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Gari_305 OP t1_j0vz1u1 wrote

From the article

>The scientists who devised the new method, outlined in a paper in the journal Frontiers in Astronomy and Space, did so as part of a thought experiment. They aimed to think up a space habitat idea that wouldn't require massive amounts of materials being launched into space.
>
>A Manhattan-sized asteroid space habitat
>
>The idea they ultimately came up with was to use materials already free-flying around space in massive quantities in the form of asteroids.

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Bubbagumpredditor t1_j0w2esf wrote

Yeah, this has been a standard idea in space exploration and science fiction for decades.

72

comesbeforeV t1_j0w2qtx wrote

I'm glad I'll be dead before this becomes reality. Looks like utter hell.

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LuckyandBrownie t1_j0w2wxp wrote

Human aren’t designed to live in low gravity. All of the space colonisation ideas are pure nonsense.

−7

FuturologyBot t1_j0w57ig wrote

The following submission statement was provided by /u/Gari_305:


From the article

>The scientists who devised the new method, outlined in a paper in the journal Frontiers in Astronomy and Space, did so as part of a thought experiment. They aimed to think up a space habitat idea that wouldn't require massive amounts of materials being launched into space.
>
>A Manhattan-sized asteroid space habitat
>
>The idea they ultimately came up with was to use materials already free-flying around space in massive quantities in the form of asteroids.


Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/zq32pe/humans_could_one_day_live_in_manhattansized/j0vz1u1/

1

deion_snaders t1_j0wb8cr wrote

This idea is different and something I've never seen before.

>The scientists posited that future space colonizers could wrap a massive mesh bag made of carbon nanofibers around an asteroid roughly the size of Bennu, which has a 300-meter diameter. They would then rotate the asteroid to the point it breaks apart. All the rubble from the space rock would be caught in the nanofiber mesh, creating a hollowed-out outer layer that could be used as the exterior structure for a space habitat. Crucially, that layer of asteroid detritus would act as a shield against radiation.

The "ground" in this concept is asteroid material pulled apart by centrifugal force and the surface on which we would build our structures.

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mfischer24 t1_j0wc44q wrote

The earth warms by a few degrees so let’s study how to live in a ridiculously uninhabitable place instead where it’s 1500 degrees during the day -200 at night. Just stop. We’re not buying this crap.

−4

SuitableAd6672 t1_j0wg1s1 wrote

We are not designed, we evolved into what we are and we will keep on evolving. Particularly under environmental pressure. Yes, people will die but the survivors will have new capabilities over long time. I know that’s not in our life time, but we need to keep exploring.

5

fastornator t1_j0wlclj wrote

There are a hell of a lot of places where humans could one day live.

Humans could one day live in giant domes under the ocean.

Edit: I was hoping to see y'all give other ideas where humans might live. I was thinking of balloons floating in the atmosphere of Venus.

334

[deleted] t1_j0wp5d6 wrote

Yeah like wtf, what if I want to go skiing in the mountains or take a dip in a lake somewhere, or go for a run in the woods with my dog

Fuckkk that i hope I’m long dead too bro

13

TouchCommercial5022 t1_j0wpk5b wrote

⚫ Take an object and spin it fast enough, and you get artificial gravity. It's possible to get enough to equal Earth's gravity, but it requires a quick spin.

There are all sorts of weird side effects and some massive engineering issues, like making sure whatever you're spinning is strong enough not to break.

You can experience the effects at most fairgrounds. Many games create artificial gravity, and some create enough to at least partially counter normal gravity.

There are two ways we currently have to simulate gravity in a spaceship that we can build differently.

The first and easiest technique is to simply accelerate your ship in the direction of travel at whatever speed gives you the effect you need. This has the advantage of simplicity, as you simply build your ship as if you were always sitting on the launch pad, and only experience zero G at the midpoint of your trip when you rotate it 180 degrees and start an equal deceleration burn for that you arrive at your destination at a good orbital velocity. There's only one small problem with this simple and elegant solution, and that's the fact that we don't have any drive system remotely capable of giving a significant acceleration effect over anything other than extremely short distances. Interplanetary travel using this method is totally out of the question until we come up with something that is orders of magnitude more effective than anything on the drawing boards. (If we had such a drive system available, we could also get speeds up to a serious fraction of the speed of light, which would be amazing.)

That leaves the second option as the only viable solution, where the acceleration effect is not provided by the drive system, but by a rotation vector that allows an equivalent of gravity to be experienced on the outer walls of the vessel. This is also a simple solution, but it has some inherent problems with the concept. When you use centripetal acceleration as a means of simulating normal gravity, you are committing to building a substantial structure to avoid negative effects such as different "G" forces at different distances from the center of rotation and the application of Coriolis forces on the objects within.

Studies have shown that anything with a radius of less than 100 m or a speed of more than 3 rpm produces significant dizziness that debilitates most people. If the ship has a radius greater than 500 m, or a rotation rate of less than 1 rpm, most people are perfectly comfortable, since the adverse variable "G" and Coriolis effects are diffuse enough to then.

This makes your design quite difficult if you want to get somewhere quickly without really great engines, since your ship is now at least 1 km in diameter and weighs thousands of tons. However, it's quite workable if you're not in a rush or just want an orbital habitat that looks like this;

https://qph.cf2.quoracdn.net/main-qimg-7913d5ae5821767fc51d6a8c61d50222-lq

You wouldn't want to build something like this though;

https://qph.cf2.quoracdn.net/main-qimg-f16db03f1baeccca3b2f65160801cfbd-lq

The cleaning bill would be horrible, and your astronauts wouldn't be very useful since they'd spend most of their time with their heads in the bathroom.

A useful equation is the following;

This is the formula used to calculate how big the boat needs to be and how fast it needs to turn to achieve the desired gravity. T = period of time required for one complete revolution, R = radius of the rotating section of the spacecraft and a = the generated acceleration (9.8 m/s2 equals 1G).

There is another way to achieve rotational gravity without building huge structures, and that is to use conventional spacecraft linked together by a truss or cable, and "spin" them to provide the same effect as a huge wheel or cylinder. You end up with something that looks like this;

https://qph.cf2.quoracdn.net/main-qimg-e175dea9c42cdca27b1f5ebff6e55f76-lq

It might not look pretty, but it provides artificial gravity without outrageous amounts of mass. It can be a bit unwieldy in terms of course correction and navigation, but I can see a layout where the control thrusters and navigation sensors are located "center" and use a computer to compensate for rotational speed. .

Until we invent some still mythical impulse that has a specific impulse in millions of seconds instead of just hundreds of seconds, it seems that spinning things is the only practical way to do it.

Every spaceflight mission has been a compromise. They consist of months of trade-offs as mass, cost, and capabilities are reduced to meet not what we want to do, but what can be done with available funds.

It would be a good idea to build a large rotating section of the spacecraft going to Mars, so that parts of the spacecraft can have simulated gravity to help the crew maintain better physical condition. But I'd be surprised if someone who writes the check to go to Mars, whether government or commercial, would be willing to spend the extra money to do such a thing.

If it does, it's probably because the Mars mission was delayed long enough that the technology has been developed for other programs and can be reused with much less research and development cost.

With each increment of the ISS, we learn more about how to ameliorate the negative effects of microgravity on the body. By the time we can go to Mars, we may have learned enough that much less expensive nutrition and exercise protocols can produce the same effects as simulated gravity. Remember that such a spacecraft would have to be extremely large to produce 1 g effects. It's more realistic for us to build one that more closely reflects the gravity of 1/3g of Mars.

⚫ the article claims to use massive asteroids as a home;

One of the dumbest things in science fiction is that all spaceships are built. There's no reason to make spaceships streamlined, no reason to make them at all. It's much better to empty an asteroid

This has numerous benefits:

⚫ You don't have to put all that mass into orbit.

⚫ You have the best camouflage in the galaxy: if you don't want to be seen, one of the best ways is to travel in an almost black ship that looks like a natural object, because it is a natural object.

⚫ Asteroids are mostly metal, that's useful for building things.

⚫ Metals are excellent at absorbing radiation, and space is full of radiation.

⚫ If you need to slow down when you reach a planet, you can glide through the atmosphere. You will lose some metal from the outside, but you probably have more.

⚫ There are minerals and water and other goodies on some asteroids that will come in handy.

⚫ Asteroids are almost comically common. Our asteroid belt has about 1.9 million asteroids larger than 1 kilometer in diameter (that's a big ship) and millions and millions more that are smaller.

⚫ You can use that additional material as a reaction mass. Essentially you can throw it out the back to make your ship go faster. Nice.

⚫ You can spin them and create artificial gravity inside.

⚫ Launching smaller ships from the surface is easy, since the total gravity of the asteroid is practically zero.

All those asteroids you see on Google News… Those could be alien spacecraft. Watch the heads of conspiracy theorists explode over that!

the downside is that they are scattered in billions of cubic kilometers around the solar system. Most of them can't be used for construction, being just a loose collection of small rocks and dust, with a bit of water.

Asteroids are not very strong, even metallic asteroids are very weak with large inclusions of non-metals.

They do not support compression or tension efforts well.

It will look like a large rock (say, a few kilometers in circumference), like the other 150 million asteroids in the system.

Outside, at least. Inside, it will look like this:

https://qph.cf2.quoracdn.net/main-qimg-935dfe842db825142c9430f416350d6c-lq

Or this:

https://qph.cf2.quoracdn.net/main-qimg-c7bf1f8dfe48d4b337b27e0f57867a95-lq

Oh well… many possibilities. The sky will be faked, of course, and light will be generated or reflected. But other than that, it will be a natural ecosystem. The real constraints are that the ecosystem has to be self-sustaining, just like, well, Earth's is. And it's all going to cover only a few square kilometers, so it puts some restrictions on it as well (expect only a few tens of meters of "ocean" on your tropical beach).

Also, the rock itself will be festooned on the surface with robots and sensors, probably a good-sized fusion plant, and most likely a line of rockets, taking up half the circumference.

So it looks more like this...

https://qph.cf2.quoracdn.net/main-qimg-37f23d71419e6b08f0035f3d15c8ba6d-pjlq

7

The_Aviansie t1_j0wpqvk wrote

Will it be made of two million, five hundred thousand tons of spinning metal, all alone in the night?

2

khamelean t1_j0wqoav wrote

No one’s selling it. It’s just a hypothetical that many people enjoy thinking about. From engineering challenges to so social implications. Turns out many human beings enjoy using their imagination, just because you’re not one of them, no need to drag everyone else down to your level of misery.

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Internal-Dot-290 t1_j0wr8jh wrote

We wouldn't be doing that anyway because robotics and AI would have progressed to the point that putting humans in that environment would be needlessly complicated and expensive. Even if hypothetically we needed human interactions out there we'd do it through drones piloted by humans on Earth.

Space mining, if it happens, is not going to involve sending lots of human out to an environment that they are not adapted to. It's expensive to design a habitat for humans and unnecessary.

There is also another aspect to consider. Humans are a greater liability than machines. NASA does extensive psychological profiling on astronauts for a reason.

0

[deleted] t1_j0ws7zc wrote

Well it’s winter here but yeah, I was skiing this weekend lol and I don’t think I could survive a winter without going skiing or boarding, same thing with being in the woods/ lake in summer

0

LeonSilverhand t1_j0wsgty wrote

Humans could one day die by a Manhattan-sized asteroid megastructure

2

_lavoisier_ t1_j0wtdmb wrote

And we will be complete slaves, working to death in this doughnut

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readMyFlow t1_j0wtwyd wrote

Humans will never live outside the Earth for consecutive generations. Because we’re not evolved for the environment it will be too costly to maintain living environment. Once the novelty wears off even the filthy rich would prefer Earth with millions of people.

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bigsnow999 t1_j0wv6hy wrote

Does zoning apply to this project? If yes, then no thanks.

0

Barbossal t1_j0x4n8f wrote

"It is the year 0079 of the Universal Century. A half-century has passed since Earth began moving its burgeoning population into gigantic orbiting space colonies. A new home for mankind, where people are born and raised. And die. 9 months ago, the cluster of colonies furthest from the Earth, called Side 3, proclaimed itself the Principality of Zeon and launched a war of independence against the Earth Federation. Initial fighting lasted over one month and saw both sides lose half their respective populations. People were horrified by the indescribable atrocities that had been committed in the name of independence. Eight months had passed since the rebellion began. They were at a stalemate."

My childhood has been preparing me for this.

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_Blackstar t1_j0x6otu wrote

Humans COULD one day spontaneously grow tails out of their foreheads.

0

AConcernedParent t1_j0x7bs9 wrote

If Gundam has taught me anything it’s that space colonies get DROPPED

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DwnTwnLestrBrwn t1_j0x7omz wrote

This sub has been getting so stale over the past little while. Almost every post is, “humans could <insert literally anything> in the future.”

1

KeithGribblesheimer t1_j0xb8t9 wrote

Also:

Humans could one day live in multi-generational spaceships making an effort to colonize distant galaxies.

Humans could one day live in orbital space stations spinning around Jupiter and Saturn.

Humans could one day develop near light speed travel by building solar sails and then lasing the sun.

Humans could one day act as rational human beings that aren't focused on fear, greed and lust.

Humans could one day build tiny robots one atom at a time and kill each other with them.

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LA_LOOKS t1_j0xbxx6 wrote

Humans could one day pull their head out of their asses and walk towards the green and never come back out.

2

iGothereLate78 t1_j0xg9mf wrote

Humans could one day transcend into beings of light and live in other dimensions…

We can all just say random far fetched silliness.

1

Pbleadhead t1_j0xh86u wrote

hell yes. zero-G just up the elevator. plenty of new sports to invent. The ability to simply go start building a second asteroid city if the one you are in is getting crowded, or starts doing politics you dont like.

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Chibibowa t1_j0xlt94 wrote

Space colonialism will be real. Humans always need something to grab/conquer! It’s either that or we start a global civil war because ressource scarcity and pollution.

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dilletaunty t1_j0xlvzf wrote

That’s still just a slightly different O’Neil cylinder/bubble habitat - aka an asteroid that’s hollowed out, spun, and terraformed with the ground being the outside due to the spin. Using a carbon nanotube mesh bag is a new way of keeping the asteroid together but not a surprising one.

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Timothy303 t1_j0xr40b wrote

We could. But we won’t. Think about the $$$$

Ah, see?!!? It’s not happening anytime soon.

−1

TouchCommercial5022 t1_j0xr52p wrote

⚫ This has been proposed, notably by marine explorer Jacques Cousteau and astronaut Scott Carpenter. It's not going to happen for several reasons.

Permanent housing in water deeper than about 100 ft (30 m) is a bad idea due to the biological effects of pressure, including but not limited to nitrogen narcosis and possible long-term nerve damage, if not talk about the completely unexplored impact of such an environment on pregnancy and young children.

Very little light reaches that far, so seafloor communities rose from the surface to feed. Almost all life in the sea depends on the sun, so whether we live above or below the surface, we continue to depend on the same fisheries and ecology to survive, so living at the bottom of the sea is not at all a fix for overpopulation, if that's a concern. Also, just by staying there on the continental shelf, seafloor communities will disturb the nearshore ecology, likely reducing the overall food supply.

Semi-submersible cities are being explored in some areas (outside of Japan), but they will be high cost, high maintenance, and are not underwater habitats in any real sense. Floating aquaculture facilities can be useful, but they have nothing to do with the issue.

Living underwater is dangerous and expensive. Underwater habitats require completely reliable life support, whether they take in air from the surface or from some other source. A power outage can allow the air to stratify, forming pockets of deadly CO2. Leaks and corrosion will be a constant problem, and constant salt and moisture will wreak havoc on health and equipment. Most oceanic structures have relatively short lives for this reason. So although Europe has buildings that are thousands of years old, it is likely that no underwater structure will be continuously inhabited for more than fifty years.

So while some may enjoy the experience, economics and practicalities will always be heavily stacked against life underwater. Even if we say a large asteroid is coming, it would be much cheaper, easier, and safer to bury yourself underground than to flee underwater.

Finally, humans didn't evolve in cans, and it's already clear that a host of modern ailments, from high cholesterol to myopia to a host of autoimmune diseases, are the result of having locked ourselves in caves of our own making. We need to get out more, not less, and while these and other impacts can be addressed, the easiest way to do it on Earth is to control our population and maintain the opportunity to get out for a regular walk.

colonizing the seas would be an expensive and difficult project due to the corrosive effects of seawater on human construction, the tremendous hydraulic pressures exerted by the water column on the proposed habitat, the shallow water hazards of navigation and tsunamis, and the difficulties for deep water from high pressure leaks and even structural collapse, such as a submarine that has passed "crush depth".

Possible? Maybe. At least hypothetically.

Viable? Probably not.

Unless you keep it very close to the surface, the pressures will make it prohibitively expensive. Even in shallow water, the cost to build and maintain will be a multiple of enclosing the same space on land. There would have to be a very compelling reason to build underwater to justify the risk and expense.

What's more; What would be the point? They would be enormously expensive to build and maintain, and if something went wrong, they could all die. I'm not seeing a silver lining

Most people don't want to live underwater.

There are a few underwater structures, for novelty's sake.

The smaller a structure is, the easier it is for it to withstand the pressure of ocean water. A submarine is easy, a bubble the size of a city would need massive amounts of reinforcement not to fall apart immediately.

⚫ This idea is very similar to the floating cities on Venus;

A manned research station floating in the atmosphere of Venus seems feasible. At about 50 to 54 kilometers from the surface, the environment is quite hospitable compared to the near-vacuum environment in which the International Space Station operates.

For example, the atmospheric pressure at that altitude is similar to the pressure of sea level on Earth. Therefore, the walls of the floating station will not have to withstand a large pressure difference. They wouldn't need to be as hideous as the walls on the ISS. (And not as thick as the walls of a submarine.)

The temperature a little more than 50 kilometers up is in the range of 0 to 50 degrees Celsius. Some air conditioning may be needed, but not the extreme cooling you'd want closer to the surface.

Humans can't breathe Venus' atmosphere, but it contains a variety of elements, including oxygen, nitrogen, hydrogen, carbon, which can be processed into breathable air and drinkable water, and even used to grow plants. Because breathable air is less dense than carbon dioxide, it would function as a gas lift in Venusian conditions, so helium may not be necessary.

It is true that there is some acidity, so the exterior walls and solar panels of a floating research station would have to be made of acid-proof substances. Anyone climbing outside the station would need a supply of oxygen and an acid-proof suit, which would be simpler and less bulky than the pressurized suits required in Earth orbit.

The Soviet/European Vega mission demonstrated that it is possible to parachute research balloons into the atmosphere of Venus and inflate them there. NASA's HAVOC project has been looking at ways to parachute into much larger aircraft: first a robotic aircraft, and then a manned aircraft with a multi-stage rocket module to fly the crew into space again. The idea is that they would then meet an interplanetary transit vehicle in the orbit of Venus.

https://sacd.larc.nasa.gov/branches/space-mission-analysis-branch-smab/smab-projects/havoc/

https://ntrs.nasa.gov/search.jsp?R=20160006329

https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20160006329.pdf

The astronauts would visit using self-deploying blimps, stay (literally) for a couple of weeks, and return to orbit in their rocket-powered "gondola." From this altitude, they could monitor surface probes in real time, so they could accomplish much more in two weeks than a rover can accomplish in several years.

problem with venus;

⚫ thickening and crushing atmosphere.

⚫ extremely high temperatures.

⚫ acid rain.

advantages of venus;

⚫ minimum terrestrial pressure at cloud level.

⚫ comfortable temperatures at cloud level.

⚫ magnetosphere to block cosmic rays.

⚫ gravity similar to that of the earth.

ISSUE

Take an oven. Seal it. Fill it with gas until it is at a pressure higher than that of the ocean more than half a mile deep, enough pressure to crush a nuclear-powered attack submarine.

Understands? Good. Now fill it with superheated battery acid.

That's Venus.

We have tried to send landers to Venus. They lasted for about an hour or two before cooking, crushing, and dissolving.

Gives a whole new meaning to the phrase "men are from Mars, women are from Venus." Apparently it means that women are tougher than submarines and breathe battery acid while men are comparatively cowardly.

Because of this, landing and surviving a rover would cost much more than sending a probe to Mars. Traveling is not the biggest problem, although landing is.

Venus's own gravity is very high compared to that of Mars, making the descent through the atmosphere a thousand times more difficult. Venus's gravity is very similar to Earth's, and is about twice as high as Mars'. The planet's gravity, coupled with the already superheated atmosphere and high atmospheric pressure, requires extremely powerful heat shields; the most powerful ever built, and they have to work every time.

There are thick clouds of sulfuric acid with violent electrical storms over the entire surface clouding both images and communications. Because of the clouds, we don't know much about Venus through direct contact. We know what we know mainly through radar data.

The extreme heat and lack of visibility also make landing very difficult. Of the 18 landing missions, only 8 were successful. Okay, actually only 15 made it out of Earth orbit, and 2 more partially failed to deploy all components. The longest any lander survived was 127 minutes before losing signal or being destroyed (Venera 13). So we'll put the success rate at 10/15, with a very low lifetime. Even future missions to Venus estimate a run time of one hour (Venera D). The Russians aren't giving up on Venus;

http://en.wikipedia.org/wiki/Observations_and_explorations_of_Venus#Timeline_of_Venus_exploration

It is more practical to have heated capsules on the Martian surface than to have supercooled capsules on the Venusian surface. The main natural handicap any human/rover has in exploring Mars is dust storms, whereas on Venus there are too many to count. That is why we have lost so many probes on the surface of Venus.

Venus' composition might be similar to Earth's inside the planet, but on the surface, it's a very different story. The surface of Venus is made up of rocks that are mostly igneous in nature due to volcanic activity and are extremely alkaline and cannot support life.

22

PoSlowYaGetMo t1_j0xs0bk wrote

Sad. I’d want an ocean and land to explore. I couldn’t live in a perpetual city. I’d get depressed.

0

tyrandan2 t1_j0xtnci wrote

Just dropping in to say The Expanse is an amazing series. I'd love to live on the belt.

21

BoringBob84 t1_j0xuvyw wrote

I think this is what the Beltalowda did in the Sci-Fi series, "The Expanse."

3

Harbinger2001 t1_j0xuwzg wrote

Too bad we’re finding out that asteroids are really just accumulations of gravel. Also we couldn’t spin them at the needed speeds for artificial gravity without them tearing themselves apart.

0

Absorbent_Towel t1_j0xvrxj wrote

Does anybody know if space bugs taste good? Think I might try some after my 22-hour mining shift on the asteroid.

1

PaleAsDeath t1_j0y0hye wrote

Give me healthcare and universal basic income and I'll be more impressed.

1

InternationalPen2072 t1_j0y1dey wrote

The majority of humanity will inhabit Earth for at least many hundreds of years. People, even in small numbers, will absolutely settle the Solar System, though. We could create a self-sustaining habitat almost anywhere in the near future.

1

tuckerchiz t1_j0y5ztn wrote

Humans could live in giant “cyclers” basically Oneill cylinder space stations that travel on elliptical routes between any two planets over the course of years or decades, and act as a way to transport huge quantities of goods through the solar system cheaply (though slowly). Say a 2 million population Cycler, named the State of Kennedy, 2x2x6 miles in size, flying between Jupiter and Earth (the distances would change constantly) for a couple decades and then arriving and orbiting each for a two year trading/vacation stint, before plunging back into the depths.

4

NPJenkins t1_j0y8ghx wrote

I really hope there’s life after this one simply because I want to witness how far science can truly take us. We think we’re advanced now because this is as advanced as we’ve ever been, but I think future humans will look at us the same way we think of the Romans.

2

tuckerchiz t1_j0yb2rq wrote

Absolutely and I hope so. Im biased and optimistic, but I have faith in the current coalition of free, great nations to get us over the hump into space. And a bright human future exists if we can just get through this turbulent period, and keep dreaming. And I agree, ‘heaven’ would be a cool place to watch it all unfold from.

3

proflopper t1_j0yd6pp wrote

Just make sure you leave ceres station if you hear anything weird happening.

2

TheRacooning18 t1_j0ydfah wrote

yeah dont start with that. Were gonna get an actual colony drop

1

driverofracecars t1_j0ye5hs wrote

If it’s the size of Manhattan, is it really a “mega” city?

3

eatsoupgetrich t1_j0ylj0q wrote

What if humans were able to transfer thought to yams that could be hurled into space to reduce the materials needed to sustain life.

1

StormWarriors2 t1_j0yns6r wrote

We could live anywhere, but right now we are stuck reading this from a boring apartment building with high rent and over zealous landlords who jack up the price for random bs.

This is the most boring future.

0

apocaghost t1_j0yp4q8 wrote

The human race is not going to get that far. The species won’t even get an operational manufacturing system in space let alone a successful moon base. Humanity wasted to much of its time and resources on self indulgent behavior. 10 years and counting for the Grand Extinction.

1

Achtelnote t1_j0yqjiu wrote

Doubt. Lmao.
We'll drive ourselves to extinction here. The only way that would be tolerable or even plausible is if we get FTL somehow. We can barely meet our energy requirements.

1

Rebel_Scum59 t1_j0yr61v wrote

Humans could one day live in your mothers house too.

1

Brexsh1t t1_j0yt6wi wrote

Wow, this is surely what’s been missing in my life. Honestly this would just suck, who would want to do this? I cannot see an upside.

2

SadcoreEmpire168 t1_j0yt7z5 wrote

So this is how Elysium came to fruition in the past

1

HumanJenoM t1_j0ytefk wrote

No they could not

Space is extremely hostile to the human body

3

Mysterious_Mubaz t1_j0yupq9 wrote

When the sun explodes in 4 billion years .humans won't exist then

1

cabur t1_j0yw34z wrote

As someone that has watched The Expanse, nah I’m good fam

1

Astrobrandon13 t1_j0z2ac8 wrote

Wow! What a creative and original idea! Why didn’t anyone else ever think of this!?

1

Craigg75 t1_j0z2uud wrote

Buzz kill -- this can never happen because there is no magnetosphere. Colonists would die from cancer within a year. Next.

1

GrizDrummer25 t1_j0z6a18 wrote

Why is Manhattan a reference point for large-scale anything? Anyone outside of a major metro area has no idea how big that is.

1

TXheathen t1_j0zkiwo wrote

Why don’t we fix the planet we’re on and stop pretending like living in space is a good idea.

1

LordNedNoodle t1_j0znmn4 wrote

Humans could one day live in peace, seems just as feasible as these news articles.

1

crazykid01 t1_j0zoa2i wrote

The most interesting part of this theory is what we could do after expanding the asteroid with the mesh bag.

Once you have expanded the asteroid with the mesh bag containing all the debris, you can then harden the surface any way you want. If you harden/encapsulate the outside surface first with some material (like: steel/iron/concrete/plastic/glass) then harden the interior after removing all the useful deposits of material, you can have a fully functioning bubble of atmosphere to work with/build with to create a small city.

Add a landing platform w/ tunnel to get through the barrier and boom you have a fully functional city.

You can then hopefully take the carbon fiber mesh bag and use it on the next asteroid that fits the criteria or use a carbon fiber mesh bag as an easier way to mine useful resources out of asteroids.

Most of the above can be done with robots once we start expanding into space.

1

Phenomenon101 t1_j0zuj5w wrote

They're saying this when we haven't even landed on Mars....smh

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KultofEnnui t1_j0zztpn wrote

I imagine the smell would be somewhere between 18th century mental hospital, an apple store, a plague ship, and opening your septic tank indoors.

Five dollars says scurvy begins a week after the hydroponics fail over a software update lockout.

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Bubbagumpredditor t1_j107nnb wrote

Yeah. I remember someone talking about mining to the center, sticking a bunch of bags of water in there and then heating the outside, when the water bags burst you get a rough sphere asteroid. I think this was an idea back in the 70s

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Dominion1995 t1_j108prl wrote

We can one day live in a huge styrofoam city under the ocean. That stuff lasts forever.

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FiftyCalReaper t1_j10hmti wrote

Well Manhattan is a total shithole so this isn't an appealing proposition. At least you can ESCAPE from New York.

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ZoharDTeach t1_j10l3ax wrote

And then they'll start developing giant humanoid mechs made from a special alloy that can only be created in space and then the space colonies will try to gain independence from the planet-based governments.

0

TTTristan t1_j10m236 wrote

Do you think it's impossible, or even highly improbable that we'll reach out into space and construct cylindrical habitats for ourselves one day? Possibly out of or in asteroids? That doesn't sound very farfetched to me at all.

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SB-121 t1_j10mgmj wrote

I suppose it's a nice thought experiment, but by the end of the century the population will be in freefall so it doesn't really have a practical application.

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AnythingToAvoidWork t1_j11aq6e wrote

Yeah, like what's wrong with starting with the moon? Send drones or whatever to hollow out huge caves, or find existing ones, build airlocks. Establish a forward colony. 3d printing tech is solving a lot of issues.

Gravity would be an issue but I'm sure something could be figured out.

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maskedpaki t1_j11qmza wrote

cool how about some affordable housing first ?

(extra text because of this subreddits bullshit rules about comment length )

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celticxcross t1_j11u62w wrote

Bishops Rings - they have internal surface areas the size of India or Argentina.

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nunchyabeeswax t1_j145bxf wrote

The Expanse taught me that I'd hate to live anywhere in the Solar System, not unless I'm filthy rich like Jules-Pierre Mao.

&#x200B;

I love the series, but let's be clear. Humanity is in a state of dystopia.

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TheeApollo13 t1_j152xwc wrote

Not really much of a mega city if it’s only the size of Manhattan 😅

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celticxcross t1_j1v1s9t wrote

Approximately 1,000 km (620 mi) in radius (6,283.2 km circumference) and 500 km (310 mi) in width, containing 3 million square kilometers (1.2 million square miles) of living space, comparable to the area of Argentina or India.

https://en.wikipedia.org/wiki/Bishop_Ring_(habitat)#:~:text=In%20the%20original%20proposal%2C%20the,area%20of%20Argentina%20or%20India.

To create 1 g equivalent centripetal acceleration (9.806 m/s^2) a 1,000 km (1,000,000 m) radius needs to spin at 3,131.45 m/sec.

https://physicscatalyst.com/calculators/physics/centripetal-acceleration-calculator.php

Equal to about one revolution per 2,000 sec (33.44 per minute) - or 0.03 rpm - or 0.003142 rad/sec.

https://www.inchcalculator.com/convert/revolution-per-minute-to-radian-per-second/

Depending on the assumptions for thickness you can calculate stress in the habitat's 10 m thick circular walls. Use 1,750 kg/m^3 for density of habitat circular walls:

https://www.engineeringtoolbox.com/stress-rotation-disc-ring-body-d_1752.html

Assuming no bone headed math mistake, I get a tensile strain of 5,817 kg/m^2

Carbon fiber has a tensile strength of 3.5 GPa

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