthetic gravity on occasions: 
Or you might treat the upper part as scrap materials to be turned into something else.
Then that would leave you with two lower parts.
You could refill the lower parts and use them as In-Orbit boosters or land them on the Moon: Image Quote:
They may or may not carry cargo clipped onto their outer surfaces.
Without Cargo, then the "Locomotives" would have less dry mass than an empty Starship, 60 to 70 Tons????
Dedicated landing pads which will tolerate Raptor engines and with shorter catch towers may receive them.
Keep in mind that if these did weigh 60 to 70 tons in the Lunar gravity their weight without cargo might be: 10 to 11.67 tons of Dry Mass plus residual propellants. Much less of a task than for a landing tower on Earth.
The towers could be shorter as well as the upper parts of the Starship would not be included.
Now modify the tower so that it can tip the landed devices horizontal to a very large wheeled cart.
Then the cart takes them to a location to become part of an industrial robotic complex.
There will be no refilling structures at the landing pad, so a crash will not have a cascade effect. Repairs to damage would then be less a problem.
Cleaning space junk from LEO and LEO+ are going to be necessary activities, and I have my eye on the 2nd Stage for Neutron by Rocket Labs. The propellant tanks are Carbon Based, I believe.
https://rocketlabcorp.com/launch/neutron/
Image Quote: 
The 2nd stage hangs in the reusable fairings attached to the 1st Stage and has one engine, not shown in the drawing.
I am very interested to see if this could be brought to the Moon so that the Carbon and Hydrogen in the tank walls can be used to make water and Carbon Steel from Lunar Regolith.
I even wonder if the engines of 6 could be swapped with 6 Raptors so that the Raptors could be brought back to Earth. The Archimedes engines may be sufficient to take the Starship lower section to the Moon and to land it.
Of course to do these manipulations you will need platforms in LEO and LEO+.
But it would be very nice to recycle the raptors to attach to another such Starship, and to strap 6 Neutron 2nd Stages onto a Starship lower section to fly to the Moon, and then to make water and Carbon Steel using Lunar Regolith.
Ending Pending
#10 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-15 12:57:27
Elaborating on posts #11 and #12, the brains for the robots so a larger extent could be buried under regolith in vaults to protect from radiation.
From post #12:
https://en.wikipedia.org/wiki/Roman_aqueduct
Image Quote:
So, for the Moon arches on top of arches, could allow that the lowest arch set can be wider than the next on up, a bit lit a step pyramid.
As example in part......... https://en.wikipedia.org/wiki/Mesoamerican_pyramids
Ignoring the stairways in this photo: Image Quote: 
But "Steps" might be in the form of a series of arches with the next "Step" having a smaller number or arches than the tone below it.
If you want to visualize it a different way then each step would have tunnels passing through it.
The mass then would provide radiation shelters in the tunnels, and also a large heat sink. A tent method then might cover the entire structure.
I am just trying to open the imagination on this, I am not mandating dogma.
Given energy and robots and the raw materials of the Moon, a great deal of structure could be built that would give "Life-Support" to large numbers of robots and a much smaller number of humans, on the Moon.
Ending Pending
#11 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-15 10:05:30
The idea of tents on the Moon has emerged as a way to augment the possible use of Starships as habitats and factories on the Moon. My view of it is that the fairings of such Starships might be left in LEO+ and that the "Locomotive" (Propulsion system) might be refilled and flown to the Moon to land on a special catcher that will lay it flat into a special cart to deploy it to a "Campus" for science and industry on the Moon.
In the previous post I suggested a tent of this sort:
I imagined it to be a sort of metal frame, including chicken wire perhaps, where mineral wool bundles might be place on it like straw in a thatch method. Quote:
https://www.iko.com/na/blog/ancient-roofs/
Image Quote:
I want to try to adapt this concept to be further built from more native and available materials from the Moon.
So, I might start with a structure like a Roman Aqueduct as the center line of such a structure, the rigid "Pole".
https://en.wikipedia.org/wiki/Roman_aqueduct
Image Quote:
I have gone from resenting Roman heritage to some level of admiration. Thay had some talents.
I that such structure might work well on the Moon, as the center "Pole" substitute for a tent-like structure.
Sintered blocks might do quite well, if you had a good foundation into the Lunar regolith.
Then you would only need metal to make something like Chicken Wire, which could be the foundation for the tent roof.
Then you might place Mineral Wool Bundles on top of that to make a sort of thatched roof.
Iron for such wire would be available on the Moon, but Carbon might have to be imported to make steel. Minimizing Steel in a structure might be very desirable.
https://en.wikipedia.org/wiki/Tent
Image Quote: 
So, such could be a environmental buffering device to protect fragile things from the harsh Lunar environment.
Substitutions for the "Chicken Wire" might be fabrics from Earth, or things make from Silicon Oxide or Silicon.
Fiberglass Cloth: https://www.fiberglasswarehouse.com/col … lass-cloth
https://www.amazon.com/fiberglass-cloth … lass+cloth
Woven:
Image Quote: 
Fiberglass Chopped Strand Mat:
Image Quote: 
These are likely things that could be made on the Moon from native raw materials.
Should technology for Carbon Nanotubes advance perhaps its cousin Silicon Nanotubes will become practical as well. Again, a material from regolith perhaps on the Moon.
https://en.wikipedia.org/wiki/Silicon_nanotube
But that is probably a more distant possility.
So, like Lava Tubes these tents might provide some improvement for the Lunar Environment but not so much for radiation. Radiation protection might be built into the center wall, where robots might hide from it under or behind the wall.
Most labor on the Moon will almost certainly be done by robots, and lften probably in a Lunar Vacuum, so these tents might have value.
Ending Pending
#12 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-14 20:47:01
So then perhaps a Cocoon shelter method might work for the Moon: 
If you could extract Iron from regolith, and make tent frames with it and imported Carbon, then "Thatch" the tent with mineral wool bundles of some sort.
https://www.iko.com/na/blog/ancient-roofs/
Image Quote: 
Except for rocket thrusters there would be no wind. There will be no rain, except for small impactors for the most part. It actually might be pretty good to some extent as a first hit might vaporize the impactor, if it is quite small. Repairs if needed would be relatively easy.
Mineral wool fibers might make things a bit "Dirty" but you might keep the Moon dust under control.
The thermal environment may be buffered from the typical highs and lows.
You might put some lighting inside for human and robot eyes. I will not need to be too much though.
The floor can be of 1 or more layers of pavement bricks sintered from regolith.
Such shelters as these could host protection for robots against the most extreme conditions, and might also host some of the industrial processes that will be wanted to implement to produce products.
Radiation protection will not be too good, but if at a polar location you might have a thick vertical wall to block some of the radiation of a solar storm.
As I have said, also you might link these to shelters made from Starship parts such as the propellant tanks, which may or may not be pressurized. Those perhaps can be turned into radiation shelters with regolith.
Ending Pending
Carbon for Carbon Steel for the tent frames might come from 2nd stages of Neutron Rockets or from polar resources on the Moon.
Tent frames might also be made of some kind of glass perhaps, not so sure on that.
Ending Pending
#13 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-14 10:18:45
This morning I am thinking about "Moon-Tents".
Lets say you might create an "Industrial Campus" on the Moon to produce materials for construction on the Moon and we hope for export to things like orbital Data Centers. In the previous post I have suggested landing the propulsion section of One-Time Starships on the Moon. They might land into a special catcher that could catch and tip them into a large cart that could take them to an "Industrial Campus", to be deployed.
I suggest that tenting could link some of these assemblies together. It might be the best if the "Tenting" materials could be manufactured on the Moon, but to start with landing the materials might be best. I suggest a method to Hard-land then tenting materials and yet to soft land the Starship propulsion system.
The substance Kevlar might be rolled up and perhaps a blast of a gas into the roll just before impact. The "Cargo Balls" might include materials that could be extruded or 3D printed to make tent frames.
The base of the tents might be made of bricks sintered from Lunar Regolith: https://scitechdaily.com/turning-lunar- … sintering/ Quote:
Turning Lunar Dust Into Space Bricks for Moon Bases Using Microwave Sintering
By National Research Council of Science & TechnologyAugust 31, 20241 Comment4 Mins Read
So, the survival of equipment on the Moon is in part about excluding dust and in part about dealing with thermal variables. Hot day and cold night.
Tenting could help with that. You could exclude dust, with increased cleanness as you went further into a tented system. Starting with a un-tented patio where robotic cleaning would occur, then moving robots and materials further in where periodic cleanings of the floor surfaces would also occur. These tented tunnels could lead to Starship sections that might host certain activities.
So, that helps with the clean issues, I think.
But for thermal issues, the tents may offer shading in the daytime. The floor bricks could absorb heat during the day and release it at night.
You may have nuclear fission power and solar electric power.
You could inject heat into the ground under the floors of the tents using microwaves during the day, as a thermal storage which would naturally release at night.
It is also possible that industrial activities would release heat that could be absorbed into the floors of the tents and released at a later time by simple natural radiation.
So, then you could have an industrial complex where the environments would be sufficiently buffered for fine machinery to survive.
In time it might be possible to make tenting materials our of mineral fibers, and tent frames from Lunar materials.
The Starship sections might be pressurized for some purpose in some cases or not pressurized at all in other cases.
I think you might put arches of sintered brick over the horizontal Starship sections.
Ending Pending
#14 Re: Science, Technology, and Astronomy » Humanoid and other robots. » 2026-03-14 10:12:46
https://www.youtube.com/watch?v=wWDCYlkJdGY&t=939s
Quote:
Elon Reveals Optimus Timeline In New Interview
Brighter with Herbert
An interesting conversation.
Ending Pending
#15 Re: Terraformation » Bipolar Mars Terraform Plan » 2026-03-13 11:47:25
Here is another video about cementing sand with sea water and electricity: https://www.youtube.com/watch?v=2BBLH51XhTo
Quote:
Electricity Turns Sand Into Solid Stone. No Cement Required. Could Concrete Become Obsolete?
The Buried Vault
My notion in this is to revive the seas of Mars as covered bodies of water, and to make Diving Bell type structures using the above technology.
So, to make pressurized space using native raw materials.
Pause (For some time)................
#16 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-13 10:35:56
I wish to appropriate materials from RGCLARK as they fit with this topic, I feel. But I do not what to interfere with a more
professional dialog, which I presume is desired at the location of that topic. https://newmars.com/forums/viewtopic.ph … 01#p238501 Quote:
Still, there are advantages to launching the expendable version. SpaceX has given the expendable payload of the Starship V3 as 300 tons. Industry experts estimated and Elon has confirmed a build cost, i.e., the cost to SpaceX, of ca. $90 million. This is a per kg cost of ca. $300/kg, nearly a tenth of the Falcon 9 cost.
I agree, but as it might already be known, I have plans for the "Expended" Starship: https://www.humanmars.net/2019/08/cutaw … rship.html Image Quote: 
The above diagram is pretty good for my purposes.
If you broke the Starship, Expendable into two parts, you could use the upper part in LEO+ and refill and fly the lower part to land on the Moon. You might remove or replace some of the raptors prior to the launch to the Moon.
You might have a specialized landing pad that would minimize the need for legs, and upon landing of the device, it could be tipped and placed on a wheeled device to move it to a desired location to place on a prepared ground.
While these might in some cases be upgraded to host humans, they also might be workshops and safe places for robotic devices at night.
With regolith piled on top perhaps as sintered arches, a thermal capacitor or if you like battery could be created. The interiors might not be pressurized. Cart-type rovers might just roll inside for the nighttime; Humanoid robots might climb stairs to go up to a higher deck. A door might be rather simple just to help retain heat at night.
Electric power within might help the robots endure the night. If these hosted workshops, then the robots could do useful work at night if electric power is sufficient. Doing work would help keep the places heated.
You could make long strings of these things. You could move to higher and higher levels of clean as you moved inward from one section to another.
I see this as a way to accelerate the arrival of the ability to manufacture Satellites on the Moon and a Mass Driver to send them into space.
Back to the upper part of the Starship in LEO+, it could be made into many different things and even the scrapping of it could be very useful for the notions of Sun Synchronous Data Bases in orbit.
So, this is an "Expendable, Not-Really" plan.
Ending Pending
#17 Re: Terraformation » The Moon » 2026-03-13 09:03:01
A video about power on the Moon: https://www.bing.com/videos/riverview/r … &FORM=VIRE Quote:
Lunar Power Grid: Cables, Lasers or Orbit?
YouTube
Space Startup News
6 views
3 hours ago
Nice to see that there are plans in the works.
Ending Pending
#18 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-12 10:26:28
I saw a video about orbital data centers. It was interesting, but I feel it was flawed. The author presumed that the satellites might last 6 year and then be disposed of by dumping them into the atmosphere.
I suspect that this is what I would call the "Cyclic Thinking Flaw".
I think this flaw, is a flaw now but was not before. Farming was Cyclic, with the seasons.
Even Egypt had seasonal water flows. Although it used technology to irrigate, it developed hierarchy, which in my opinion caused specialization and limited mental resources, and froze the culture.
If by some mysterious source, boats perpetually appeared upstream in the river, and flowed down the river and were composed of various materials including metals, then an industrial feature would be added to the Egyptian culture, and the agricultural economy would have some part of the governing power.
The flow of mass from a world is unnatural also. But with the invention of Rockets, it has the potential to be perpetual. From the Earth and eventually with other means as well from other worlds such as the Moon.
Our problem with "Cyclic Thinking Flaw" is that the descendants of "Farmer" thinking, will not be able to comprehend accumulation of Mass in unnatural locations.
We have reached a point where a continual "River" of Mass can be emitted by a world to orbital locations.
The farmer mentality eventually formed hierarchy where some people started farming other people. This leads to stupid rulers that mostly understand communication skills and violence. The pesante are not valued for anything except to be easy to extract wealth from using communications and if needed violence. Any resistance to such wealth flows may get your culled from the peasant gene pool.
It has become clearer to me from items from the internet, the thoughts of others, that in the conflict within the Anglosphere and connected regions, has two major forces. One has been called by some people, "The City of London". The other is the USA.
After WWII, in the 20th Century, it appears that the "City of London" won. The USA was running out of OIL, and manipulations across the planet endangered imports of Oil. We became convinced that we needed to deindustrialize. Until Fracking was invented, we were stuck in that, and the City of London was able to begin culling American resistance to Pesantization.
I think that now our resistance is the result of the Greens promoting ridiculous cultural concepts, which were intended to reduce breeding of industrial peoples especially in Europe and North America. We have finally rejected that "Cup of Vomit" that they tried to make us drink from.
Now we have this river of mass that is traveling into orbits, and may possibly get another river of matter flowing form the Moon.
We must understand that the "City of London" (Not entirely a geographical concept), depends on degrading the industrial classes and managing the decline, in order to extract wealth from the decay process.
So, with that historic pattern, our need is to nurture the emergence of a new industrial economy against the consumption of it desired by the "City of London".
At first, at least that may make sense as AI grows in power. But I don't know what the result later on. An elevated humanity or an extinct humanity.
I am not thinking that anyone as low as a human knows how this turns out.
Ending Pending
#19 Re: Terraformation » Rubble Pile Sinter/Glass Jar/Double Cone, Ceres » 2026-03-12 09:25:38
I don't strongly agree with this, but if the human race has the material wealth to do this, it could be done. You would not be mandated to only make one type of structure in space.
https://www.youtube.com/watch?v=xu4P4qioCG8
Quote:
Earth is Full? How Humanity Will Build Mega-Cities in Space!
Industrial Reveal
The concept was very valuable in its time, to promote thinking.
But to make large swaths of farmland, is perhaps not necessary for human satisfaction.
Very few of us live in such a way.
But it might be nice to stay in something like this from time to time like a vacation event.
Things needed such as Nitrogen, water, and Carbon might be best obtained at a location like Ceres, but Venus, and Mars are possibiliti9es.
The authors of this article have promoted that notion: https://www.sciencealert.com/could-huma … anet-ceres Quote:
But the review of the O'Neill concept is nice, if a bit outdated.
Ending Pending
#20 Re: Not So Free Chat » Peter Zeihan again: and also other thinkers: » 2026-03-11 13:03:06
https://www.prometheanaction.com/the-mi … h-11-2026/
Quote:
The Midweek Update - Trump Breaks the UK's Middle East Shipping Empire - March 11, 2026
Trump moved on three fronts to break Lloyd's insurance blockade — but the bigger story is the Khamenei family money trail leading straight to London, and why Bolton, Carney, and the old imperial order are all standing outside the fence looking in.Susan Kokinda
Susan Kokinda
I am interested in various notions of what reality is. I am still thinking about it. I will be happy to be corrected.
Ending Pending
#21 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-11 11:01:24
In my mind, I followed a path outward to increasing amplification and increasing reach.
It has occurred to me that that path might eventually make the so-called civilization of our solar system able to jump onto an interstellar comet and inhabit it. Granted others have though similar things. Beyond sending spaceships out to extra-solar worlds, that could be a high achievement that could be attained.
So, that is a very far reach to "Take over" 3I/Atlas for instance: https://en.wikipedia.org/wiki/3I/ATLAS But perhaps a larger one.
From there, perhaps to grab solar system comets, and perhaps not so much to crash them into a world, but to convert them into structure and to conserve substances of value. But for some of them, you could crash them into a world like Mars, or Venus, or Mercury.
And that would put you at a point where you might extract the volatiles and other substances captured into orbits of worlds like Mars or Venus or Mercury.
And falling back a bit more from that, could you make very large Spaceships in the Asteroid belt and fly them to orbit other worlds?
So, then end up at start on Earth and reverse order.
Data Centers and other platforms in orbit of Earth>Moon>Deimos/Phobos/Mars>(Materials to orbit)>Asteroid Belt>Supersized Spaceships>Callisto>(Supersized Spaceships)>Outward, even working with comets.
So, I think we are on the right path.
We just have to stop the Anti-Humanists from interfering.
Ending Pending
#22 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-11 09:39:09
I am going to offer some things that I think are true, and others that I simply hold as speculation/theory that is under further consideration.
There may be a parallel between Subtractive vs. Additive Space, and Subtractive vs. Additive Social regulating. The reason this may matter is that if we are stuck in a Subtractive form of Social Regulation, we might also naturally apply Subtractive thinking to space where we should not do so.
An example of space environment that may have features of Subtraction and of Addition could be the asteroid belt. We think that the asteroid belt was added to during an earlier point in the formation of the solar system, and we think it is tending to be subtracted from since then. As objects collide they either shatter and the dust might be pushed outward by the solar wind and sunlight. Also, objects that may wander near aa sizable world may be added to that world, and so subtract from the asteroid belt.
In Earth orbits, subtraction is typical. So, any mass added may be conserved, but any mass added to it may be expected to decay over long stretches of time even with the best conservation efforts. So, the answer is then to get more mass to those orbits from a proximate world, such as the Earth, or Moon.
In human psychology, I think we are struggling to emerge from a psychology of "Managed Decline". I am not the first to mention it. I believe that the expansion of the so-called west, lead to the Baby Boom, and the response was that the management decided to "Eat the Children". To squeeze more out of them and to throttle down the birth rate.
I do not necessarily find fault with their diagnosis of what they could do or should do. But they need to readjust at this point. The social programs that they promoted to discourage successful mating and child rearing events is not appropriate to what is to come.
The idea of breeding a superior race by applying cruelty is stupid anyway. The results of the application of cruelty will be unsuitable to civilization. They might wish to have a race tuned for the situation of the 20th century, is stupid in itself as we do not now live in the 20th century.
I feel that the movie "Gravity" illustrates wrong thinking: https://en.wikipedia.org/wiki/Gravity_(2013_film)
The idea of managed decline is not to build a society, but to consume it and be the winner while others lose.
Instead of a movie about cleaning up the problems, they are still in the mode for the last Sacellum. Perhaps about 80 years.
In that time period the west had a bump in population that could be "Eaten" by the rulers, and a contraction of resources available for them.
It is not that that sort of management is always wrong, but it is wrong to insist that it is they only pathway that is appropriate in all time periods.
We are gaining new methods to amplify human power and our reach is expanding. But we will need to be careful to push back the zombies from the previous era, who only see this potential expansion as requiring an increase in decay rates by any means possible.
So, what is coming in reach are methods to suppress the Kestler Syndrome, and methods to use space resources below the Van Allen Belts and beyond.
So, we need to understand that any effort to build a future will be in some danger from those who find decay a source of their nutrition.
Ending Pending
#23 Re: Terraformation » Bipolar Mars Terraform Plan » 2026-03-10 10:32:40
OK, this will be better than the "Urea" bricks.
https://www.earth.com/news/fighting-coa … lly-works/
Quote:
Jolting coastal sand with electricity
Now, engineers have found that a trickle of electricity – just a couple of volts, about what a toy flashlight uses – can lock loose coastal sand into a rock-like mass.The current coaxes dissolved minerals already floating in seawater to crystallize between grains of sand, gluing them together almost instantly.
In lab tests, the sand stayed put after only a few days of stimulation and showed strength on par with quarried stone.
Clams and mussels turn seawater’s calcium into sturdy shells without breaking a sweat. Researchers copied that natural chemistry, but replaced metabolic energy with an external battery.
At 2-3 volts, calcium carbonate forms; nudge the voltage to 4 volts and magnesium hydroxide and hydromagnesite join the mix.
These minerals are tougher than standard concrete and can withstand repeated wetting, drying, and salt spray.
Spark of creativity
“Over 40% of the world’s population lives in coastal areas,” explained Alessandro Rotta Loria of Northwestern University, who led the study. “Because of climate change and sea-level rise, erosion is an enormous threat to these communities.”He explained that erosion of coastal sand already causes “billions of dollars in damage per year worldwide” through the loss of land and the disintegration of infrastructure.
Current approaches to mitigate erosion involve building protection structures or injecting external binders into the subsurface.
“My aim was to develop an approach capable of changing the status quo in coastal protection – one that didn’t require the construction of protection structures and could cement marine substrates without using actual cement,” Rotta Loria continued.
It has been my opinion that on Mars large ice masses such as the polar ice caps could be melted internally using lasers, and so yielding melt water to create lakes and seas in.
This also could likely be done nearer to the equator where sufficient ice exists.
Ancient salt deposits likely exist under the soils where once upon a time bodies of water existed.
So, using the electric process it might be possible to build things under the water.
And in the tunnels in the ice, robots could exist.
Ending Pending
#24 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-10 10:20:08
This is my second post on this topic today: https://www.bing.com/videos/riverview/r … ORM=VAMGZC Quote:
Automated Optimus Bots: Tesla Robots Mining the Moon for SpaceX
YouTube
Industrial Reveal
It is an interesting work. However using Chlorine which can be recycled, it appears that Iron, and I think Oxygen, could be extracted from regolith at much lower temperatures per "Salt Mining".
See this topic: https://newmars.com/forums/viewtopic.php?id=11305
Quote:
Index» Life support systems» Flash Recycling, Salt Mining
These web sites have useful resources to offer as well:
https://www.youtube.com/@Anthrofuturism
https://www.spacestartupnews.com/
Ending Pending
#25 Re: Civilization and Culture » Jevons Paradox and Social Amplifiers and Reach » 2026-03-10 09:23:52
Isaac Arthur only touches briefly on orbital solar. Even so, this is an interesting video: https://www.bing.com/videos/riverview/r … &FORM=VIRE
Quote:
Why solar energy is about to explode
MSN
Isaac Arthur
He does talk about orbital solar thermal power.
Some members here will be more compatible with that than with solar panels. And I have to agree that recycling Solar thermal Power Plants to new Solar Thermal Power Plants looks more doable than to recycle solar panels to new solar panels in orbit. So, as far as an orbital junk industry would be concerned, that looks pretty good. CO2 as the fluid used, I presume, but then you have to get the Carbon from somewhere.
Early on, I expect that solar panels will be used in singular Sun Synchronous, orbits. But on becoming aged they might be recycled to make things like Solar Thermal Power Plants.
I have already mentioned elsewhere, why I think it would be nice to have One-Time Starships made in part of Aluminum. The same may be true for Carbon. If the build process for Neutron of Rocket Lab is as good as they claim, then it might also be used for that. And Neutron 2nd stages might also be a source of Carbon in orbit.
So, that makes Earth an early source of Carbon. The Moon is not likely to be a major source of Carbon for orbits.
I would think maybe Bennu, Ryugu, Deimos, Phobos, and Mars could be considered. But they are hard to access for those materials.
I have taken a look at Trojan Asteroids of Earth. They are also hard to access because of the inclination of their orbits. Of two, the larger on though is said to be Carbonaceous.
https://en.wikipedia.org/wiki/Earth_trojan
Quote:
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Earth has two known Trojan asteroids, 2010 TK7 and 2020 XL5, which share its orbit around the Sun and are located at the L4 Lagrange point.
Overview of Earth Trojan Asteroids
Trojan asteroids are celestial bodies that share an orbit with a planet, clustering around stable gravitational points known as Lagrange points. For Earth, these points are located 60 degrees ahead (L4) and behind (L5) in its orbit around the Sun. Currently, only two Earth trojans have been discovered:
2010 TK7: This was the first Earth trojan discovered in 2010. It orbits at the L4 point and is approximately 400 meters in diameter. It is expected to remain in this stable orbit for about 10,000 years.
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2020 XL5: Discovered in December 2020 and confirmed as an Earth trojan in early 2021, 2020 XL5 is significantly larger, measuring about 1.2 kilometers in diameter. It also resides at the L4 point and is predicted to remain stable for several millennia.
33 Sources
Significance of Earth Trojans
Earth trojans are of great interest to astronomers because they can provide insights into the early solar system and the building blocks of planets. They are composed of material that dates back to the formation of the solar system, making them valuable for understanding planetary formation and evolution. Additionally, the discovery of 2020 XL5 suggests that there may be more Earth trojans yet to be found, which could potentially serve as targets for future exploration or resource utilization.
NSF - National Science Foundation
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Future Exploration
The existence of Earth trojans opens up possibilities for future space missions. If more trojans are discovered, especially those with lower orbital inclinations, they could become more accessible than the Moon for exploration missions, potentially serving as bases for further solar system exploration.
NSF - National Science FoundationIn summary, Earth trojans are fascinating celestial objects that not only enhance our understanding of the solar system but also present opportunities for future scientific exploration.
Wikipedia
https://en.wikipedia.org/wiki/(614689)_2020_XL5
Obviously, it needs more study. But its size and the potential that it is carbonaceous are interesting.
With Starship and Optimus, perhaps it could be mined, and industrial facilities could be set up where it could export things to the Earth/Moon.
Anyway, it is a possibility with future technology.
Ending Pending