Space Elevator Rebuttal From LiftPort Founder

TropicalCoder is the reader who submitted the story about the possible demise of LiftPort a couple of weeks back. The resulting discussion was mostly negative about the feasibility of building a space elevator. TropicalCoder writes: "At one point during the discussion, LiftPort founder Michael J. Laine personally entered the discussion, but for the most part remained invisible since he hadn't logged in. I responded to his comment that if he would like a chance to rebut the criticisms, he should contact me and I would undertake to interview him and post the resulting story on Slashdot." Read below for the story of how Mr. Laine's detailed reply and rebuttal to that Slashdot discussion came about. TropicalCoder asks, "After reading LiftPort's rebuttal to Slashdot critics, do any of you now feel your pessimism somewhat dispelled?"
Michael Laine called me long distance via cell phone that very day from his back yard near Seattle, and spoke with me for over an hour. Michael came across as a rather sober, likable fellow, not at all like the crackpot image one would conjure up from reading many of the Slashdot comments. He was clearly wounded by the stinging criticisms in the Slashdot discussion, and I couldn't help empathizing with him. Here was man who had put his money where his mouth was, risking everything on his dream, perhaps suffering his darkest hour, and enduring ridicule on top of that.

At no point during the conversation did I get any impression of a huckster who would sell you the Brooklyn Bridge, something that I was on the lookout for. It was clear to me that he sincerely believes in what he is doing. Whether he succeeds in the end or not, I would prefer to call him a "visionary." After all, for every great visionary you can recall from history, there must have been a thousand others who tried and failed, but are no less visionary because of that. The jury is still out on LiftPort, and rumors of their death would be premature. They continue their research, and as I write are preparing for the "Tethered Towers" demo on Thursday June 28.

At the end of the conversation it was agreed that I would summarize the Slashdot discussion for him and offer him an opportunity for point-by-point rebuttal. I completed this summary (in which many Slashdot readers will recognize their own words), and sent it off to him the next day. He acknowledged receipt and promised an answer shortly. A few weeks passed, and I imagined that he must have decided in the end that the criticisms were so severe, perhaps it would be best just to try to forget it. It was a total surprise to me when a thoroughly detailed response arrived in my mailbox today, demonstrating that the people at LiftPort at least are still convinced that building a space elevator is possible.

Space elevator themes have been celebrated in science fiction and many Slashdot readers have shared the dream, only to become disillusioned with the apparent pending demise of LiftPort. After reading LiftPort's rebuttal to Slashdot critics, do any of you now feel your pessimism somewhat dispelled?"

Good Writeup!

[kspn78]

I really enjoyed the writeup and the interview. I thought that it covered the points in a very concise fashion while also outlining all the points that had been raised in aa very negative manner. I look forward to following this project and its future directions.

Re:Good Writeup!

[Doc+Daneeka]

He may have covered the easy topics, but he failed to even skim the surface on the structural integrity questions that will come up.

Materials exist today that are strong enough and light enough to support the weight of the lifter and itself. If that is so, can the structure sustain the drag forces of the jet stream? What about the linear and volumetric expansion coefficients? Over a structure this large, are you absolutely certain the large differences in temperatures will not cause the structural integrity to degrade rapidly or pose a significant risk due to changes in enthalpy over large periods of time? Have you taken into account the part of the structure in space that will absorb solar radiation unlike another cross section a small distance lower that would not absorb as much radiation? Do you have plans on how to dissipate the built up energy due to lightning strikes? Will that current go to ground first or will it jump to the cargo and/or electrical systems? Those are just a few of the questions that came to mind. They may have already been answered elsewhere but I did not find them in his rebuttal or a quick search of the web. Feel free to answer these if you can.

Re:Good Writeup!

[Doc+Daneeka]

I'm sorry but there is barely any in-depth material in the article or anything that can be viewed as actual information on their website. The information I'm taking about isn't the mission statements or the generic drivel that every company shells out, it's the information that can be used to actually generate some of the forces a structure like this will undergo.

The two I know are: the jet stream - they plan to build toward the equator, out of reach of all three jets and the lightening - the ground station isn't going to be on the ground, the plan is to create a sea-going station, plus in some areas thunderstorms are nearly non-existent. I know that that wasn't a complete answer on the lightening, but I'm just going on what I remember. Alright, maybe I didn't elaborate. The structure will undergo tremendous stress due to the combined, and variable, drag forces over the entire structure. It doesn't take thunderstorms to build up electrical charge. Take a piece of metal and move it through an electric field, such as one generated by the earth, and you will build up charge. Which order of magnitude of a path is easier to take: 10^8 m of carbon nano-tubing or 10^0 m of air? While these questions may seem laughable, the engineers working on this project need to literally take everything into account while in the design process. To expect anything less is to invite disaster to the project. I have other questions I'd like to have answered but I'll just leave it at these before I start "reaching" a bit.

Re:Good Writeup!

[bodan]

Yeah, right, good thinking. If I'd build a one hundred thousand kilometers long ribbon of the strongest materials known to man and place it in geostationary orbit, I'd damn right make sure it's safely attached to the ground.

I mean, a boat could... rock around? drift away? you're afraid the space elevator would sink? get lost? got wet? Think, people!

Re:Good Writeup!

[PhoenixOr]

The floating platform in on purpose. If you attach it to the ground you end up with a nice spring that is going to build up all sort of strong oscillations.

WHy Yes

[inKubus]

do any of you now feel your pessimism somewhat dispelled

Why yes, I do believe my spirit has elevated. My feelings on the matter have definitely been lifted.

Ok, here's my comment

[QuantumG]

Me: The Space Elevator is a glorious technology that may one day be built by an advanced human civilization, and when it is, it will be a modern world wonder.. but that day is not today.. it's probably not even in the next 30 years.

LiftPort: We disagree. So far as our official road map is concerned, we are on schedule - and in fact, we are even a little ahead of schedule on some projects.


Ok, that's great, but you're the ones making this amazing claim that you could build a space elevator today if only you had the money. Amazing claims require amazing proof. Your official road map doesn't exactly cut it.

Re:Ok, here's my comment

[AoT]

You missed the point. They don't need a space elevator for their business plan to succeed, just the technologies that they are/will developing. That tech moves us closer to an SE, and it is profit generating in the short term.

Re:Ok, here's my comment

[BiggerIsBetter]

More accurately, it's like asking Intel to release their trade-secret research on building 10 GHz chips, because you don't believe they're possible.

Look, the guy said they could do it with existing technology, given the funds for 100s of heavy lift rockets (Delta-V maybe?) and A LOT of Honeywell Spectra fibre. Think for a second how much 100s of heavy lift rockets would cost, even if they could have that many made within a production timespan - that's crazy money for most anyone. But if a group of BIG companies got together (Japanese style) I reckon it's almost feasible.

OTOH, and relating back to our Mars story, IF this cat can show big investors a serious engineering proposal for a project with existing technology, we just got our first "train station".

Re:Ok, here's my comment

[vrmlguy]

Most claims made about space elevators can be seen at the Wikipedia article, which includes detailed info about building one from steel and why it is impractical (but not impossible). I'll conceed that it's barely possible that the entire article is a plant by LiftPort, however there are a lot of links to other companies that are doing independent research. Of particular interest is Gizmonic Inc., who seem to have adopted space elevators as a corporate hobby, doing lots of spare time R&D and provided lots of calculators so you can check the math yourself. Hans Morovec wrote a research paper in 1978 investigating the feasibility of using Kelvar. Not related to your question but also interesting, Tethers Unlimited, Inc., aren't working on space elevators but are working on lots of related technology.

Re:Ok, here's my comment

[cyclomedia]

OK, OK, I know this IS slashdot but still, here goes my karma:

What DID this guy DO to you and all the other moaning slashdotters? Yeah probably like me you grew up post-Apollo and parte-Shuttle and wanted to be an astronaut when you were a kid, so I guess you're a little bitter that the whole spage-age thing hasn't really happened. But hey, why is it all directed at these guys? Did they sneak into your room when you were a kid and molest you, promising that if you kept it a secret from mommy and daddy that you'd get the first ride into space on their space elevator?

Are they making outlandish, unfounded claims with the sole intention of scraping money from willing idiots? Possibly, I don't know for sure, but I'd love to see a space elevator go up, and the technological and exploratory benefits to mankind that followed. So let's give these guys a chance, even if all they're doing is collecting ideas, theories and munging it together with some nice 3d graphics the more people take notice and take the idea seriously the better. But so what if they don't shit one out of their assholes tomorrow morning just for you personally to ride on, give it a rest.

Critique, debate and peer review on any matter are always warranted but shooting insults and slander from the hip because, well, presumably you expected a LiftPort TM by 2005 and free trips to space or something is frankly unwarranted, childish and should be moderated into oblivion.

Re:Ok, here's my comment

[Smidge204]

He specifically mentioned Honeywell Spectra Fiber which is billed to be "pound for pound 10 times stronger that steel"

We need to translate that statement first. They don't mention what KIND of steel. Steel can have a tensile strength of 0.3 GPa to 1.88 GPa depending on type. That gives SF2K a tensile strength between 3.0 GPa to 18.8 GPa. (Wikipedia apparently agrees with this assessment...)

Using Wikipedia as firther source, "A space elevator can be made relatively economically feasible if a cable with a density similar to graphite and a tensile strength of ~65-120 GPa can be mass-produced at a reasonable price." Graphite has a density of 140 lbs/cu.ft, so this imaginary material needs a minimum strength/density ratio of 65/140 = 0.46.

SF2K has a specific gravity of 0.097, which translates to 97 kg per cubic meter (6.055 lbs/cu.ft.) That puts the strength/density ratio at 0.50 to 3.13 - Higher than our theoretical required material, so it should be strong enough.

SF2K also has "High resistance to chemicals, water, and UV light" and "good resistance to abrasion and flex fatigue." These are all desirable qualities.

He mentioned the ribbon would likely be "15 feet wide and less than the thickness of a human hair". Average human hair is about 4 mil (0.004 inches or 0.00033 feet). That's a theoretical cross-sectional area of 0.00495 feet. At that thickness, one pound of material will stretch just over 200 feet. They need about 62,000 miles (327,360,000 ft)of the stuff, so that's only about 820 tons. 820 really isn't THAT much in the grand scheme of things... imagine 28 standard shipping containers, that'll hold 820 tons of cargo.

So as far as the cable itself goes - yeah, that's "doable" right now if you've got the cash.
=Smidge=

Re:Ok, here's my comment

[Rei]

Spectra is a mere 3.5G GPa UTS and *950* kg per cubic meter. You converted g/cm to kg/m^3 wrong. It's not even within an order of magnitude of what is needed. Furthermore, you represented SWNTs wrong. They're SWNTs, not graphite; it's a completely different form that just happens to use the same SP2 bonding structure. Their density is about 1300 kg/m^3.

Furthermore, while it's possible to build a space elevator with a nanotube cable that's only 65 GPa tensile, it's not realistic. It's also possible to build a space elevator out of kevlar. Your taper factor is just preposterous. LiftPort's numbers call for a SWNT fiber with strength 100-120 GPa, yet a total system cost in the tens of billions. You really can't get much lower of a strength and still have a remotely feasible business plan.

Now, the sad truth that Laine refused to address. Early after the discovery of SWNTs, there were all sorts of wild numbers for their strength produced, most around 120 GPa. That's not the reality of the situation. Modern calculations are only for 50-60 GPa, and that matches well what has been tested by using microscopic probes to break nanotubes. But it gets worse! The tubes cluster into ropes by pi bonding and vdw, and these aren't some sort of "reverse-wrap" ropes. Their strengths are only 3.6 += 0.4 GPa. Now, this can probably be improved, but it's obviously never going to surpass, and probably never even approach, the strength of the individual tubes. However, even ropes aren't the end of the story -- then you have to produce an *affordable fabric of an indefinite length* out of them, which puts yet another strength bottleneck into play.

Come on, Laine -- why didn't you address this? It's not like it hasn't been raised.

I think Liftport's development process can best be summed up as:

"In other news, my Teleporation Shoes are performing extremely well in tests. The shoelaces have survived twelve straight tying tests, including one "bunny ears" test conducted by a young child. Sole durability tests are also holding up well. Teleporation will be tested at some time in the future."

Re:Ok, here's my comment

[Rei]

It's *possible* for a spectra elevator to exist, but that doesn't mean anything. Plugging Spectra's strength and density (3.5e9 N/m^2 and 950 kg/m^3) into Spelsim, using a payload mass of two tonnes and a safety factor of only 2, we get an elevator mass of 9.8745e17 kg. That's 987,450,000,000,000,000 kg: just about a quadrillion metric tonnes. By comparison, Mars's largest moon (Phobos) is about 1/10th that mass. I've seen the mass of Mount Everest cited as about 1e14kg (1/10000th the mass), all living organisms at 1e15kg (1/1000th the mass), the water in the atmosphere and the total biomass aboveground at 1e16kg (1/100th the mass), all of the surface freshwater at 1e17 kg (1/10th the mass), and the entire stratosphere at 1e18kg (same mass)

Think you can launch that?

Re:Ok, here's my comment

[elrous0]

This reminds me of that "Well, they're not really hurting anyone--just giving them a little false hope. What's wrong with that?" argument that "psychics" use to justify bilking old ladies out of their money by letting them talk with their dearly departed relatives.

False hope, lies, and scientific hogwash ARE dangerous. It's the same crap that gave us Eugenics, and had the CIA wasting millions of $ on psychics, and has Bible-thumpers running around claiming that the earth is only a few thousand years old.

In other words, bullshit doesn't just smell--it can also waste money, lead people to irrational behavior, and divert resources best focused elsewhere.

But what next?

[pchan-]

I'm working on a space escalator. Sure, it's not as fast getting up there, but you don't have to wait for the car to come back down from orbit when you press the up button. To get down quickly, there's also a space firehouse pole.

In all seriousness, though, I wish the LiftPort guys luck. I'm not sure how feasible it is, but I'd rather have people investing in creative, sometimes radical technologies than just sitting back and saying "no, that'll never work".

Re:But what next?

[deetsay]

I'm working on a space escalator. Sure, it's not as fast getting up there, but you don't have to wait for the car to come back down from orbit when you press the up button. To get down quickly, there's also a space firehouse pole.

There's a lady who's sure all that glitters is gold, and she's buying a stairway to heaven.

Re:But what next?

[pchan-]

I'm not quite sure what the point would be to take the elevator all the way to the centrifugal counterweight at the far end of the cable. I will be taking the lift to the tension's midpoint, where I'd be weightless and it would require almost no energy to place things in orbit. But to each his own, I guess.

Objection: Asked and Answered

[QuantumG]

If it weren't for the costs, we could build one this year. Materials exist today that are strong enough and light enough to support the weight of the lifter and itself. The problem is the number of rocket launches it would take to get the construction started. You could build it out of Spectra but you would need hundreds of heavy lift rockets just to get started. The cost of launch for those rockets would make the project not financially viable. In fact, you could make the elevator out of other materials that each have their own set of difficulties. So, in short, your premise is incorrect. Certainly, the design would be different, and there would be other challenges that are not managed in the current design, but lets be perfectly clear - there is a big difference between ''difficult'' and ''impossible''. An elevator to space is only difficult. Right now, we still don't know enough, which is why we have spent so much on research. I don't AGREE with this claim.. I've seen no study which shows this to be the case, and all the other problems other than the material to use are not solved.. but he has already addressed the objection that you NEED carbon nanotubes.

Re:Objection: Asked and Answered

[Jack9]

There's no reason to disagree with his claim. Heck, I could build a space elevator today with enough money. There is no claim that it would function or be useable or even deployable. I agree a worthless space elevator could be build for obscene amounts of money. I'm afraid this is more than a pipe dream, but a grand delusion. Put the money and R&D into personal jetpacks for God's sake.

Re:Objection: Asked and Answered

[bodan]

I don't AGREE with this claim.. I've seen no study which shows this to be the case, and all the other problems other than the material to use are not solved.. but he has already addressed the objection that you NEED carbon nanotubes.

That's because you didn't read enough. Most contemporary studies only deal with economically-feasible designs, which is why they only mention very-high-strength materials. This is because using lower-strength materials requires hugely more material, which is simply very hard to send up to orbit.

I have seen calculations for a steel elevator. Yes, it's physically possible with a very tappered design, but it would have a diameter of several hundred kilometers at the thickest part. (Given that its several hundred thousand kilometers long, that's rather thin if you think about it.) However it would need the entire Earth's steel production for a few thousand years, probably, and even longer for rocket fuel to get things started.

However, steel isn't a very good choice because of weight (and it's not that strong, either). The optimal diameter at the thickest point is an exponential of density/tensile strength (with a pretty big constant). This means that even small (relatively) advances in that component will greatly decrease the cost, and we have materials much, much better than steel in that respect.

It's perfectly doable technically, without any major breakthroughs, it's just because of economics that you've never heard of that. With the best technology we have now it is still probably doable within a reasonable multiple of the world's GDP.

We need breakthroughs not to build it, but to build it with less than a country's GDP.

Re:It was doomed to failure

[Puff+of+Logic]

You speak of Federal funding. This US centric view is quite funny. Why is it not possible that one of the newer emerging economies would start to fund such ventures. China is spending more on space these days, as is the EU or even a cartel of corporates. Granted the state of the art in nanotech is still a bit lacking, but recent successes are rather inspiring. The funny thing is that the one impetus that would absolutely, positively guarantee that the US would build a space elevator is if the EU, Russia, or China started work on one. Have no doubt: no-one on the planet will be permitted to build a space-elevator before the US or without US involvement; the federal/military complex in this nation wouldn't permit it.

Re:Why?

[creysoft]

Because even though we can GET to space, all the really interesting stuff you can do up there is infeasible due to the fact that the only way to get anything INTO space at the moment is to strap a rocket to it and pray. Provided it gets there at all, it still costs tens of thousands of dollars per pound to get something up there. And once it's up there, there's no way to get it back down except to drop it.

The gigantic, orbiting space stations we envisioned as children won't be possible until we can get stuff to outer space cheaply and easily. Neither will manned missions to mars.

With a space elevator, all you do is load it up onto a climber and send it up the cable. It'll get there in a few days. Not as fast as a rocket, sure, but a hell of a lot cheaper, easier, and safer.

Increased Pessimism

TropicalCoder asks, "After reading LiftPort's rebuttal to Slashdot critics, do any of you now feel your pessimism somewhat dispelled?"

Not at all. If anything my pessism has increased when I read the spin, handwaving, misdirection, and evasions in Mr Laine's 'rebuttal'.

For example, this little gem:

Q: Business model is predicated on a technology that not only does not exist but you are incapable of inventing.
A: That's true for the president of Boeing too. There's no way he could engineer the likes of the 777 with just the top level executives. He hires the right people to design, test and build these wonders of technology. Rather than waste our investors money on hiring full time engineers that could not succeed within the timeframe allowed by the dollars available, we subcontract. Outsourcing is not a new concept, and it saves companies quite a bit of money and time.

Notice the answer completely unrelated to the question and the 'spin'.

Or this one:

Q: Perhaps should have been managed by a more highly qualified individual, such as a professional engineer with advanced engineering management degrees
Because all engineers make good business administrators? Engineers are (and this is a generalization, I admit) generally too cautious. Innovators are risk takers. Entrepeneurs are risk takers. Engineers want triple redundancy and safety factors. To run a company for 4 years off a $200,000 investment takes talent. Granted, much more was invested by Mr. Laine himself, from his personal income, to keep this business running.

More spin - and the fantastic claim that running a business for $200k for four years implies some kind of 'talent'. Heck, I could run a business for two *centuries* with that kind of investment. (It wouldn't produce a profit - but it would be 'run' and about as effective as LiftPort.)

Q: You'll never see a fully functional space elevator on earth. The requirements are too close to the edge of what is even theoretically possible.
If it weren't for the costs, we could build one this year.

To put it bluntly - this is an outright lie. Period. if it were true - why is LiftPort spending money on R&D rather than production?

Q: Even if the materials science isn't the problem, we have never made 36,000 miles of ANYTHING before.
Roads? Railroads? The SMW3 fiber optic cable is 39,000km long. That's over a third of the 100,000km necessary to build the Elevator to Space (not 36,000 miles).

The SMW3 fiber optic cable isn't a unitary and (for all practical purposes) flawless carbon nanotube fiber. Roads and railroads aren't unitary either. Micheal is either very disingenuous or very clueless.

Q: You need a material approximately 3 times the strength of a (perfect) carbon nanotube in order to be a relatively safe civil/space engineering construction.
That goes back to my statement earlier about engineers. No. You're not going to be able to have triple redundancy, and safety factors. You will have safety margins, and one of our first cargoes would be the second space elevator. We should be able to build that with half the strength of "perfect" SWNTs. We will employ standards of safety. We're sure the international legal community would see to that. About half the team grew up near the Tacoma Narrows Bridge. The failure of this bridge is a standard lesson in how NOT to engineer something for most engineering schools. We understand what is at stake.

I too live near the Tacoma Narrows Bridge - and no, that is not how the bridge collapse is taught in engineering schools. Because in fact, the basic engineering of the bridge was quite sound - they failed however to take into account the effects of the winds. Numerous b

Re:Increased Pessimism

[Atragon]

Q: You'll never see a fully functional space elevator on earth. The requirements are too close to the edge of what is even theoretically possible.
If it weren't for the costs, we could build one this year.

To put it bluntly - this is an outright lie. Period. if it were true - why is LiftPort spending money on R&D rather than production?

Probably because the costs exceed their budget by several orders of magnitude and they are doing RND to reduce these costs and/or improve the end result.

Re:Increased Pessimism

[everphilski]

I too live near the Tacoma Narrows Bridge - and no, that is not how the bridge collapse is taught in engineering schools.

Uh, it was a lesson taught when I went to engineering school. The Tacoma Narrows engineers f*ed up and didn't take all of the variables into account.

Re:Increased Pessimism

[aybiss]

And you are a really nasty person with a complete lack of vision and no understanding of running a company.

That's true for the president of Boeing too. There's no way he could engineer the likes of the 777 with just the top level executives. He hires the right people to design, test and build these wonders of technology. Rather than waste our investors money on hiring full time engineers that could not succeed within the timeframe allowed by the dollars available, we subcontract. Outsourcing is not a new concept, and it saves companies quite a bit of money and time.

Notice the answer completely unrelated to the question and the 'spin'.

That looked like a valid answer to me. Who is this mythical expert who could undertake possibly the most amazing engineering feat in the history of mankind by himself? Actually, are you sure you know what 'spin' means?

Because all engineers make good business administrators? Engineers are (and this is a generalization, I admit) generally too cautious. Innovators are risk takers. Entrepeneurs are risk takers. Engineers want triple redundancy and safety factors. To run a company for 4 years off a $200,000 investment takes talent. Granted, much more was invested by Mr. Laine himself, from his personal income, to keep this business running.

More spin - and the fantastic claim that running a business for $200k for four years implies some kind of 'talent'. Heck, I could run a business for two *centuries* with that kind of investment. (It wouldn't produce a profit - but it would be 'run' and about as effective as LiftPort.)

You really are just an asshole. These people aren't producing a product for you to buy, they are researching something that has never been done before. And how much would you pay yourself per year running for 200 years with 200k? That's before tax, by the way.

If it weren't for the costs, we could build one this year.

To put it bluntly - this is an outright lie. Period. if it were true - why is LiftPort spending money on R&D rather than production?

Because they have 200k and an intent to come up with a cheap(er) way of making the space tether, not infinity dollars and an intent to build a space tether today. Did you bother to read *any* of this in context?

We're going to decline to comment on the personal attacks against our corporate officer, Michael Laine. His past business venture failed. Most entrepreneurs can also claim that dubious distinction on one or more occasions. It is better to have tried and failed than to have not tried at all.

Funny how you fail to mention the fact of your past failures on your webite - in fact, you represent them as sucesses. I suspect much of what he represents as 'personal attacks' are nothing more than inconvient facts like these.

I take it you've never failed at anything before? Did you qualify your post with a list of your past failures? No, and only a child would expect an R&D company to do the same. *Especially* an R&D company. Remember Edison and his light bulb? Should the box have listed all the failed methods he developed?

The problem isn't that Micheal is a crackpot or a huckster - he sincerly believes what he is selling. The problem is that once he gets a Vision, facts need no longer apply - his Vision overrides all.

And you, my friend, have neither facts nor vision but you chose to criticise someone who is working on both.

Consider this: your personal attacks stop this man from even *trying* to build a space tether. In 30-40 years the human race is all but wiped out by global warming. Might the space tether have saved us all? We'll never know because of the moronic bitching of people who don't believe in anything they didn't invent or see in the window at Tandy.

I'm guessing you're the sort of guy who scoffs at the possible advantages of dual-core computing

Re:Why?

[QuantumG]

Look, I don't blame you. There has been little to no public discussion of why space is such an important place to go. Let me try to explain just a little here for you now. For starters, we have an increasing population on Earth. Traditionally, this hasn't been much of a problem because the majority of the population has been too poor to pose any real threat to using up all the resources on Earth. There's a finite amount of coal, oil, and precious metals on this planet, not to mention land you can use for growing food. As they say, they're not making any more of it. So, what to do?

Well, there's some people who think we should force people to stop breeding. Put a limit on how many children you can have so that the birth rate is less than the death rate. Stop treating the sick and old. Stop giving aid to third world countries. Just let em all die so that the population of Earth gets down to a nice manageable level. These people rally under the banner of "Limits To Growth".

Then there's the space advocates. Of which I am one. We believe that the best solution to there not being enough resources on Earth for everyone is to go get resources off Earth. There's thousands of Near Earth Asteroids which contain hundreds of times more metal than the entire crust of the Earth is believed to hold. There are only thousands of them because the Earth has this giant deflector that thankfully stops them from falling on us (although every 60 million years or so we get a big one that nearly wipes out all life on the planet, the last one was about 65 million years ago). This giant deflector is called The Moon and it has millions of craters on it, most of which were caused by these big metal asteroids.. the metal is still up there.

Getting to the Near Earth Asteroids is considered easier than getting to the Moon, but the Moon obviously has a lot more resources on it and, hey, we've done it a dozen times already. The cost of expanding our civilization into space is great. I don't argue that. But the cost of not expanding our civilization into space may well be much much greater. We're eating up this planet, and we don't (yet) have another one.

I don't think Liftport will work and here's why...

[i_b_don]

It has nothing to do with the technical hurdles with are significant to begin with it has everything to do with the owner's Michael J. Laine's personality. First off, I'm a design engineer by profession and I've led up a fair number of projects, however going 100% off of my interpersonal skills I don't think Mr Laine will succeed.

There are several things that a good entrepreneur needs in order to be successful on a project like this. The first of is he/she needs to be charismatic in person and in presenting the idea to other people. I mean, incredibly and unbelievably charismatic, so that only the most hard core doubters would walk away from a talk with him thinking "it can't be done". Frankly I didn't get that from Mr Laine. To me at least he came off as combative he didn't show me the "spark" that I would expect to see from a Steve Jobs or other figure who can really energize investors and employees.

Failing that, then they will need some hard core technical skills to work with the team of engineers who will eventually make the technical leaps required to do something revolutionary. This I certainly don't get from Mr Laine. His attitude of "I'll contract out innovation" doesn't strike me as someone who will make a small miracle happen in his woefully underfunded project.

And that's it. I don't even have to get into the technical issues in any depth and I'm already convinced that I should invest my money elsewhere. Sorry Mr. Laine, I bear no malice against you as a person, but you had your 5 min presentation and I came away unconvinced.

d

Painful Read

[hardburn]

Reading the Slashdotters' comments was really painful. Do people around here lack vision and research skills?

Carbon nanotubes are a miracle material. Not just for space elevators, but also for strengthening building/vehicle frames and nanotech. Any research on mass production of high-quality carbon nanotubes will have plenty of spill-over effect.

Unrolling the initial fabric from orbit down to the surface without snagging is a challenge, but hardly an impossible one.

Tesla was playing with remote power transmission a century ago. There's still work to be done, but all the major breakthroughs are in place.

Speed to orbit? Why do you need to go fast? People used to take months to cross the Atlantic, and the treasures offered by cheep space travel are massive compared to the treasures of the New World. Or just send up cargo on the elevator and send people on a rocket (expensive and dangerous in comparison, but quick).

In short, this wasn't Slashdot's finest moment.

right about some things, wrong about others

[Goldsmith]

Let me preface this by saying I work with carbon nanotubes (as an "innovator," not an engineer).

Where these guys are right on is that building a CNT factory would generate the kind of money they need to get going, especially if they can reliably grow high quality tubes. They are absolutely right that spin off technologies could more than make up for their current investments. But, as they recently found out, nanotubes are very hard to grow in large amounts, and they grow very slowly... hence the current high cost.

That leads to where they went wrong: They had "contractors" working on nanotube growth. It's not easy to grow CNTs, and it's not well understood. It's very difficult to reproduce published work on CNT growth unless you really, really know what you're doing. They need to form partnerships with the people working with nanotubes who are on the cutting edge of growth research. While they've tried and failed to build a factory, Iijima's group has made major breakthroughs in growing nanotubes in bulk, and he's the obvious person to start off trying to get on board with this (as a well known Nobel laureate working with nanotubes). If not his group, then any number of dedicated CNT-growth research groups in the US.

At some point, it would not be a bad idea to let a scientist into the upper management of a space elevator company. Just as a smart inventor will let go of some control of a company to a business person, these business people would have been wise to let a scientist make some of their decisions.

By (publicly, at least) focusing on robotics, they missed the boat on one key technology they needed which would have also provided them with the funds to keep everything else going. Hopefully whoever takes over leadership of the space elevator community has more luck.

Shift Key

[afaik_ianal]

In other news, the founder of LiftPort has found his shift key.

I think I lost any remaining respect I had for him when I read through his comments in the previous discussion. It might seem like a minor thing, but if the guy can't be bothered with little details like spelling, grammar, and correct capitalisation, then what were his chances of ever getting the SEC filings done correctly?

It made him look like the kind of person who constantly churns. People like that can't focus on anything but developing their latest and greatest idea, and are unable or unwilling to ever do anything because they're already onto the next thing.

Re:As a general rule of thumb

[Gorshkov]

All they do is steal everything and give nothing back, other than selling to us cheap products built by a slave labor force.

Woah .... deja vue all over again.

Is it just me, or were people saying that about Japan just before and after WW II?

Re:Cyclone effects?

[greg_barton]

What is the air-speed velocity of an unladen swallow? How many angels can fly on the head of a pin? How many people tried to build an airplane before one flew? How many people thought they were idiots? Who, in 1902, could tell you the amount of lift generated by the wing of a 747?

Speculating now about the wind loading on a space elevator is akin to the last question.

Re:great rebuttal

[Bastard+of+Subhumani]

It is those who say it "can" be done that move the world.

Like Icarus? He didn't move the world, just dented it a bit.

Re:As a general rule of thumb

[butlerdi]

Coming from that era I can say that one of the worst things that could be said about a product was that it was made in Japan.

Re:It was doomed to failure

[Urkki]

The funny thing is that the one impetus that would absolutely, positively guarantee that the US would build a space elevator is if the EU, Russia, or China started work on one. Have no doubt: no-one on the planet will be permitted to build a space-elevator before the US or without US involvement; the federal/military complex in this nation wouldn't permit it. By the time building a space elevator is a practical possibility, I doubt US is in a position to prevent other world powers from doing anything much (except by starting WW3, which I don't think is an option, because the rich bastards at the top really do not want to live in a private luxury radiation shelters for the rest of their lives). The balance of economic power is shifting to the east, and I don't see that development reversing without a major worldwide crisis, and then building a space elevator would probably not be a high priority for anybody... And with economic power goes the power to meddle with other nations' business, such as building a space elevator.

But if we end up with a "bipolar" cold war world, then you're right. Obiviously if one block starts to build an elevator, the other block has no option but to start building one as well, and certainly US will still exist and be in one of the blocks by the time we can practically build one. Of course there's no guarantee that the block with US would get their elevator finished first, but I don't think that really matters as long as both blocks would get their elevators working in the same decade or so. Considering the possible problems that won't be discovered until the elevator is finished, it might even be desirable to be the 2nd, a few years behind, so that there's still time to alter the design if some unforeseen problem is discovered by the 1st.

Nvidia

[SharpFang]

Microsoft, IBM, GE, Ford... All these companies base many of their product designs on future technology. If you started designing
a computer program around the computers available at the beginning of the design process, or designed the program on your
prediction of the computers available at the end of the development process, the latter would be the better product - suited to
the technology available at the time the consumers were ready to use it.

Nvidia does too. Like, the GeForce FX series of their cards. They were to be released together with DirectX 9. Except that nobody knew what DX9 would support and due to some disagreement between Nvidia and Microsoft, Microsoft wouldn't tell. So Nvidia was "predicting the features of DirectX 9". That is, guessing. And guess what? They guessed wrong. GeForce FX was packed with wonderful features which had no support whatsoever in the OS, while features required by DX9 were quickly hacked into the drivers and worked at snail speed in software emulation.

Sure -sometimes- the predictions work. But when it doesn't, it fails hard.

Re:Why?

[suv4x4]

Oh, I don't disagree, but how exactly how you going to make everyone on Earth rich enough to become educated enough to reduce population growth?

Hmmm... Ah, damn it, let's neuter them!

Space Guns anyone?

[Ignatius]

I know it's slightly offtopic, but I always wonder why a highly speculative and fragile concept like the space elevator which is barely theoretically possible is getting so much press, while space guns, which are cheaper, more robust and don't require any new technology, are practically ignored.

In case you're not familiar with the concept: It's basically about accelerating a small vessel (by a light gas gun, a RAM accelerator, electromagnetically or a combination thereof) in a relatively short (about the order of one km) barrel / tunnel to about orbital speed. The vessel itself will only require enough fuel for circularizing its orbit, so unlike conventional boosters, a much bigger part of its mass can be actual payload as the exponential regime of the rocket equation can be mostly avoided.

While the capital costs will be high, a space gun is still dirt cheap compared to a space elevator, and isn't prone to be completely destroyed when hit by lightning, space debris or, for the matter, a shotgun.

http://en.wikipedia.org/wiki/Space_gun
http://www.fas.org/news/iraq/1998/05/980500-bull.h tm
http://www.astronautix.com/lvs/julncher.htm

Re:Space Guns anyone?

[Rycross]

Beyond only being useful for cargo that can withstand thousands of g's of acceleration, you also have a couple of other problems. First, you have to account for atmospheric drag with your initial velocities. That means you have to be traveling at a speed higher than orbital velocity.

But the real problem is this. We have a term for hitting Earth's atmosphere at orbital velocities. It's called re-entry. It's problematic for normal space vehicles which will bleed off speed in the thinner upper atmosphere at orbital velocities. Now what happens when you launch a payload in the thicker part of Earth's atmosphere, at speeds greater than orbital velocity? I'm guessing a fiery ball of death.

Re:It was doomed to failure

[butlerdi]

Well, just saw this

EuroSpaceward was just awarded funding by The National Research Fund of Luxembourg to hold a workshop on space elevator climber and tether design primarily focusing on systems for entry in the US and German competitions. The tentative dates are Nov. 14-16, 2007 and the workshop will be held in a yet to be announced venue in Luxembourg.

found at http://www.spaceelevator.com/

So it does seem there is still some interest outside US, albeit for entering a NASA based competition. I think that the immigration problems in the US for foreign students will quickly have some negative effect on innovation in the US in the long term. Innovation in the US has always been due to it's courting of students world wide to study and then contribute.

Golden Opportunity Wasted.

[cpaglee]

Imagine a guarantee pitch your business plan on Slashdot? LiftPort took "a few weeks" to prepare their response and this is the best they could come up with? Where is the PowerPoint presentation? Where is the Corporate Summary? Where is the business plan? Where is the investor's prospectus? Wouldn't they think to provide links to these critical documents at the BEGINNING of their response? I downloaded Roadmap and it is nothing more than a very boring excercise in project management spanning a couple of decades. The parents to this post are spot-on. It is a crying shame that LiftPort wasted such a wonderful opportunity. I would give anything to be able to pitch a business plan to the Slashdot community.

Venture Capitalists invest in a team, first and foremost. The inability of this 'team' to take advantage of this incredible wonderful opportunity to 'Pitch' to the entire Slashdot community guarantees their inability to raise investment capital, at least not from professional investors. Lack of a Chief Scientist with a PhD in nano-technology on their 'team' is also a guarantee for failure. Perhaps this explains why they attempted to raise money through a Reg. 504d stock offering. They don't even have bios for their 'team' on their website! A company raising money through professional investors must include their team on their web site.

Michael Laine et al have NO IDEA what is required to run a business of this magnitude. LiftPort will fail, not because their idea is impossible, but because the problem they are trying to solve is monumental and their team lacks the experience and the charisma to turn a dream into reality. As a result they will be unable to attract professional investors, and you are not going to build a space elevator by selling T-Shirts online. Mr. Laine may be a visionary, but his time and money would be better spent writing visionary books.

Re:Cyclone effects?

[Pippinjack]

Is that an African or a European swallow?

That kid...

[*weasel]

That kid, is back on the space escalator!
I hope his pants get caught and a bloodbath ensues.

Re: Right...

[Firethorn]

From what I've seen, one of the first priorities once you get the first ribbon set up is to set up a second. That way if something does happen, you still have another ribbon.

That and you'd still be able to max cargo transfer for two ribbons at prices that net you more money than the prices you can get for the cargo capacity of one ribbon. (IE 1X$800/kg < 2X$600/kg)

Re:Why?

[Control+Group]

Postulate for a moment a limitless supply of raw materials, and a limitless space to put waste materials in. In that environment, what, exactly, is wrong with a "consume all" mentality?

The space elevator - or rather, a technology which gives efficient, low-cost access to space - has the potential to make that scenario a reality. We've got near-earth asteroids, the moon, and the entire asteroid belt full of metals. We've got moons and an Oort Cloud full of CHON - carbon, hydrogen, oxygen, nitrogen: the building blocks of all our food. And we've got all of space to discard waste products into. The resources exist in this solar system to keep us in consumables for a long, long time if we can just get out hands on them.

An important - not, of course, the only, or even the hardest, but an important - step towards this is a cheap, high-volume way of ferrying material out of and into Earth's gravity well.

Re:Alternatives

[drukawski]

How does a straight line wrap around anything?