Space Elevators Going Up

MikShapi writes "CBC is running a new piece on the Space Elevator. Nothing dramatically new, as we're all still waiting for one of the many Carbon Nanotube research centers to announce they reached the famous 100GPa red line from page 10 of the NIAC Phase 2 Report, thus obtaining 'unobtainium' [pun intended], the material necessary to build the Elevator. The report predicts this will happen during the course of the next two years or so. It's then that the fun really starts - A REAL all-out space race, open to everyone with will and a national budget, winner probably getting to own space [read last paragraph]. In the meanwhile, we can all spread the word, discuss, debate and brainstorm every nook and cranny of the program here on Slashdot, and give Edwards a shoulder by giving the program every bit of mass-exposure we can."

Top floor..

Weightlesness, radiation, and hard vacuum.

Re:Top floor..

[njcoder]

I just wonder if they'll be putting in one of those security cams so that security gaurds can keep themselves entertained watching couples fool around on the over night shift.

Re:Top floor..

[mccoma]

heck, I hope someone straps a decent antenna to thing so I get good cell phone reception, like the commercial.

Re:Top floor..

[njcoder]

Come to think of it. What's the deal with cables? Cables are absolutely the wrong way to go. I see cables having their purpose though but not how they intend.

You'd need a very fast way to defy gravity and climb that cable. I say screw the cable. We need bungee cords. it's going to increase the speed at which we can get objects into outer space. Not to mention the revenues stream from all those GenX Addrenalin junkie millionaires out there that would want a ride.

Re:Top floor..

[Exatron]

I'm wondering if it wouldn't be easier to build the thing out of upsidaisium.

Re:Top floor..

[Zork+the+Almighty]

Damn it, we just got this thing built and some punk ass kid comes along and pushes all 22,000 buttons!

Re:Top floor..

[notestein]

Good God man, this will never work!

After 63,000 miles of listening to elevator music, everyone will be insane!

Re:Top floor..

[chtephan]

No, actually the middle floor will have no gravity (geostational orbit).

The top orbit will have "gravity" in exactly the opposite direction because it's spinning faster than than the required speed to stay in orbit. It has to pull on the cable to keep it from falling down.

It is somewhat like going through the earth. As deeper you go the gravity will diminish. In the middle of the earth: None. On the other side the gravity will increase again but in the opposite direction.

Emergency open / close buttons

Will they have emergency override controls on the cargo deck? Watch 'Aliens' if you don't understand why this is necessary.

Re:Emergency open / close buttons

[kfg]

Well damn, talk about serendipity, guess what just came on Encore? And it seems they've lost contact with the colony.

I wonder if anything bad happened to them?

KFG

Doubtfull

[Smitedogg]

A REAL all-out space race, open to everyone with will and a national budget, winner probably getting to own space

I predict that there will not be a space race, because the cost-benefit isn't acceptable yet. If this technology is only 2 years away (doubtful again), then there would be massive funding to accelerate the program if there was enough interest. Lack of interest now means that there is probably not going to be much interest when the nanotubes arrive.

Dogg

Re:Doubtfull

[houstonbofh]

There will be funding just as soon as it looks like someone else could make it. No one will want to be the president who "Lost space to the Chinese." Embarrassment is a powerful motivator.

Re:Doubtfull

[stealth.c]

Not two years away. More like fourteen. According to the article, it would be two years away once research has produced the proper technique for creating a cable, and once someone produces 650 tons of the stuff. Earlier in the article he mused that they were 12 years away from such a thing.

Re:Doubtfull

[Jeff+DeMaagd]

One thing I really question is the claim that there will be or can be only one final winner in "owning" space. I'm sure there will eventually be wars and such but dominance by one group doesn't mean exclusion of another. There are times where one group in a particular realm is the "king of the hill" but often there is room for other players too, without the help of that "king".

Re:Doubtfull

[AndroidCat]

And it would be nice to do a few trials first. Make a bridge out of it, put a few miles of it up in space. See how the stuff lasts over a couple years under various loads and conditions. A space elevator is a very messy thing to have an "oops" with.

Re:Doubtfull

I can see the headlines in 2018 already:

OPENING OF NEW SPACE ELEVATOR ENDS IN FIASCO
During the official opening of the first space elevator
a tragedy happened when the president was asked
to "cut the ribbon". This prematurely destroyed the
twenty billion dollar project, sending a rock with a
100,000 km long ribbon attached to it into space.
Read more on pages 2, 3, 4, 6 and 8.

Re:Doubtfull

[Jerf]

If exponential growth predictions hold true, and the "first entity" locked out others from use, then the "first entity" would be a "winner" simply due to taking off too rapidly for others to feasibly catch up. That doesn't make the other entities "losers", except in relative terms; they may always be four years behind but that four years may represent a factor of, oh, as long as we're being fanciful let's say 50.

However, I think there's a majorly false claim in there, which is that the first owner will lock out everyone else. Obviously, the first order of business when you have a space elevator is to put up more of them, and for a while they may indeed have a monopoly. But given the resources still available on Earth, someone will eventually tender an offer for a fully-completed cable that the first entity can't refuse; no matter how valuable the cable, it is possible to pay the owner off today with $X dollars, which the first entity will (correctly) perceive is more valuable to have it in liquid form, available to then invest back into other things. That price may be sky-high, pun semi-intended, but there are people on Earth who will be able to afford it.

By buying a completed cable, they can jump-start themselves up, and as more and more entities do this, it'll start looking more even. While the first mover will have a true advantage that may last a very long time, I don't see a situation where they maintain a 20x advantage over everybody in perpetuity; the value proposition of liquidating one of the cables is just too appealing.

This assumes a capitalistic owner of the first tether, and if the US gets there, the world can for once be glad that we see everything in terms of dollars, sooner or later, because that means that we will indeed have our price (though in the truest capitalistic tradition, it will be all the traffic can bear!). If it's not the US, well, it depends on who gets there first, but even so, it would take a very strong government to turn down the offers it would get... some of which are quite likely to be of the "offer you can't refuse" variety. ("Dear China: We still have nukes. Sincerely, All Nuclear-Capable Countries.") I still can't imagine a plausible long-term scenario where somebody maintains a massive, multiplicitave lead indefinately, though again, serious short- and medium-term advantage do accrue to them. (If nothing else, they'll need to draw on international capital to invest in space itself.)

Re:Doubtfull

[jafiwam]

If you mean "pretty much in the same place" as in "on the equator" then sure.

Though the orbit is geosynch, it isn't because of the distance of the center of mass of the thing. It's the distance of the center of mass of the thing while tied to the ground.

Let it go, and it gets an elipitcal orbit that is NOT geosynch, and the thing comes back from it's elipical orbit somewhere else on the same latitude.

Next, you are also assuming the thing does not have any "springyness" and bunch up on itself.

Not a trivial problem.

I bet you a taco dinner that if the cable gets cut on the ground it never comes back in a way that can be used.

100 GPa red line is not enough

[zeux]

Getting 100 GPa for carbon nanotubes composite is one thing. Getting 100 GPa on a 100000 kilometers carbon nanotube composite is another.

I'm more interested in the length of the nanotubes than in their strengh since increasing the strengh is quite easy (basically all we need is to increase the fraction of carbon nanotubes in the composite) compared to increasing the length of the composite.

Re:100 GPa red line is not enough

[tehdaemon]

Umm, between one and two times* anything above geosync orbit would not ever land. It is possible that up to geosync*2 of it could, the part above geosync could be pulled down by the longer and therefore heaver lower half. If the elevator is longer than that, it would not fall. It would stay in orbit, and actually pull up. (cut it at the bottom and watch it ascend . . )

*This assumes that each section of the elevator has the same mass as any other equally long section.

Re:100 GPa red line is not enough

[liftwatch]

While there is a difference between achieving 100 GPa over very short lengths and over 100,000 kilometers, it's not as much as you might think.

The longest individual nanotubes we can reliably produce are on the order of a couple of centimeters. But once we have nanotubes on the order of a meter long, they will probably be sufficient to produce a long ribbon with sufficient loading on the nanotubes themselves.

The limiting factor is not the length of the nanotubes in a composite (beyond a certain point, anyway), but rather how effectively the nanotubes themselves can be made to bear the load. Nanotube exteriors are slippery, like graphite, so the challenge is being able to stick them together in a substrate the transfers load effectively between them.

For this, a process known as "functionalization" comes into play. This basically means adding small appendages to the nanotubes so that they have more traction within the substrate.

LiftWatch.org carries regular space-elavator news items. Here are some recent articles on CNT advances:

• Rice produces pure, macro-scale nanotube fibers
• Kettering Researchers Discover New Way to Produce Nanotubes
• New CNT production technique for strength and conductivity
• UC Davis team develops durable CNT composite
• Zyvex gets research grant from NASA

Fwoosh!

[Faust7]

"If the whole thing fell somehow like you cut it at the counterweight, cut it way up at the counterweight, it would wrap around the Earth a couple of times," Laubscher says.

Well, that's fine. Calculate the length of that sucker just right and you've got a quick, exhilarating way to travel from one point on Earth to another.

Huh???

[builderbob_nz]

thus obtaining 'unobtainium'

OK for someone who can hardly remember a thing about High Scool Chemistry, Unobtainium, what's that? A new term for good karma?

Re:Huh???

[Dr.+Weasel]

Unobtainium is a term for non-existant wonder materials. In this case carbon-nano tubes are unobtainium. As in unobtainable.

Re:Huh???

[Brandybuck]

Unobtainium; A general term for any material that is, for all practical purposes, impossible to obtain!

And once it's obtainable, it will retain the name "unobtanium", because administratium will continue to be a necessary component of any NASA project. If you aren't aware, administratium is the only element whose atomic weight increases after fission.

Oh, oh yeah?

[Faust7]

In the post-9/11 world, the first space elevator, built by the United States, would be a tempting target for terrorism.

Not if our brand-new Department of Homespace Security has anything to say about it!

Imagine, if you will, a solid 3D column of security, with an outer edge in the shape of the U.S., starting at the U.S. and extending infinitely into space. I think if we tried, we could even make it glow the whole way. Put a scare into some of those E.T.'s.

Re:Oh, oh yeah?

[myowntrueself]

That would be fantastic; a wall to keep the yanks out (of the rest of the world)! ;-)

yeah yeah troll, flamebait, yeah whatever

This is good and all....but

[ImTwoSlick]

It's nice that we're on our way to creating the materials needed for a space elevator, but where are we going to find a big enough rock to attach to the other end?

Re:This is good and all....but

[Jeremi]

where are we going to find a big enough rock to attach to the other end?

According to the book, the plan is to send up a rocket with the smallest possible cable. The cable gets lowered to Earth and secured (cable also gets spooled out in the opposite direction, in order to keep the spacecraft in orbit). Then they send up a series of progressively larger robots along the ribbon. Each robot adds more material to the ribbon as it climbs, and when it gets to the top of the ribbon, it stays there to add to the mass of the counterweight. So basically we bootstrap our way up.

Star Trek...

[TheKidWho]

Second Floor Scottie!!

What does human advancement require?

[ObviousGuy]

Whenever a space story is brought up, some person always brings up the argument that perhaps we should spend money on the poor instead of a useless space elevator (or whatever the space story du jour is). I don't think they are arguing correctly. Space is just as important to human advancement as feeding the hungry, curing chronic diseases, and providing a livable environment is. I don't think you can order these in importance, they are all important.

But they go hand in hand with each other. Unless we truly believe Matthew 5:5, that the weak will inherit the Earth, it will take a worldwide view of humanity to move us to the next stage of human advancement which is the eventual separation of humans from the Earth and into the galaxy. We can go this alone, leaving the world's poor to their own devices, while the space superpowers leave them behind. However, when the day comes that certain small groups of humanity take to the heavens leaving this world and venturing off into the depths of space, how will history treat those of us living now who failed to hold the hands of those unable to stand with us as we raised humanity to new heights?

The space elevator is a great achievement. Hopefully we will begin to have a true space-based space program that is not dependent upon sending rockets to the space station. This would be the largest step in the path to Earth separation since the first manned space programs.

However, taking steps only with our strongest leg means we are still limping. We must strengthen all our limbs as members of the human family, IMO.

Re:What does human advancement require?

[homerjfong]

Warren Buffet often argues that since he is more productive than average, it's better for him to put his money to work than donate it to the needy. Once he dies, the argument goes, the money (a greater sum due to compounding) can be distributed. Take any discovery expedition - Columbus, Cortez, Polo - figure the aggregate value gained vs. the actual cost. This is the principle of investment.

Re:What does human advancement require?

[1u3hr]

Whenever a space story is brought up, some person always brings up the argument that perhaps we should spend money on the poor instead of a useless space elevator

I'm sure that more is spent on any one of: cosmetics, fizzy drinks, cigarettes, SUVs, cocaine. If you're just talking about govt expenditure; at least 100 times as much is spent on the military.

If access to space is much cheaper, the benefits to the world will be immense; though it'll take a few decades. Even back in the 70s when O'Neill advocated space colonies in the L5 orbits it was possible to make a case. With a much cheaper launch method it becomes compelling.

Re:What does human advancement require?

[Goldsmith]

Every stage of major social advancement throughout history has come as a result of increasing opportunity.

Were it not for exploration and technological advancement, we would almost certainly still be living as serfs to some fuedal lord.

When the US was founded as a large republic, many people thought it would never make it. The success of representative government has improved the lot of many people, and arguably, the poor of the entire world.

Now, we are all at a standstill. There is no place for people to go who seek to try something new. There are no experimental governments anymore, and there are no nation-wide experimental social systems. Individuals or small groups fight to improve the world, but there's nothing to be done against the inertia of the status quo. Things will improve, but slowly.

Space offers that opportunity we need. Naive people see space as a playground for the rich. If we're going to have a playground, we're going to need to build it. The first people who will go permanantly up in a space elevator will be construction workers and engineers.

When you take into account the resources available, and what it means for an end to mining and power production on earth, you have a pretty powerfull vision.

It's remarkably short sighted to argue against taking ALL of humanity a step foward because we're not all on equal footing. We NEED to take this step foward, DESPERATELY, in order to help solve poverty, exploitation and many other ills in the world.

Re:What does human advancement require?

[NoData]

We NEED to take this step foward, DESPERATELY, in order to help solve poverty, exploitation and many other ills in the world.

With all due respect, I call bullshit. Your arguments and the parent post's arguments are simply so much sentimental claptrap.

There's so much clamor for 'intellectual honesty' in the current political climate, let's start here.

Let's call a spade a spade. Space exploration is worthwhile because we, as a society, have decided that the enrichment of human knowledge is a virtue per se. Knowledge for the sake of knowledge. Human endeavor. It needs no other rationalization.

To say that space exploration is worthwhile because of unrealized, indeterminate side effects that are not the goal or intention of the pursuit, but held up, nevertheless, as some sort of social promisory note is just sophistic rhetoric. Tomorrow, I'll go tell the homeless guy down the street the good news: "Worry not, dear poor person, for we are building a space elevator that will elevate the dignity of all humankind, and so too shall your station rise!" Yes, and then I'll go tell the patients in the oncology ward that we shall cure cancer by building flying cars, for surely some modicum of the technology needed to build a flying car will make cancer fly from the body as well.

Here's the thing: Multiple fronts. Society proceeds on multiple fronts. We don't stop space exploration because we have sick and poor people. We don't stop researching epilepsy because we have diabetes, stop researching diabetes because we have AIDS, stop researching AIDS because we have cancer, stop researching cancer because middle aged men have erectile dysfunction. What we DO do (giggle) is engage in a torturous debate in resource allocation. In terms of real life application, space exploration is an incredibly expensive, high risk investment with a possibly high payoff potential on a very far time horizon. But in the short term, we learn a lot about how the world works. This does improve the human condition in some abstract sense, but to say that it is a necessary step to curing some of our pressing social ills is disingenuous. The way to address our pressing social ills is to, you know, address our pressing social ills. We just have to figure out how to do that in a responsible way and still leave enough money over for the purer, less immediately tangible pursuits that we collectively value. Doing this factor analysis well is the hallmark of good government.

Two books...

[Aardpig]

The Fountains of Paradise by Arthur C Clarke and Red/Green/Blue Mars by Kim Stanley Robinson. Both discuss the politics and sociology surrounding the construction and use of a space elevator. Good books, well worth a read.

Well if its built in the US

[MajorDick]

Look for the AFL/CIO to get in on the act, Can you imagine how much money you could hide/steal/launder on a construction project of this size !

Re:Uh..

[cnkeller]

Isnt that um, impossible given our orbits in relation to each other?

Two different elevators guy. One on mars and another on earth. For lauching payloads from both planets. We are going to eventually have to travel home from mars....

This may be the coolest thing I've ever seen

[Gavin+Scott]

I was at that NIAC conference a couple years ago when Brad Edwards presented his Phase 2 results and I have to say this was one of the most inspiring things I've ever seen.

Listening to him go through all the numbers and technical details you're left not only with the amazing scope of the thing but the feeling that, ya know, we might just be able to build this thing!

G.

Nanotubes made out of carbon

[cmason]

Just when you think all the great ideas have been thought of, scientists dream up a concept so radical, and so innovative, that you wonder if they've been smoking reefers the size of Yule logs.

Such is the case with a group of scientists from the National Research Laboratory in Los Alamos, N.M. (''Los Alamos'' is Spanish for ''More than One Alamo''). According to an Associated Press story that I am not making up, these scientists are proposing to build an elevator that would be 62,000 miles high. That's right: 62,000 MILES, which is 32 million stories. At the top would be a revolving restaurant serving what the scientists promise will be ''really mediocre food.''

- Dave Barry

Love in an elevator...

[blcamp]

Can you imagine making love in THAT elevator?

Talk about Mile High Club...

don't be so quick...

[Goldsmith]

I'm a physicist, and I work with carbon nanotubes. In October's Macromolecules, there was a paper put out called "Phase Behavior and Rheology of SWNTs in Superacids". It was done by a huge group of people (for a nanotech paper), including Nobel winner Richard Smalley. A press release about it was posted here somewhere.

To make a long story short:
They did it.

By finding a way to dissolve nanotubes, then slowly concentrating the solutions, they formed a liquid crystal of nanotubes. By extruding this through a syringe, they formed an aligned, macroscopic, nanotube rope.

I've seen this stuff... somewhere, and it looks just like black string.

What's left?
They used tubes grown by high pressure carbon monoxide, which leads to a lot of defects. If they switch to methane, the defects will largely be gone, but the yeild drops.

They probably need to chemically connect the tubes. You can do that with an electron beam, but that would be a pain industrially. I'm sure there's a way around it.

I'm sure that same group of people has already figured out many more problems and solutions than I can think of. I havn't seen anything out about the mechanical properties of these ropes yet, but I would expect something within a few months, and I would be surprised if it wasn't amazing.

I used to be a skeptic when it came to a space elevator, but now...

Re:don't be so quick...

[HiroProtagonist]

Holy Crap!

Here's the link to that article you just spoke of:

Phase Behavior and Rheology of SWNTs in Superacids

For those of you suspcious of "blind" links:

http://pubs.acs.org/cgi-bin/sample.cgi/mamobx/2004 /37/i01/html/ma0352328.html

Re:don't be so quick...

[liftwatch]

I've seen this stuff... somewhere, and it looks just like black string.

There are some pictures of real carbon nanotubes in plexiglass containers available here, taken with my crappy digital camera at LiftPort.

Cool story: at one point some of this material, which looks more or less like soot, spilled onto the flat, seemingly smooth table top. After wiping it off, there was a permanent black smudge left on the table top that no amount of scrubbing would remove... some of the nano-scale CNTs had slipped down into the microscopic grooves and divots on the table surface!

Re:Bouyant cables!

Bouyant cables, even in the best case, can't get you out of the atmosphere, so maybe 1000 km on the top side. The space cable has to reach geostationary orbit, some 35,785 km out. You lose :)

Can Imagine this Erection !

[MajorDick]

2 Things, Here in Akron Ohio, the Now home of Televangelist Earnest Angley, the building he now offupies was televangelist Rex Humbards previously, Rex started to build a HUGE Rotating restraunt on a pillar, something along the lines of the "space" needles, He ran out of Money before he could finish, so now at one of the highest points of town, a large white tower stands with no purpose, everyone here calls it Rex's Erection

A second note that almost killed me with laughter was , well let me start with I used to be in the building trades, one day while at a supply house, a New blue truck pulled up, the sign on the side ? "Short STEEL Erection" I was dying, they specailzed in Steel reinforced concrete. I always love that one I think they were out of Canton OH

Nobody is going to build one of these.

[Jartan]

Im constantly amazed how optimistic some people get about a space elevator. The main post and a lot of things other people are saying make it seem like they think technology is the deciding factor in whether or not one will get built. The only reason nobody has really spoken out against the idea is the average person thinks the scientists are smoking some good crack on this one.

This isn't a harmless piece of cable we're talking about. The real barrier is going to be whether or not it'd be dangerous if it breaks or if it's cut. If it'll burn up and IF the burnt nanotubes aren't dangerous then maybe there will be a snowballs chance in *$#@ that the public will ok such a project. You can be guaranteed that if it's dangerous though that everyone will just assume that it will break or be broken intentionally.

Re:Put the elevator in Cayambe, Equador

As far as countries on the equator go, Ecuador's competition consists of Colombia, Brazil, Sao Tome & Principe, Gabon, Republic of the Congo, Democratic Republic of the Congo, Uganda, Kenya, Somalia, Maldives, Indonesia and Kiribati. I reckon they've got a shot!

As a structural engineer...

...the 100 GPa number sounds ridiculous.

For context: the most common type of structural steel currently used has a yield strength of 350 Mpa. 100 GPa is 285 times stronger. And stronger isn't enough, it has to be dependable and resistant to cyclicle loading and fatigue, which isn't easy to quantify, especially under such unusual conditions.

To suggest that this can be achieved in a couple of years sounds silly to me, considering whatever material used would a lengthy term of testing and a proven track record before sinking billions of dollars into it.

Re:Unobtainium

[Brandybuck]

Unless it breaks, it can't tip over. It's like hanging a yoyo from your finger. There's no way the string is going to tip over onto your hand.

I'm not the least bit concerned about the carbon nanotubules. I'm still trying to figure out how their going to ATTACH the damn thing. All buildings are essentially resting upon the Earth. This thing can't rest, it needs to be attached. For a cable this long, a "stupid hurricane" could set up a vibration is going to build to the point where the whole thing starts "walking" across Columbia.

Hmm

[ShooterNeo]

One question : the basic plan involves transmitting power through microwaves or laser light, enough electric power to provide the kinetic energy difference to actually put a vehicle in orbit. Why not skip the development of unobtainium and skip trying to put a super long and heavy cable in orbit? Just build the power laser facility 10 times over, and build spacecraft that use a block of inert propellant, heated to millions of degrees celcius from pulses from the laser and pulsed such that the shockwave is a planer wave coming away from the spacecraft. So no nozzles, no rocket engines, no pumps, no chemicals, no fuel, no explosives...all the stuff that make spacecraft expensive and dangerous. Just a block of cheapo rock and a spacecraft built like a cheap copy of an Apollo capsule made by the Russians. Would be safer as well, since in-orbit is pretty safe (there are patches to plug small holes), launches no longer can blow up, and reentry is much simpler and less error prone that with a space shuttle. Finally, that kind of laser would make a rather fine weapon, and would help out military applications as well (so could get some of the funds from the U.S. military budget)

Do your elevator pitch

[btempleton]

At least if you found yourself caught with a VC in this elevator, you would finally have time to really pitch your business plan.

On a serious note, they predict it would be hit, if not moved, by a large space object around once a year. They think they can spot these objects and move it as needed. But what about smaller objects. How much damage will they do? How easily can they be detected? How often will they hit?

And worse, what about deliberately launched smaller objects, radar-invisible small objects fired by a nation that doesn't want another nation to own space.

Re:Better Space Sation ?

[Honor]

The station is not only intended for putting things in orbit or for cargo purposes, but also for experimentation. The space elevator can only get the stuff/people up into space, but without a place to put them they arn't much use. Therefore, the ISS is still just as important as it was before, maybe more so. With the ability to more cheaply and easily get experimentation materials to the station, experimentation in space will become cheaper and more widely available. Perhaps with this new space elevator students can even go beyond the "vomit comet" and actually go into space. One easily accesible space station will inevidabley lead to others, soon.
With the competition that all of this new technology is/will be producing, a commom point like the ISS is important to unite the major countries.

Ridiculous, but plausible...

[Goonie]

the 100 GPa number sounds ridiculous.

For context: the most common type of structural steel currently used has a yield strength of 350 Mpa. 100 GPa is 285 times stronger.

Yes, it sounds outrageous, but it's theoretically possible to do this with nanotubes, apparently. As I understand it, nobody has actually demonstrated a macroscopic piece of nanotube composite with this kind of strength though.

To suggest that this can be achieved in a couple of years sounds silly to me, considering whatever material used would a lengthy term of testing and a proven track record before sinking billions of dollars into it.

True, but the things made possible with such a material would surely attract billions of dollars worth of R&D. Can you imagine what it could do for things like aircraft design?

Re:Ridiculous, but plausible...

[Alan+Shield]

Can you imagine what it could do for things like aircraft design?

General Products Hull's here we come!

Economics

[bremstrong]

The only problem is that the same nanotube technology that would enable a space elevator will also enable a reusable single-stage-to-orbit spacecraft capable of putting mass into orbit at a much lower cost.

Just to pick some numbers:

Space elevator: $5B each, one 4 ton payload per day

Nanotube composite rocket: $.1B each, one 8 ton payload every two days

In other words, it will never happen.

Re:Better Space Sation ?

[Keith+McClary]

You could basically do all of the things the space station does

What does the Space Station do?

Wrong, according to Strong's Concordance

[Valdrax]

According to Strong's Concordance, the word in the original Greek is "praus" (latinized spelling) which means mildness of disposition, gentleness of spirit, or meekness. If this page doesn't load, go here, type "meek" into the first line, submit, find Matthew 5:5 and click on the number 4239. This word is close to the modern Greek "praos" which also means "meek."

In other words, Jesus was saying that the humble and mild-mannered will inherit the Earth. You can find this same word commonly translated as meek in 1st Peter 3:4. Also, if you look at the context of Matthew 5:1-13, the opening of one of Jesus's sermons, it's quite clear that he's saying that rewards await the humble and downtrodden. They "are the salt of the Earth" and there is not an aggressive or angry group among "the poor in spirit," "those who mourn," "the meek," "those who hunger for righteousness," "the merciful," "the pure of heart," or "the peacemakers."

I'd be very surprised if Strong's Concordance was wrong on the issue given the context and the modern descendant of the word. I'd love to see some evidence for your professor's claims.

Re:Conservation of angular momentum is the fatal f

[The+Master+Control+P]

Not speaking as a physics grad here, and possibly talking out my ass, but I was under the impression that the space end of the tether would be a little outside the balance point, such that (if not for the cable holding it down) it would continually try to fly off into space. Thus, when it's energy was sapped by the launch of a new spacecraft, it would in turn sap the rotational energy of earth to return to it's highest possible orbit.

There ain't no free ride into space: The elevator will simply replace violently exothermic chemicals with the slow sapping of earth's rotational energy.

Re:My prediction

[mcrbids]

It'll be at least a century before one of these things actually do anything useful.

What's sad is that it may well take that long.

However, the best thing we could do to promote the sky elevator is to develop and build nonotube-based structures here on Earth.

For example, if you were to rebuild the Golden-gate bridge in San Fransisco with nano-tube cables instead of steel cables, would they even be visible from the shore?

An impressive, previously infeasible structure, such as a bridge spanning the entrance to the Mediteranean, or across the English Channel would do much to get everybody used to the idea that something like this could, in fact, be done.

Also, projects like this would give us opportunities to answer questions about its durability, relability and safety in a large number of circumstances.

Building a space elevator with nanotubes as the first project is fundamentally stupid. Build something more reasonable first!

Re:Conservation of angular momentum is the fatal f

[jms]

Apparently my objection is unfounded. It has been pointed out to me that the liftport site discusses this issue:

If you go through the math quantitatively, the angular momentum for the climbers requires a few newtons of force over the one-week travel time, and we do that easily with our many tons of material in the anchor and the counterweight. The additional angular momentum will eventually be recovered from that of the entire Earth.

The quantities really are tiny, but just to be complete, a climber going up pushes the entire elevator slightly to the east, causing it to lean. However, the ribbon recovers for the same reason that it stays up in the first place. Centripetal acceleration is acting on the counterweight pulling it outward, and the lost angular momentum is replaced very quickly (essentially as fast as it is lost). The ribbon will never lose enough angular momentum to even deflect a single degree, let alone fall. The extra angular momentum is stolen from the Earth's rotation ...

The site doesn't actually run through the numbers or mention how long this recovery time would be. The logic does make sense -- if the tether becomes slanted relative to the surface of the earth (my objection), then by definition there is a lateral component to the centripetal force on the tether, which should allow the sky station to steal some angular momentum from the earth. at some unspecified rate.

The site doesn't actually run through the numbers or mention how long this recovery time would be. If any physics mavens are irritated enough by my parent post to actually run the numbers, I'd be genuinely interested in seeing the solution worked out.

Cost

[Moderation+abuser]

I predict that a space elevator will make the cost of the lunar landings look like peanuts. I very much doubt it'll happen in our lifetimes.

NASA is the reason space is expensive. Companies like Starchaser and Scaled Composites are the ones who will make space cheaper and will "own space".

Cable propagation lessons from the launch loop

[klic]

I've fiddled with the math for these kinds of things for decades on an old idea called the "launch loop". The dynamics of long tapered cables are not impossible, but they are nasty. Very long cables are not like a stout rope to a fixed point nearby, they are more like reaction mass that vibrates. Think "Tacoma Narrows Bridge", which fell down because 1930's engineers did not take their differential equations up to 7th order.

As a climber goes up, the surface anchoring system must pay out more cable to fill in the less tensioned region under the climber, faster and faster as the climber accelerates up the cable, proportional to the speed of the vehicle, total acceleration (including gravity) and inversely proportional to the mass per meter and the square of the propagation velocity of the material.

This is continuously changing, so forces and velocities at the surface are changing also. The problem is, this is an underconstrained and essentially undamped end-terminated system - as the cable gets very long, you develop big standing wave complexes with only two points (surface and top anchor) to remove or store the energy. Keeping the standing waves from building up is difficult, but not impossible. However, it does add an additional constraint on launch rate; you have to spend a lot of time damping out the waves, even granting that these people are more clever than I am at modelling and removing this energy.

Tapering of the cables, necessary even with magic nanotube unobtainium, makes the math even more "exciting", with the additional constraint that the through-atmosphere sections, along with the sections that dip into the atmosphere during wave motion, have to be thoroughly protected against atmospheric degradation (hint: C + O2 -> CO2 ). The portions of the system below the Van Allen belt have to be armored against atomic oxygen damage. Atomic oxygen will burn off the leading edge of ISS at rates approaching a millimeter per decade; the space elevator will be stationary in the gas field, but there are still a lot of fast moving oxygen atoms up to, and through, the radiation belt.

All motor driven systems have limits to their power-to-weight ratio. To get to GEO, we have to add about 60MJ/kg. If we take 33 hours to do so, we need to move an average of 500 watts per kg (total climber weight) through the (photovoltaic or microwave) energy collectors, motors, rollers, etc. For comparison, a 1500 kg sports car with a 300 horsepower gasoline engine uses 150 watts per kg. However, that underestimates the problem. Most of the energy will be added at the beginning of the climb, during the first 10% of the travel distance, as the climber leaves the depths of the gravity well, so expect thousands of kilowatts per kilogram in the power train during this phase. If there are unexpected variations in the power, the change in climbing acceleration will add more ripples to the cable.

I tried to avoid these problems with the launch loop (see URL below) by keeping the altitude under 100 km and the motors on the surface. Even over those "short" distances, cable propagation issues are problematic. Funny/bad things like lightning, ice buildup, fractally gusty winds, and jittery payload forces require special attention, and all reduce the capacity of the anchoring and stability cables. Everything above the atmosphere is exposed to a steady rain of the garbage that your launch system has accumulated in orbit (it all comes down, eventually). Reentry systems for human payloads (in case of failure) add weight. Problems, problems.

At the end of the day, though, the killer issue is lack of demand. The launch loop, with about the price as a space elevator (+/- 3dB) and using materials and technologies we have had for two decades, can put 80 tonnes of payload into orbit *per hour*, for less than $10/kg. Unfortunately, nobody wants that much mass in orbit, even at that miniscule price. Perhaps "if you build it, they will come", or perhaps you end up with another white elephant lik

Only $5 billion? $500 billion maybe.

[Moderation+abuser]

The channel tunnel cost $21 billion and that's just a couple of big holes in the ground. The cost is going to have to be amortized across generations of users. I do agree with your point though.

More people fly from the UK to the continent these days because it's much cheaper, faster and more flexible.

"Old Wealth" in the US?

[ArsSineArtificio]

Most of the "old wealth" in the US is still in the hands of those families whose ancestors controlled for a few decades the only economic means of transport to the American West.

Have you ever looked through the Forbes 400? "Old money" in the US is largely a myth.

The ten wealthiest individuals in America are Gates, Buffett, Paul Allen, Larry Ellison, Michael Dell, and the Walton heirs. (Steve Ballmer is 11th, incidentally.) Of these, only the Waltons inherited their money, and that not from some ancient rail baron, but from a self-made man who died in 1992.