Riding The Space Elevator 319
savas was one of the folks who sent in the story concerning the possiblities of a space elevator in 50 years time. They make good sense, especially if we are committed to doing something more than the current small commitment to space.
Re:Where will they put it? (Score:1)
Like, say, the United Nations?
Re:Frisction (Score:2)
Naw. From the point of view of the earth, it's a very tall mountain. Mountains on earth don't get hot from air friction. Airplanes travel faster through the air than the cable would.
Also, don't think of this as a wire. It would probably be 100+ ft around at the earth's surface.
...phil
Re:Really? (Score:2)
...phil
Re:Where will they put it? (Score:1)
And now I sit back and watch my karma die.
Re:So, how does the cable get up? (Score:2)
...phil
Re:yeah but (Score:1)
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not for me. (Score:1)
Re:Red Mars, Blue Mars, Green Mars (Score:1)
Re:..But Can They Patent This Idea? (Score:1)
Jeff Bezos call your office!
DB
Re:yeah but (Score:1)
You've just designed a perpetual motion machine, but you'll have to build a working prototype before you can patent it. :)
DeanT
Re:My thoughts... (Score:1)
How many things in the world once thought to be impossiable are very possiable today?
Was it impossiable to think 50 years ago everyone could have a computer on thier desks?
Was it impossiable to have a network to connect everyone to everyone else linked by light?
Was it impossiable to think man would walk on the moon?
Was it impossiable understand the atom?
Was it impossiable to build a pymind of limestone in the middle of a desert?
Was it impossiable to drag huge stones to a field inright them, and build a circle?
Was it impossiable for the king and queen to lose all meaningful power in europe?
There is so many thing that was once thought impossiable that are very possiable today. Everything you state here can be changed or invented in the next 50 years. Look how far we have come in the last 100 years. Lights, cars, airplanes, computer, nukes, radio, the internet, lasers and so many other things.
Anything with a people with enough will power behind it, is possible.
MarNuke
Re:Uh oh... (Score:1)
Space elevator: the ultimate terrorist target (Score:1)
I love the idea of taking an elevator to space, and I don't doubt that we'll eventually be able to build one (whether it will ever actually happen is another matter).
However, one of the first concerns I had about such a tower, was how to protect it -- not only from accidental collisions with space junk or an errant airliner, but how about a dedicated terrorist with a bunch of missiles?
The Elevator would definitely be a tantalizing target.
Re:yeah but (Score:1)
Satellites are falling, which is precisely why they a person on one wouldn't percieve any gravity.
The same thing would occur (briefly) if you were in an normal elevator that was falling down its shaft.
Re:Where will they put it? (Score:1)
Look ma, internationwal waters. The biggest navy owns me.
Nanotubes again (Score:1)
Re:Uh oh... (Score:1)
B-)
DB
Re:Yeah Right.. (Score:2)
Name 'em.
Why hasn't anyone done a "MoonBase"? ... A MoonBase would be a lot easier to build and maintain.. wouldn't it?
Maybe. Moon bases are certainly in the 'talking-about' stage. The trick is, of course, getting enough to the moon to be self-sustaining.
Everyone keeps trying to do these space stations that keep failing and falling apart.
Uh, exactly HOW MANY space station has there been? I count one. The International Space Station is not yet commissioned, so the only example I can think of is Mir. To ask why it's falling apart, you only have to look at the government that's running it. One example does not make a trend.
...phil
Timmmberrrrrr! (Score:2)
Re:yeah but (Score:2)
This is, of course, assuming that the actual act of falling is safe. I don't know enough about things like terminal velocity to know if you run the risk of dying of asphyxiation or burning up as you fall.
How about Continental Drift? (Score:2)
Ok, lets say that all the obsticles of structral materials, orbital harmonics, etc. etc. can be overcome, and we build this thing. Now, as I understand it, the bottom end is attached to something at this end... in this case, a 50 Km tall building. This is, of necessity, located on Earth's equater. But don't we have plate tectonics? Will it STAY on the equater? Or will we have to relocate the anchor point ever few hundred years?
Great Glass Elevator (Score:2)
Re:My thoughts... Refuting the arguments of jd (Score:2)
2. The tether could most certainly be rigid - it's a straight line connecting GEO and the surface of the Earth. Tidal forces (from the moon and the sun) _may_ induce some sway - but this can most certainly be dealt with by appropriate movement of the balance mass beyond GEO.
3. Not according to my freshman engineering statics class - don't think of it as a large tower, think of it as a very large, flat bridge.
4. You put it in any equatorial country - I prefer South America, because of the Andes, but Africa would do fine. The tether goes straight up, so as long as it isn't within 10km of a border on the ground, nobody can do anything about it.
So, it isn't impossible at all to imagine. I personally think we won't, but not because we can't. The possibility of it crashing to Earth (and thus making a hundreds-of-kilometers-long crater) will guarantee that permits will be very hard to get.
Now, constructing such a tether (I prefer the term 'beanstalk' myself) on Mars would be more feasible - the Martian gravity, being lighter, gives us the advantage of being able to use contemporary materials. The CNTs discussed in the article have incredible tensile strengths, but only in lengths of less than a meter, currently. Additionally, Phobos and Deimos, if moved to Mars synchronous orbit (Mars GEO), would provide an ideal source of materials and a base for construction.
Even considering the above, however, it is unlikely that a beanstalk will be built on Earth. Besides the difficulty in making one in our 9.8m/s^2 gravity, beanstalks are also confined to a two-dimensional plane, because of the need to connect to a point on the equator.
I'd refer you to a webpage with more specifics, but it isn't done yet.
Howard Swan (fenris@nmt.edu)
Earth is the cradle of humanity, but one cannot stay in the cradle forever. -Konstantin Tsiolkovskii
Materials. (Score:2)
Metal whisker fibers and carbon nanotubes both have the required tensile strength, and have both been produced in the laboratory. It is not a question of the materials existing. It is a question of being able to easily and cheaply produce them in bulk.
Nanotubes were mentioned in the article. Please read it thoroughly, as it may answer other questions you may have. It also cites more technical articles, if you want more detailed information.
Re:Yeah Right.. (Score:2)
Uh, exactly HOW MANY space station has there been? I count one.
Two, I believe, if you count Skylab. You may not be old enough to remember it very well; I was in high school then.
Re:My thoughts... (Score:3)
And it's common sense that quantum physics must be wrong, cause it just doesn't make sense that something could be like a wave or a particle at the same time!
And it's just common sense that no one will ever be able to make a fabric that could stop a bullet.
Oh wait, they did - it's called kevlar. Hey! that's your alias!
Torrey Hoffman (Azog)
Re:Timmmberrrrrr! (Score:2)
a structure that could drop thousands of tons of material across a large swath of the planet if it failed
Do you realize that the description you've just given also applies to Hoover Dam? The only distinction is how rapidly the material gets (re)distributed.
I think within 50 years we'll get to where we can trust macroengineering if materials science gives us a reason to.
How are you going to paint it? (Score:2)
Structures of any type do not survive any signifigant length of time without maintenance. Large projects in particular often require more resources in maintanence than in construction, and if the construction takes any length of time at all, then maintenance costs start on the parts of the structure that are complete.
Worse yet, this would be a structure that you would have to maintain. Consider what would happen if this puppy precessed a little and fell over (excuse me, deorbited...) I wouldn't want to be anywhere near it, and in this case "near" is a pretty big place.
Re:Where will they put it? (Score:2)
Well, around here things are not going very well. We have a stupid president who is more interested in appearing on TV than governing. He tries to get the masses to rebel. (against what? who knows). He changed the constitution to whatever he wanted (well, it's a little more complicated, but that's the bottom line). His economic plans are laughable to nonexistent. All international investors are avoiding us like the plague. All Venezuelans who have the money are fleeing the country. Unemployment rates are the highest it's been in the history.
Oh, and he was just reelected for 7 more years (I am not going to express my opinion on whether he cheated or not).
With all that said, yes, Venezuela would be a good place. Set up in the Bolivar state, (Yes, near rain forests and national parks, sorry). You'd be on the guayana shield (Basically a REALLY big rock) so there are no earthquakes. You'd be very close to many different rivers which are being or will be exploited for hidroelectirc power. Iron and aluminum industries are in the area, plus the biggest oil exporter outside the middle east is (take a guess....) Venezuela. (there is also diamond, gold and I think a little bit of radiactive materials, I'm not sure if it'd help)
You have sea/river transportation as far as Puerto Ordaz, a few hours away, and if you are going to build a space elevator, you might as well build a nice highway from it to Puerto Ordaz.
Yes, Venezuela is having problems. Hopefully Chavez will be overthrown soon
(And thanks for the technologically clueful vote
The anchor sounds a bit like the tower of Babel (Score:2)
It's great that my grandchildren may actually see it happen, but it's not new.
LK
Re:Think about it (Score:2)
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Philippines as a tether site (Score:2)
As far as the Stephenson comparison between the Philippines and America, I haven't read the book but the comment sounds true. The Philippines was a US colony for about 50 years and up to a few years ago was the one of the most pro-US countries in the world. Then around 1992 they traded in their two US bases (Navy: Subic, Air Force: Clark) for a handful of nationalism. Most Filipinos emulate Americans and want to be like them or look like them or move to the US or all of the above.
Anyway, I digress. Short summary: 1. No, you don't want to build the tether there; 2. The Cyrptonimicon comment is on the money. (In this case, a peso. ;-)
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Don't anchor it (Score:4)
Anchoring it to the earth would only be necessary if more downward force is needed, but it seems to me that down-force is to be avoided. Keeping the thing up with minimal additional tension in the cable would be better.
One should also look at what happens if the cable breaks. The greater the tension, the greater the energy released, and the larger the perturbation on the circular orbit. If the thing can be kept up without a lot of external force (i.e. yanking on the string), it's probably more stable.
Re:Yeah Right.. (Score:2)
...phil
Re:My thoughts... (Score:2)
Re:My thoughts... (Score:2)
Give me some facts. Research it. Show the material. Do some tests. Put up some data. None of this assumption crap. The Scientific Method is what defines science and helps us describe our environment. I see no evidence of that here. Just a bunch of assumptions and "cool shit". What I'd love to know the most is: How the hell do they go about constructing this? Obviously from the top down. How many rockets does it take to put this amount of crap in space? How the hell do they expect to get an asteroid... thats a big deal... How do they expect to build it? People, machines? etc. etc. etc.
Its a long into space; not nearly as far as your brain however... its out there somewhere.
Brazil has a space industry already. (Score:5)
Looking at the equatorial slice, you have Central and the northern part of South America. That's close to the US, but the only country in that area that sounds somewhat reasaonable is Venezuela. I think they're stable, and at least somewhat technically clueful.
Hairy, you may want to read the newspapers once in a freaking while.
First of all, you're completely wrong about South America, which has come a long way in the last twenty years. Not only have most countries turned from military dictatorships or nationalistic juntas toward multiparty democracies, most are fully industrialized and modern. Brazil even has its own nascent space industry with a launch site at Alcantara [spaceviews.com], and an aeronautical industrial center calling itself Space Valley [accorbrasil.com.br].
Brazil has skyscrapers, subways, and even computers. (What, did you think they lived in mud huts?!)
Venezuela, on the other hand, has recently turned into as close to a rogue state as you can get and not actually be one. The President has endured the censure of the United Nations, the Organziation of American States, and others, and has deliberately met with pariah leaders like Moammar Khadafy and Saddam Hussein. Venezuela is heavily Western-invested due to its oil industry, but many companies are reconsidering its long-term political stability.
A shame there aren't more, as close to the US is a major plus, since American will probablly pay for most of it.
Why would you assume that Americans will pay for most of it? Why would you assume that taxpayers will pay for most of it? More likely it will be built by an international consortium supported by investors and ultimately funded by the companies that buy its services. (Look at the Chunnel, or any modern major toll bridge, for examples.) Of course, that's assuming that stick-in-the-mud American industry is interested, which they may not be. (Our economy goes through phases during which it will throw money any and all innovation, no matter how inane, and during which the very word innovation is considered poison. Look at high-tech from 1999 to 2000 for an example.)
Going East, we get to Africa. Enough said there, I wouldn't invest a significant amount in Africa until it gets more stable.
Africa's a pretty big place, kiddo. Some parts are stable, others are not. That said, the industrialization there in 2000 isn't that convenient for a space industry. That could change, though.
Further East is India and Sri Lanka. India would certainly be a possibility, they have high tech, they speak English.
What kind of incompetent school did you go to, that you believe speaking English is a pre-requisite for mastering high technology? India is not only a land of breathtaking scenery mixed with breathtaking poverty, it is also a land that has made a leap to the cutting edge of high technology. The computer industry is supplied by a steady stream of incredibly smart and motivated people from India, many of which I've been proud to work with.
While Singapore has a harsh dictatorship, it is stable and high tech. Indonesia and the Phillipines have too many trouble.
Singapore's Asian-style strongman semi-democracy isn't what I would call open and free, but I wouldn't call it a dictatorship either.
Basically, I think you have a view of the world that is informed mainly by 30-second sound bites on CNN Headline News. Get out of the house once in a while. Talk to people who look different from you. Read a book or a newspaper. The rest of the world is a little more interesting and capable than you think -- and not all decisions about the future are made in the United States.
Good grief.
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This is interesting, but unlikely. (Score:2)
Given our previous experience with small missions (think Challenger, Galileo, Mars missions...), there is a significant probably of disaster...
There are ways around this; the most obvious being importing lunar regolith for both the elevator and the counterweight. However, even the moon has a small gravitational field, even though it is much less than the Earth's. The net impact is one must still boost billions of tons of mass into place before _any_ useful work can be done with the elevator. You will need some _very_ large scale projects in mind to justify its existence.
To me, it seems much more feasible to use the moon or the asteroids themselves as the launching point for large-scale projects. Almost all of the basic materials are already there. Water and other volatiles can be shipped up from Earth when necessary.
Bob
Re:Where will they put it? (Score:2)
Re:What happens when something flies into it? (Score:2)
Where are they going to get a base tower 50 Km tall? The tallest buildings are the Petronas Towers, both under
The reason we haven't built bigger buildings has a lot more to do with economics and logistics than with technology. For instance, Frank Lloyd Wright proposed a mile-high tower called The Illinois [povray.org] that was never built
And what happens when something flies into this thing? Heck, birds have trouble avoiding wind mills, so I expect this will generate a fair amount of road kill. I certainly wouldn't want to be on my way up when an airplane hits.
Well, one would hope that would never happen. But I'd rather ride on an elevator than a bomb made of rocket fuel. (R.I.P. 51-L)
FYI, Canadians: the committee on tall buildings ruled that Petronas is the tallest building, while CN Tower is the tallest freestanding structure. They're really not comparable.
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There's been some progress (Score:2)
The basic flaw in the idea is that you need the technology to move massive amounts of stuff into space to build a tether, and if you have that technology, you don't need a tether.
Re:What happens when something flies into it? (Score:2)
Great! (Score:2)
That's a pretty long time to be stuck in an elevator with tourists.
(Fountains of Paradise was a great book, BTW.)
The Divine Creatrix in a Mortal Shell that stays Crunchy in Milk
Where will they put it? (Score:4)
Looking at the equatorial slice, you have Central and the northern part of South America. That's close to the US, but the only country in that area that sounds somewhat reasaonable is Venezuela. I think they're stable, and at least somewhat technically clueful. A shame there aren't more, as close to the US is a major plus, since American will probablly pay for most of it.
Going East, we get to Africa. Enough said there, I wouldn't invest a significant amount in Africa until it gets more stable.
Further East is India and Sri Lanka. India would certainly be a possibility, they have high tech, they speak English.
Still further East is Singapore, Indonesia and the Phillipines. Shades of the Cryptonimicon. While Singapore has a harsh dictatorship, it is stable and high tech. Indonesia and the Phillipines have too many trouble.
Counting the votes, it looks like Singapore is it, which is a shame since they're so far from the US. Oh well, maybe the Asian tiger will rise again.
WTF (Score:2)
Is it just me or does this sentence make absolutely no sense?
Cost estimate needs refinement (Score:3)
Thanks
Bruce
yeah but (Score:2)
Re:Where will they put it? (Score:4)
Structural integrity.. (Score:3)
have been discussing the ideas for years..
Is it really possible? I mean 33km of material is going to weight a lot unless it's made out of feathers or intestine.. and I'm sure those materials have weight as well, and aren't that structurally sound..
This was talked about a bit in Arthur C. Clarke's book, space oddyssey 3001
What I really want to know.. is has MUZAK International already started planning on how they're going to insert their horrible string versions of american pie into the space elevator?
Cost of transit to orbit (Score:2)
I can see an argument that the elevator might need less control/support architecture than the Shuttle, but presumably once you're up in orbit you'll need to move off the tether and remain alive for a few hours, so that equipment still needs to be hauled up. (I suppose we could also be assembling all our orbital vehicles up there, so that you just take the elevator up to a space station and hop into an orbiter which never had to be brought up from Earth, but that's a long way off...)
Re:Where will they put it? (Score:2)
To get these you need to look for a relatively stable mountain range on the lee side of the prevailing winds. The only mountains near enough the equator are in Kenya with Mt. Kilamanjaro and the Andes on the side away from the Pacific. Since the African rift valley probably isn't stable enough, it looks like Peru/Brazil will be the likely winner.
Re:Do anchor it (Score:2)
As for balance, it should be doable to counterbalance all weight transfers -- all you need is to deploy / reel in a weight spaceward.
More fun is angular momentum. Recall that the top of the tower up in geostationary orbit is moving a lot faster sideways than the bottom. So while the steady state would have the bottom of the tower hanging straight down, regular use will have it curving East, probably quite sharply.
Re:This is complete nonsense (Score:2)
"Diamond fiber" is a nice science fiction device. Maybe there will be such a material, maybe not, but it's largely irrelevant. You need something with an insanely high tensile strength, or a cable which tapers a lot more. Basically, at any point along the cable it needs to be wide enough to support the material below it. Higher points carry more weight, so must be thicker. As mentioned, you could build it from steel, if the taper weren't prohibitively high.
That said, most of what we've accomplished today probably looked fairly ridiculous from a 1950s vantage point. As technological advance continues to accelerate, predicting the world 50 years from now becomes that much more error prone. We landed on the moon 30 years ago, and I would have thought in the intervening 30 we'd at least make it to Mars. Technologically we can, we just lost interest along the way.
Re:emergency handling (Score:2)
Are you being Served? (Score:4)
Strong data typing is for those with weak minds.
Re:My thoughts... (Score:2)
Far from going on, the list barely even begins. Almost anything "considered" impossible has NEVER been considered "impossible" by humanity as a whole, merely by the people with the most books.
Was it "impossible" to sail round the world, in Columbus' time? No! Columbus obtained maps showing a round world, and explorers' reports from those who had ventured futher than any "official" land. He also had the Greek's calculation showing the circumference of the Earth, and numerous other pieces of information, collected from around Europe and the Mediterranian.
The "fact" that popular myth =LATER= made him a dashing hero, who was the first to imagine a round world, is laughable. Furthermore, it's an insult to Columbus' intelligence, his detective skills and his competency as a sea navigator.
After the fact myths always reduce how much "the poor leetle primitives" knew. The fact is, they weren't stupid, and weren't that primitive. IMHO, the primitives are modern folk who feel that the only way to feel pride is to put their dead ancestors (who can't talk back, or kick up a fuss) as far down the ladder as possible.
Superiority by Imposed Inferiority is nausiating and needless. And WELL beyond where any Slashdot reader needs be.
Re:Brazil has a space industry already. (Score:2)
What does being Hindu have to do with what language you speak? Last time I checked, Protestants don't all speak English, Eastern Orthodox Christians don't all speak Greek, Muslims don't all speak arabic. Maybe you meant Indian programmer. But the problem with that is India has 18 official languages and no one language is spoken by the majority.
Oi (Score:3)
I hate elevators, and I hate heights. This is stressing me out just thinking about it.
Misfit
Re:Yeah Right.. (Score:2)
>>Everyone keeps trying to do these space stations that keep failing and falling apart.
>Uh, exactly HOW MANY space station has there been? I count one.
Actually, there have been several Soviet-Russian stations [friends-partners.org] over the years, of which Mir is merely the latest.
The International Space Station is not yet commissioned
Commissioned? It isn't permanently occupied yet, but it's certainly operational.
so the only example I can think of is Mir. To ask why it's falling apart, you only have to look at the government that's running it. One example does not make a trend.
More pointedly, Mir is well beyond its planned operational lifetime. When ISS is 10 or 15 years old, it too will start to have "issues". You simply can't bring a module back to earth for service -- so if something breaks, well, it breaks in orbit. What else would you expect?
Nevertheless, Mir-Shuttle (otherwise known as ISS Phase I) was a valuable learning experience, and ISS will not run anywhere near the energy starvation levels of Mir, and NASA has plans to give ISS much more redundancy in propulsion and control as it grows.
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Tick of Toronto (Score:2)
Man is Toronto going to be ticked.
They are very fond of their tower. See CN Tower [toronto.com]
Not in 50 years. (Score:2)
Re:My thoughts... (Score:2)
Links of interest on FAS
Some stuff on Russia's programs [dn.net]
Some general stuff on all sides [dn.net]
Sounds like SpacePorn(tm)! (Score:5)
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Linux MAPI Server!
http://www.openone.com/software/MailOne/
Re:Timmmberrrrrr! (Score:2)
Another distinction is the area affected. A dam burst, even one of Hoover's size, would be confined to a relatively small area. A falling beanstalk could potentially hit the entire equatorial region, encompassing hundreds of thousands of square miles and many political jurisdictions.
It seems to be getting harder and harder to erect the large-scale engineering projects, either because of their perceived danger or just the NIMBY syndrome. New dams are fought tooth-and-nail, and you'd probably have more success building a nerve-gas plant than a reactor for nuclear power. A beanstalk would bring together all of these oposition forces.
Elevator Disasters (Score:3)
Re:50 KM tower (Score:2)
Re:Where will they put it? (Score:2)
..But Can They Patent This Idea? (Score:3)
Isn't there a law prohibiting patents of ideas already invented?
-skurk
Re:Where will they put it? (Score:2)
That is true. But consider this: I think it is a reasonable hypothesis that the condition of those regions in 50 years would be considerably better *with* the elevator than without it.
Read Kim Stanley Robinson's Mars books (Score:2)
Re:My thoughts... (Score:2)
a. Matter is composed of atoms
and
b. Those atoms are composed of charged particles?
From what I remember of Meso. history, it seems a bit beyond the technology of the time. Please enlighten me, I'm very interested to hear this.
Space Elevator Design (Score:5)
1) A ground to synchronous orbit (35,000 km high) elevator is often discussed, but such a design is neither necessary nor economic.
A segmented elevator cable in earth orbit plus
orbit mechanics allows you to get around with only 1/7 of the height in actual cable segments. You coast between cable segments.
A tower from the ground several tens of km tall
saves you most of the losses that a rocket like
the shuttle sees from trajectory inefficiency and atmospheric drag. You simply launch from the top of the tower.
2) A real space elevator design will have multiple redundant cables because natural meteoroids and manmade orbital debris will occasionally run into the cable sections. The cables will be cross-connected so that the loads will be routed around any break (kind of like packet routing for the internet). You will have robot 'spiders' that will carry replacment spools of cables and be able to replace broken sections. This maintenance is like painting bridges continuously to keep them from rusting.
3) Existing high strength carbon fiber (1 million psi strength) is sufficient for economically rational space elevators. Carbon nanotubes are
strong enough for a 35,000 km space elevator,
but they would also make possible ultra-light rockets that would eliminate the cost justification for such a large elevator.
Daniel
Re:Think about it (Score:2)
However, there's a problem I don't know if anyone has thought of. Geostationary orbit is one tenth of the way to the moon. Tides could be a problem.
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easier answer: rail gun, orbiting elevators (Score:2)
Push off the earth: that would be a rail gun. The only problem is, if you're accelerating sattelites up the side of a mountain to supersonic speeds, it gets pretty loud. Local people (not to mention birds and animals) complain. The noise is the primary reason that ideas for a Hawaiian orbital railgun don't fly very far. The problem isn't technical, it's social, and so it's much harder. Tyranny is the only easy answer, because there are plenty of people who wouldn't tolerate incessant sonic booms for any amount of money or government carrots, and that's their right.
The other half of the answer is space elevator(s) in space. Huge cables are much easier to build when they don't have to deal with the atmosphere or be geosynchronous overall. You grab the bottom, run up to the top, and let go. Wait a minute, you say; now the cable itself is your reaction mass, so why doesn't the cable's orbit decay? Because you're pushing against the earth's magnetic field with currents through your cable.
Uh oh... (Score:5)
Disperse Life Now (Score:2)
People keep thinking there has to be some international mega engineering project before we can disperse life. There doesn't, and relying on such a project will guarantee failure for the same reason that political leaders have increasingly drawn population from the countryside into the cities:
Central authorities want control because that's what it takes to become a central authority and dispersion means loss of control.
Read the above sentence over and over until you either get bored or you finally understand why central authorities are not your friends.
Positive sum games like the Internet happen despite central authorities, not because of them.
Re:Elevator Disasters (Score:2)
Re:My thoughts... (Score:3)
Give me some facts. Research it. Show the material. Do some tests. Put up some data. None of this assumption crap. The Scientific Method is what defines science and helps us describe our environment. I see no evidence of that here. Just a bunch of assumptions and "cool shit". What I'd love to know the most is: How the hell do they go about constructing this? Obviously from the top down. How many rockets does it take to put this amount of crap in space? How the hell do they expect to get an asteroid... thats a big deal... How do they expect to build it? People, machines? etc. etc. etc.
Well, as mentioned in another post there is a carbon molecule with higher tensile strength than diamond that is in development that can serve this purpose without snapping or shattering. Once that is complete the rest is just details. To me the hard part will be joining the cable segments since your joint compound is going to certainly be weaker than the cable itself. And they definately aren't going to create a 144,000KM cable in once piece on earth and then stand it up.
Kintanon
Re:Brazil has a space industry already. (Score:2)
What kind of incompetent school did you go to, that you believe speaking English is a pre-requisite for mastering high technology?
Actually, I'd say that as of today, speaking English is a pre-requisite for communicating with people in the area of high technology.
For example, let's say we have a Mexican engineer (for instance, me), a Russian mathemathical expert, a Hindu computer programmer and a Japanese nano-technology expert. Add in a couple of European team members, and you definitely have to have a common language. English, right now, is such language. Maybe in 50 years it'll be japanese or french or tagalog, who knows?
The point is, it's not a matter of nationalistic pride or anglo-centrism (if there is such a word). It's a matter of convenience.
My thoughts... (Score:2)
contradictory articles on carbon nanotubules (Score:2)
The space elevator article said that the carbon nanotubules may have a strength as high as 200 giga pascals. However, this article says
"Ironically, the same weak linkages that make carbon nanotubes superior for heat conductance could deflate scientists' earlier expectation that bun-dles of them would provide unrivaled mechanical strength."
Umm...I think that the scientists from the second article better call the scientists in the first article.
Did anyone else notice this?
And on a longer timescale... (Score:5)
Kim Stanley Robinson (Score:2)
No idea about the patents... but, had you read the article, you'd have seen that the idea goes back much farther than that Donald Duck story...
For better insight into the matter of space elevators, you might want to read the mars trilogy by Kim Stanley Robinson, on how such a thing would be built, an on what the consequences of its downfall would be. Of course there's ACC's books, the Night's Dawn trilogy by Peter F. Hamilton etc. which use the theme.
Re:50 years, eh? (Score:2)
Re:Where will they put it? (Score:2)
It's fifty years out though, there's no guarantees that any presently stable government will still be stable nor any presently unstable government won't be the model of stability.
I'd shoot myself after 3 hours of elevator music.. (Score:2)
Re:yeah but (Score:2)
Warning! (Score:2)
Please Use the Stairs.
Thank You.
The Management.
The Equator... (Score:4)
Are the close enough? I don't know enough physics, but the article makes it sound like if you get too far away problems arise - both with the orbit and with atmospheric events like cyclones, etc. Both India and the Phillipines are known to have cyclones and typhoons.
You also miss some important countries. Most importantly, Brazil (equatorial rain forest, anyone?)
Brazil is known as "the perpetual country of the future". Today, the future looks closer than ever for Brazil. Brazil's democracy is solidifying to the point where today one of Brazil's foreign policy goals is furthering the cause of democracy in other S. American countries (Peru is a current target). While the financial system is still modernizing (witness the 1999 currency devaluation), Brazil is on it's way to becoming a low-inflation, high-growth economy.
While Brazil is still decidedly "low-tech", it is modernizing quickly, in part to due it's large population, in part due to it's realative wealth compared to other third world nations.
Also: as others point out, by the time it becomes feasible to build the elevator, Indonesia and parts of Africa may become much more stable, which may make them more attractive choices (especially Indonesia - after a few years of solid democracy, all the things I said about Brazil may be valid for Indonesia). Moreover Singapore has a downside... is there enough space to build an elevator there?
Re:Hurray, the end of the US-Soviet space monopoly (Score:2)
Why so tall? (Score:2)
Re:Where will they put it? (Score:2)
<P>
Surely you are not THAT blind of what's going on in Africa. The AIDS crisis there isn't even warmed up and it's causing havok with, well, everything. And unless someone comes up with a free cure for AIDS, things are looking bad for them.
<P>
Real bad.
Another quote (Score:2)
- "You ever ride that thing?"
Which is probably how half of the population would feel about riding something like this."No."
"I did. I swear, I think my ass sucked up 6 inches of seat foam."
Even better structures... (Score:2)
Re:yeah but (Score:2)
I forgot to mention that I would line the drilled hole with carbon nanotubes and have big fans either end.. ;P
Re:My thoughts... (Score:5)
2: Its not Impossible With the stopping voltage, and some power taps into the upper atmospheres plasma, you could effectively control the location of the cable. Additionally, you coulduse this to help control tension and compression in the cable. Flexibility isnt too big a problem, most things are pretty flexible when theyre 144000km long. Think of it this way, take a foot long peice of structural steel and try to bend it, doesnt work too well. Take that same peice of steel and make it 110 stories tall, and see how much it bends in a high wind or an earthquake.
3: Would you like to back this claim up with some actual facts?
4:If this is true, then why didnt the soviets shoot down our spy satellites? Why dont the iraquis? why dont we shoot down the russians?clearly we have the capability.National territory only goes up so far, something like 160 km, since there will be a tower 50km of that way, there isnt too much room for movement, and even then, why would you want to do it?
50 KM tower (Score:2)
At 50Km you are basicaly free of the atmosphere and the enrgy need to rasie the spacecraft out of the atmposphere and accelerate it to whatever speed it gets too after 50km comes from the ground, drasticaly reducing the weight of the ship. (The Shuttle weighs less than 1/2 what it did at launch a mere 2min after lift off and is no where close to 50km up)
Such as system would drasticaly reduce the cost per pound to orbit.
Re:Obligatory Transformers Reference (Score:2)
Shorter elevator (Score:2)
It gives the facts and figures on an 860 mile long elevator as opposed to the accepted idea of a much longer elevator.
Interesting.
The one engineering problem I forsee is the ground platform which would have to be a minimum of 50Km tall to adequately serve the elevator. This is a huge obstacle to overcome. The current tallest buildings are a little over .5 KM IIRC. This presents a major construction problem that no one has found a solution to yet.
Any idea's? ;-)
Re:Cost of transit to orbit (Score:3)
The point that you are missing is energy effeciency of the device used to get up to space. While the "absolute minimum" energy requried is a hard limit. The maximum energy used is not. Also, using rockets, you have to carry your launch fuel with you, which is heavy and spendy. Using a space elevator you only need to carry fuel that you need to manuever once you are in space. That is why a space elevator would be so much cheaper.
LetterRip
Tom M.
TomM@pentstar.com