Why Asteroid Mining Could Save The Earth!

We like the idea of saving the Earth

In orbit mining and refining, along with in orbit manufacturing, are all KEY to getting us out into the solar system. Without that, we are stuck here in low earth orbit.

12:00 The problem with the space elevator isn't that it would fall down over its own weight... because that's not how they would be engineered to work. You need an anchor, teather, and counter weight and than from there it's tensile strength holding it together with centrifugal force. The problem is we don't have materials strong enough to make it out of that won't snap.

I'm glad asteroid mining is getting more attention lately. Perfecting this technology is a crucial step in establishing a self sustaining space based economy. It's good that so many recognize here that returning minerals to the earth isn't the real goal here. Asteroid mining should be focused on sourcing water which can be used for both rocket fuel and air. We should be able to obtain such basic resources at a fraction of the cost of the mineral water shown in your video. The delta V needed to travel in micro gravity is relatively insignificant. We can also source building materials from asteroid mining enabling construction of massive space ships and later O'neill cylinders for habitation/manufacturing. It's possible high value precious minerals could be economically returned to earth. Hoping we establish a permanent presence on the moon asap and begin developing new technologies to achieve these goals. Can only hope Sue Origin reverts to Blue Origin pulling off the legal attack dogs delaying moon missions.

Long winded post here: I do believe that a small habitat could and will be built on Mars to house scientific studies, and perhaps some kind of resource station for mining companies and manufacturing companies to work from, that would have likely rotating personnel staying for a few months at at time, and going back and forth from Mars to an orbiting large space habitat that spins and creates its own artificial gravity. This huge space station would likely be at least 1 km in diameter so that it doesn't need to spin too fast to create the gravity humans need. This space station would have been built in space, from space mining and from manufacturing in space the building materials, such as steel structures, beams, trusses etc. The science says this type of gravity would work, but we really need to study an actual built system operating in space close to the earth. I think the chances of success are good in that regard. The hull of the space station could be designed very heavy duty and thick with materials that would stop or limit exposure to radiation from space, and solar flares etc. Water works as that type of shielding but the outer shell of the Space station would have to be very thick, like perhaps several feet thick and filled with water! Maybe other materials might work and not need so much thickness, but definitely way more thickness that is available to have on a Elon's Starship, or any other Space Ship that has to enter a planet's gravity well (such as the earth's, and fly out of it again. I think that we need to start building these large rotating Space Stations as soon as possible. I believe most harvests from space mining will be used in space, and likely never taken down to our planet due to the high cost of bringing it down, and that fact that we have more than enough that we need on earth at this time in this century. Perhaps very rare minerals and metals and such that might assist in something like the future of nuclear fusion might be worth bring down to the planet, where only small quantities are needed to do great things. One of the biggest things with this overall scenario of ideas, is that the building is space and creating large permanent space habitats with gravity etc. will save our dear planet Earth. Every major country and society on planet earth survives from growth of economies. Economies survive from constant growth of manufacturing, building etc.. We are running out of the ability to continue with this growth model of existence on planet earth without destroying it and ourselves. Let us hope that our technology advances enough very soon to outpace our destructive ways of life, and allows these kinds of plans to move forward to take the growth that we will always need into space.

Again, I think dropping things back into earth is less necessary. Once we are genuinely space faring, earth based resources become irrelevant.

Though nuclear powered engines will really be a big help!! So come on Space X

Figuring out how to mine and build in space will solidify us as a space faring civilization because you won’t have to depend on earth and can maintain yourself with what’s already in space without having to land and launch from earth.

Benu:
You are overlooking the cost of moving steel from the Earth Gravity Well into a space orbiting manufacturing station. That makes the iron on Benu very valuable indeed if you plan to do do interplanetary ship building (for example) in orbit..

Love that you covered all of the scenarios!

Just to say, nice video presentation. Some other channels go a tad overboard on the stock video clips (“this would not end well” .. insert video of random person crying. And so on) which i find very distracting. This channel does well at skipping the fluff. Well done. Keep rocking.

As always, you cut straight to the point re the practicalities of these speculations. Great stuff!

Mine in space, use in space. Earth have to big gravity well. On the other hand, mining from asteroids and moons is good idea for quicker human colony growth in other planets and satelites like Mars and Moon.

I believe space mining will be a necessary part of space exploration in the future. It's likely more practical to mine for resources to be used in space for space. I also believe in the possibility of having a space material processing station in synchronous orbit with earth which can use an elevator to transport materials to and from earth. The idea of a carbon fiber elevator is decades old. Trying to land a large, fully loaded with dense material, ship on earth would be costly beyond comprehension.

Regarding how we extract/collect minerals on an asteroid- a "vacuum machine" will not work in a vacuum!!!
We wd need fine mesh sieves/nets.
They got it right in The Expanse.

Hollow it out and build a larger version of Raptor engines!! Along with large solar sails!!! Nicknamed Cookie Monster!!! It would have large & small bays for small and large rocks along with a large crew section!!!

"getting those materials to the surface."... that's completely missing the point. this is an example of "frame of reference thinking". but there is hope, since you do talk about the use of resource from space in space. and there you go; once we can scale in space, then we will have the resources and capability to build things like space elevators. but until then, what's mined in space, stays in space... and that's the key to the whole enchilada. space is the ultimate highground. productive and meaningful tech operations in space means both wealth and power. most likely, hegemony over earths' surface activities.

shape the stuff you want to return into something that will simply glide down, it would require a little abrasive material to survive re-entry but returning stuff from space in gliders is the way to go, the space shuttle was essentially a glider after all.

What a great line..."What's the point of mining an asteroid if we can't utterly humiliate Jeff in the process?". Amen!

Bringing resources and manufactured goods down to earth should be very easy...
Drop Pods - Compact heat shield, big parachutes, air bags...
Gravity powered...
Or Space-planes with heat shields that glide..
Depends if you need a gentle landing or not...

Space mining is a no brainer for many reasons. With so much excess liquidity, this would spur on a lot of development and would receive trillions in investment within a few decades

Actually space elevators could work in theory, once they get out of the Earth's atmosphere the tip will be in orbit, the centrifical force will be enough to stop it falling over, which means it will not need a missive base. I think kurzgesagt has a video on it

good show. .i also love spacex too. we went to Boca Chica from California to see the starship getting built. i went ahead & bought the S dual motor long range till my tri motor fsd cyber truck get here. i have lost of solar & backup battery system to charge them both at home

The mining is one thing but the refining process is just as polluting once you manage to get the materials back to earth and the burning and natural break down of the end product also usually has it's polluting aspects left in the earth environment.

seems to me that the most valuable thing to mine first would be fuel to make transport much easier. so ice asteroids would be the most valuable to the space mining industry. after that the robotics could collect in order of value.

I've never made a youtube vid but I wanted to explain this to people, well done, good job.

Excellent discussion

Again, a great video. Thanks! Here's my two cents: As you point out, bringing space ore back to earth would be prohibitively expensive. But we can afford to build orbital factories to build the ships needed to haul the freight and we can build orbital processing plants to turn the space ore into the resources needed to continue expanding. These processing plants and factories could also be mobile. We could send them out to the asteroid sites to do the work until the resources are gone. Hey, does that sound just like what we have done on earth? Of course, out in space there won't be any aboriginals to complain that we are destroying their homes.

Excellent excellent discussion.
It seems like everyone is so excited about building ships that go to space, and I think that's great when there is a practical reason to do so, but too often people don't really give it as much thought as was presented in this video. More discussions like this need to be had.
I think the next discussion that needs to be had is about the ethics of building a self sustainable colony on mars as Space X is planning. I might argue that it would probably never be self sustainable...

THANKS4GIVING

You really should have a look at Isaac Arthur's megastructures series, especially on the subject of space elevators. They are actually held up by having the middle of the cable in geosynchrounous orbit, so they have a very small ground footprint.
The biggest issue is actually atmospheric turbulence, and the tensile strenght of the material that pretty much requires carbon nanotubes to work on earth.
However, steel would be good enough to build one on the moon.

They could send robots to an asteroid to build space ships and stations. Sending raw materials back into the Earth gravity well, and then launching them back out into space as a ship/station seems wasteful.

Shape the mined space resources into ablative heat shields, large and thin. Aim them in intervals at desert locations. Ablative waste material on the front, valuable material on the back. There are all kinds of variations on this theme including wing shaped manned or instrumented structures that could fly from the back side after is slowed to a safe speed. Endless possibilities.

You've proven me wrong, thinking asteroids would be beneficial to get right now, which they are. You have shown me exactly how hard it really is to attempt asteroid mining

Having something become more common makes it less valuable but our uses for it increases dramatically. If titanium became dirt cheap, we would all be driving around in titanium cars.

Paul Birch, a scientist/engineer/author that died in 2012, made space elevators obsolete. The video Orbital Rings over on the YT channel Isaac Arthur explains them in detail, but I'll describe it here. It's basically a ring like structure occupying a leo orbit. It would be attached to the earth using something like kevlar. The reason it stays up, and why you can have a direct connection to the ground is because inside an orbital ring is a tube lined with magnets. A magnetic cable would be hurling down this tube and around the whole planet at faster than orbital speed. This creates centrifigal force that lifts the orbital ring out to the limits of the ground connected cables.
These can be built to any inclination or height and would make it possible to even abandon the entire planet if we had too. It would also serve to allow resources to be brought down or lifted away.

My idea: create a canal from the Mediterranean to fill up the qattara depression in the Sahara desert, to make a lake, turn crash land asteroid chunks into there to mine. The lake will prevent dust from shooting everywhere and the resulting tsunami will not harm anyone. The minerals can then be loaded up from ships accessed by the canal.

I loved it. We need to think about these things.

I like your way of narrating. Nicely humorous, to many others try way to hard to be funny with dry comments. Thanx

one proposal for recovering platinum group metals from space was to use concentrated solar to ablate off waste materials. A husk of platinum-group metals would remain and could be reformed into a low-density metal foam. This metal foam might be shaped as a 1m diameter sphere massing only 200kg or so. Thanks to the high melting point of platinum group metals, these low density balls would be able to survive atmospheric entry. They would be deorbited over some sparse landmass (probably the Mojave desert) where they could then be collected by ground teams. Even without onboard guidance systems, they could be deorbited precisely enough to land within 1km^2 and easily tracked using ground or airbourne radar.

Mar's colony using materials mined on Ceres and other asteroids sounds practical.

Build the processing in space at site of extraction. Only move the finished product back to earth. Or only extract materials that are used in space for space craft construction.

Future video on Rocket Lab?!!

We would want to use most of it for manufacturing in space. First to build the space manufacturing infrastructure, then to manufacture space habitats, ships, etc.

Neat vid. I can see asteroid mining in the reasonable future. I doubt there will be a business case to bring the material to Earth but it depends.......

12:00 It neither requires foundation the size of Mexico nor would it fall over if it was relying on predominantly tensile strength as such an elevator is closer to a tether than a tower.
The very asteroid in question could be parked in geostationary orbit and then lower cables into the atmosphere as foundation for building up the space elevator that will funnel segments of it down to Earth as it is methodically broken down by solar powered drones, using pressurized water + sand to tactically bore tunnels. Digging them out for the sake of fragmenting the whole thing into appropriate blocks for transport down the tether system.

I am a Skeptic when it comes to building a successful colony on Mars with a population over 100 people who will be able to live there permanently and not have to leave after spending a couple of years there. There are just way too many problems to overcome.

I think we have got to start thinking of this mining in space before we all destroy this planet . This is a great topic and i am glad you made this video. Nasa should really starting thinking of this.

Space elevators from my understanding stand up not because they have deep foundations but because of centrifugal force of the earths spin, they are more tethered by cable to the earth to stop them floating off. I think they are also proposed to be located around the Lagrange point between earth and the moon. Where the forces cancel each other out. That is a layman’s understanding, I am sure there are many mistakes in that simple analogy.
Thanks for a great video, lots of interesting facts that I didn’t know.

this is the best sci-fi youtube channel :- 1

We don’t bring resources to the surface of earth. We begin building our own habitats that exist in space. Makes the most sense for our transition to space faring.

Mold the metals, silica and water ice into giant V-wings, using aerodynamic properties to negotiate safe, profitable and productive recovery. Use the earths deserts such as Egypt's too recover the formerly distant mining substances.

On returning stuff to earth; at first it doesn't have to be a lot, you can get quite a bit of money for selling space-diamonds, probably enough to outweigh the price of relatively small parcels
You can do a Space-x reverse thrust landing that just makes the stuff stay together as much as possible while not worrying about keeping the rocket functional; you let the rocket crash, let the ground be the primary slowing mechanism, but you slow it down as best you can. The landing zone will probably be in a desert...

2:03 nop, actually some came from volcanic eruptions too, and iron deposits were actually living being in the past that died due to oxygen poisoning, the iron in the oceans oxidized and deposited at the bottom.

Around 11:50 you spoke of a space elevator. If any viable elevator is ever built, it will not be "standing", it will be "hanging" from a center of mass at or above geosynchronous orbit. This means it would be anchored to the ground, not resting on it like a conventional building. There has been much speculation and probably a few serious designs (none of which this layperson has seen) that would accommodate solutions to all of the challenges associated with such a large structure, even were is possible to actually build with existing materials what amounts to such a long cable.

Space trucking ! I'm all in !
The only way I can see we can get the mined ressource on earth is to do all the refining and manufacturing up there and you ship a full product down to earth. Eventually, most people will move in space close to their work, this will free space on earth and we will learn how to colonize a whole solar system. But Mars is the first step, living/mining in space will come after once the starship legacy come of ages with new ships, engines, techs, etc. etc.

To mine in space is more for building things in space like Gateway Spaceport Co's GatewayStation etc Moon and Mars Colonies!
But ultimately we need too so space-elevator(s) & drop stuff down in Orion style capsule(s) and the capsules can be carried back up on a starship etc; to repeat the process.

On the subject of water if you refer to available information regarding the Kuiper belt and Oort cloud it will become apparent that water is one of the most abundant substances present in space in our solar system.
While the two former locations are currently virtually unattainable relevant obstacles will probably not persist for very long if we focus on developing and establishing habitation in space and performing research relevant to improving survival and travel there.

Asteroid mining/manufacturing is generally more appropriate for things that stay in space - like e.g. O'Neil cylinders / space stations; or items used to colonize/explore other planets/moons

The simplest solution to Space Mining....
....What you mine in space, you use and/or keep in space. Do not try to bring it back to the surface of Earth.
Set up ore processing on the asteroid or on Mars. Use that ore to build habitat, more spaceships, and use the precious metals of gold, silver, platinum as currency. However, Gold makes an excellent shielding, from cosmic rays, for electronics, platinum and silver make excellent electrical conductors (better than copper). Cobalt, mixed with aluminum, is a very strong but light construction metal. Mix Cobalt with Iron, and you have a metal so heavy and strong, Mars is the only place humans can work with it.

I think you may need to build spaceships at the asteroids to avoid the huge costs of gravity and fuel, but maybe send a shipload of gold or platinum once in a while to help pay the bills.
If we take practical steps, I don't think it is necessary to deliver any raw materials back to earth.
1) learn how to grow enough food to live continuously in space
2) learn skills to build in space from scratch (start initially with raw materials sent from Earth)
3) Extract resources from where they are most economical and practical
4) Build near the extracted resources
5) Become Self-sufficient in space

Capture, stabilizing, and orbital manipulation will not only allow earth new precious metals to build clean energy systems, but it’s good practice to stop potential asteroid impacts.

Space welding is going to be such a cush job. Just knock the dust off and stick it together!😂

love it :D

the moon is also covered with minerals from asteroid impacts would be easier to mine that first to start a infastructure for asteroid mining

Processed gold and other metals can be molded into huge wings, having their undersides sprayed with heat tiles.

I've always thought that quantum entanglement would be the best way to mine in space. We have made it work before, so if we could scale it up to take the atoms from the asteroid and send them to Earth to be reconfigured we wouldn't need to be shipping back and forth. What do you think?

The capture method seems like it would work the best.

Hundreds or thousands of small AI drones go out into the asteroid belts and find specific asteroids that seem to have the correct material properties for mining. Then once they find one within the correct size parameters, they push it and then pull it with a specific force just to move it ever so slightly. This gives the AI the specific gravity or mass of the asteroid. The AI then calculates exactly what force in what direction will send the asteroid on a clear path to Earth so that it enters the atmosphere and partially burns up landing in a specific part of the desert or ocean where it can be retrieved. The drone could send a signal to Earth stating exactly the time it would land in the designated area. Once the drone reached it's life expectancy it would use it's last bit of propellant to settle into an asteroid to be out of the way for other drones.
It's actually a pretty simple system. And once it starts happening regularly the mass leaving Earth to go into space will off set and balance out the materials coming down to Earth.

at around 13:00 you say that it would be more cost effective to mine water in space than to haul it up from Earth. Very true! Any resources that you must have in space are likely to be cheaper to gather from "small" rocks already "in space" than to drag up from deep in a planets gravity well. All this assuming that a feasible technology to collect and purify asteroid/comet water is developed. Please note, however, that though the cost you gave per pound to take water into orbit and beyond might be fairly accurate at the present time, if SpaceX's new rocket fulfills its promise, the cost* will be closer to $1000 per pound than $43,000. *- note that the cost to SpaceX will be that small, the price of hiring SpaceX to haul it could still be "astronomical" -- depends on the market.

Agreed. Unless it is a valuable rare earth mineral, everything should be done in space.

I think we need fusion energy first, then we can build fusion powered engines, which fixes the fueling problem and also allows for lots of thrust. I heard a fusion engine could half the time it takes to get to mars.

The only way it will get cheap enough and that is if robotic and artificial intelligence greatly improves. It only costs a lot because you have to send humans and expend a lot of energy just keeping them alive.

Nice reference to Zephraim Cochraine.

Space mining is one of those interesting spaces where it only makes sense if you have a space economy but since it is the basis of the space economy it's a little bit chicken and egg. It's one of the few places where I agree with Bezos's approach to wanting to build Dyson spheres (or whatever works) to move industry to space. I don't think you mentioned it but ULA (I think) offered a price for space water or O2 if delivered from a space source.

One way of sending and receiving things to and from space could be tethers orbiting around earth.

To land the starship with the 100t load, you coul refuel it in orbit and do a short deorbit burn, then reverse land it, possibly using all 3 sealevel raptors or even have a specific version with 6 sealevel raptors.

Mining the Asteroids makes no sense for Earth, but does make a lot of good sense for the future colonies on Mars,🖖🏻✨

1. We do not need to bring all the resources back to earth. We already got plenty of resources here. Most manufacturing will be done in space or in the bases on moon / mars.
2. If you want to get materials to earth, just form a big solid block of them and drop them on earth. Use some rockets to slow them down just enough not to burn during reentry and create some nice impact craters in the desert, from where you can recover the block of material.

seems to me that it would make more sense to manufacture goods at the source of the raw materials and just ship the goods home.

a cannon is the best way to get it back to earth, just shoot drilled cylinders into desertic areas, the speed wouldn't be much and the shell would burn in the atmosphere so it would be a normal impact like those that go through peoples cars and houses sometimes but bigger (no big explosion since it would go "slowly"), then more and more cannons could be made, the metals could then be recovered and reused easily.

Actually a space elevator is a very good idea the issue is engineering the materials that would be strong enough to get the job done.

Use a space elevator to download the valuable rocks. It can be powered by an army of Tardigrades. :))

First thing that came to mind for first move would be using Magnetic Mass Drivers.
By setting up an infrastructure that regularly shoots a transit line of small manageable containers filled with mined material directly from the asteroid to a pre determined landing zone on the moon. Each container has independent low cost built at scale ion engines to correct trajectory when needed.
On the moon awaiting cargo starships will be filled with the containers robotically. Starships finish the final transport through Earth's atmosphere and material is brought in for processing.
Or processing could take place at facilities on the moon, processed material or products made are brought up to lunar orbit via LUNAR Space Elevator then to Earth. Cool Worlds channel put out a paper showing a realistic plan to setup one with today's technology:
ua-cam.com/video/L1ytpj3y21E/v-deo.html
Thoughts?
PS A video from kurtezagt with food for thought:
ua-cam.com/video/y8XvQNt26KI/v-deo.html

This would also push technology forward. A win for the planet and a potential win for humans, provided we do it right

Loved the Cochran "inside joke". I'm betting most of the readers here got the reference. Though frankly, I prefer the Cochran character from the original series to the one in "First Contact".

I love the idea of space mining,and i would like to do it for living,but i have no mining rig nor ship/crew.

A space station with a tether could work. Using the orbit of the station would keep a cable tight tied to Earth. If you find a mecheane to travel up and down

Asteroid mining should start out looking for rare earth materials. Advanced semiconductors, superconductors, batteries, and magnets are all dependant on these materials, that are all as so named "rare" on earth, and are considered of critical strategic importance. Enough to gain government interest in obtaining a supply of those resources.
Concentrating the materials found will be a key requirement. Where more than 50% of the desired material is what is returned with secondary materials (not tons of tailings).

Ideas have been tossed around since the 80s for a synchronized orbital space elevator. There would be a tether between the space station and ground station and the elevator would travel along a cable made from material with an immensely high melting point. This coupled with space towing tech which can bring small asteroids back into earth space could potentially create a more affordable means of mining asteroids and getting the materials back to earth rapidly. Likely decades from this potential solution but I feel it's possible in the not too distant future.

Man-ual labor & building of supply, is a traditional bureaucracy, however, AI servant and surrogate robotics, would undermind that tradition, yet exponentially reduce the cost, at unbelievable savings to reach the trillion+ earning performing these task, the phobia is whats holding back the service.

For the record, I am a huge Space X fan and I have big hopes for Elon Musk and his goals. He is and likely will continue to be a big player in the Space Race. I just don't think big cities will be developed on Mars in our life times if ever. Science will continue and expand on Mars, but it will be mainly a learning process for humans.

I have a good idea 💡 but I will try to make use of it at right place and right time 💲💰

I had seen a well plan from a certain oil and gas company once, the resource was Cadmium.

Plane space ships like those sending civilians into orbit could be utilized to transfer some of the materials back to earth, albeit in a much smaller quantity. However, I feel like we would have to do a lot of research as to whether bringing back all that mass to the earth would affect the earth's gravitational pull. In speculation, that could be why there are various amounts of gravity around the earth, depending on where you measure.

You could send it down in groups, like cargo dragon amount of space at a time.

When he said the vacuum machine thing he earned my like and sub 💯🤣🤣🤣

The Space Race, another good video. May I point out that the dwarf planet Ceres is pronounced "series", rather than "Sarah's", and that Wikipedia backs me up?

This is a great video, and I think you bring up an important point. Billionaires and billion dollar corporations will attempt to create artificial scarcity when they access the big asteroids like Psyche. Just like the Debeers do with diamonds. If they just let those resources flood in, they will be pricing themselves out of operation. It is going to be very, very interesting on an economic level. Will we allow space monopolies to flood the market with resources and, in effect, devalue the industries they're doing business in should they choose to? Once Mars has infrastructure sufficient to self-sustain; will the Martian colonists just fly over to the nearest asteroid belt and start mining, or will they have to pay some "tax" to "the people's Solar System"? :) Interesting time to be alive.

Short answer: we don't try to get raw material back to Earth. We get the finished goods of low gravity production back to Earth.