Lunar Space Elevator Instead? 340
koa writes "We have all seen articles on building a Space Elevator on the earth, how about this article about experimenting with the Moon first since the technology we have available to us is sufficient, as the Moon's gravity is 1/6th that of Earth's (the cable weight would require less exotic materials such as carbon nano-tubes). One could make a very good argument for commercialization of Space if getting materials to and from the Moon's surface was vastly cheaper and easier."
Interesting (Score:5, Funny)
Re:Interesting (Score:2)
Re:Interesting (Score:2)
Re:Interesting (Score:2)
Re:Interesting (Score:2)
Re:Interesting (Score:5, Insightful)
Re:Interesting (Score:2)
The point? (Score:2, Insightful)
Waste of money IMO.
Re:The point? (Score:2)
Re:The point? (Score:3, Informative)
Re:The point? (Score:2)
Re:The point? (Score:2, Insightful)
Actually Earth's gravity does exist on the moon. It certainly is a lot weaker than what we experience here but it is definitely real and measurable.
Re:The point? (Score:2, Insightful)
and it seems like the moon is the easiest scale moddel that is both relative easy to reach and that has both gravity and atmosphere(?) in a smaller scale than earth.
and about bystanders, the only one
The best scale for an experiment... (Score:2)
Re:The point? (Score:2, Insightful)
While the moon thing isn't a terrible idea it doesn't seem like it should be an "instead" but rather an "addition to."
Re:The point? (Score:2, Informative)
Re:The point? (Score:3, Insightful)
The point of the space elevator is to lower the cost of getting things from the ground to space. Even on the moon, you have to use energy to get things off the ground. The moon has resources that could be utilized in space (or Earth). Instead of having to land spacecraft, risk the dangers and use fuel that you have to get from Earth, you can set up a
what resources? (Score:5, Informative)
Almost the entire highlands surface is composed of plagioclase. You can extract glass and maybe aluminum from that. You might be able to create dopes silicates for electronics, but you'd probably need to bring trace elements from earth. The Mare are a little better: they're basalt. You can probably get Iron there, maybe some other metals as well. Maybe not. In general, there won't be much in the may of heavy metals, because the moon doesn't have mantle convection and volcanism to make them accessible. It certainly doesn't have hydrocarbons, which we need a lot of.
We could probably mine the moon for a few things, but most of our materials would still come from Earth.
Lunar Space Elevator? (Score:5, Funny)
Except.... (Score:3, Insightful)
If you are going to just say "move people and materials from earth to the moon, then go from there" - you still have to escape Earth's gravity, which is the f'ing point of the earth-based space elevator to begin with.
Re:Except.... (Score:5, Insightful)
you build the expencive elevator on the moon and start up a few mining/refining outposts with self suporting habitats.
once those are working good, you can start working on space stations/ships/habitats for a cheaper price, since most of the materials don't need to go past earth's gravity well, only the main part of human labor would need to come from earth.
the big and expencive part of the materials could be cheaply inported from the moon, and in a later stage, when space travel has inproved, you could get that stuff from the asteriod belts etc.
so even tho it might seem like a big and expencive thing to do, it might be verry usefull in the future.
Re:Except.... (Score:2)
We might actually be closer to building the elevatorhere than to establishing any sort of moon base in terms of technology. Not to mention that a working space elevator on earth would make the Moon a hell of a lot more accessible.
Re:Except.... (Score:2)
On the positive side, this means that once we achieve world peace, a space elevator on the moon should be no big problem, only an exciting challenge. On the negative side, this means we might never be able to get there (has world peace ever existed in h
Re:Except.... (Score:3, Insightful)
Re:Except.... (Score:2)
Better yet just use remote controlled mining + refining equipment and then the people controlling them can sit nice and safe on Earth, and you don't have the massive cost of the self-supporting habitats.
Re:Except.... (Score:5, Insightful)
"Iinsightful" my elbow. Doesn't anybody RTFA anymore?
FTFA: So, what would you do with a space elevator connected to the Moon? "Plenty," says Pearson, "there are all kinds of resources on the Moon which would be much easier to gather there and bring into orbit rather than launching them from the Earth. Lunar regolith (moon dirt) could be used as shielding for space stations; metals and other minerals could be mined from the surface and used for construction in space; and if ice is discovered at the Moon's south pole, you could supply water, oxygen and even fuel to spacecraft."
If water ice does turn up at the Moon's south pole, you could run a second cable there, and then connect it at the end to the first cable. This would allow a southern Moon base to deliver material into high-Earth orbit without having to travel along the ground to the base of the first elevator.
Re:Except.... (Score:2, Insightful)
Re:Except.... (Score:4, Interesting)
Re:Except.... (Score:2, Insightful)
The resources invested in it would be small compared to a lunar base, and since no one would be riding it (too slow), there wouldn't be fatal accidents.
Re:Except.... (Score:2)
The space elevator is a wonderful idea, but I'd rather them give it a go on the moon first where it would cost us 10's of billions and be attached to a larger lunar mission instead
RTFA (Score:2)
Moonbase would be in the always-lit north (Score:2, Insightful)
There's a good reason to build a terran elevator. For a start, we live on this damn planet! I think that the logistical problems of building an elevator on the moon will outweigh the material problems of building one on earth.
Of course, it could
Re:Moonbase would be in the always-lit north (Score:2, Informative)
Northerly moon base? The best-argued location I ever saw was for the lunar south pole; permanent sunlight, water, and constant ambient temperatures of -20degC.
But, yes, a lunar space elevator would have to have an equatorial ground station, and
Re:Moonbase would be in the always-lit north (Score:5, Informative)
Re:Moonbase would be in the always-lit north (Score:2)
I find that hard to believe, considering that the materials needed to build a terran elevator don't even exist yet.
Mistake (Score:3, Insightful)
The whole point of the elevator was to make it easy to get out of Earth's gravity well. To get to a lunar elevator, you still have to do that.
Re:Mistake (Score:2)
Re:Mistake (Score:2)
Big Mistake (Score:2)
space elevator technology. What possible
reason could there be for such an elevator
on the moon (at 1/6th Earth gravity)?
The whole idea behind such technology is to
cheaply lift material into orbit. The only
thing the moon has (right now) is moon dust,
and once those first samples came back at
tremendous cost, what's the point? Just how
much moon dust would be necessary to satisfy
the demand on Earth? Even marketing the stuff
on eBay has got to have some limit to dema
First things first... (Score:5, Insightful)
How about a lunar colony instead of a freaking space station?
Would seem to be a prerequisite for anything approaching a lunar space elevator.
And long term lunar stays would provide valuable practice for something like a martian colony.
Re:First things first... (Score:2)
Re:First things first... (Score:2)
Re:First things first... (Score:2)
An interesting experiment (Score:2, Insightful)
I'm glad I haven't heard many fearful and wildly speculative comments about space elevators. The most obvious one would be 'what if the cable breaks?'. Any Chicken Littles in our society would assume that lengths of the cable will fall, crushing sections of cities.
A lunar elevator would show that such fears are unfounded.
It
Big difference between theory and practice (Score:2, Insightful)
Yes the elevator could be built. What exactly are we so desperate for we can only get from the moon? Oh thats right, nothing, at least nothing that makes the expense of this endeavour currently worthwhile. The cable may be inexpensive but who wants to pay to put the lunar base in place and get the heavy mining equipment up there, cos that aint gonna be cheap. Also it conveniently fails to explain how we a
Re:Big difference between theory and practice (Score:2)
Really spectacular views. People pay milions for those on Earth.
Re:Big difference between theory and practice (Score:2)
Of course you use the elevator on the moon to harvest materials for building the earth elevator
angel'o'sphere
Great! Lets get started! (Score:2)
Of course, the chance of any nation getting stuck-in is remote due to plain beurocracy. (We're back to contemplating navels)
For a second I thought .... (Score:3, Interesting)
Relocating to the Moon won't help the project a bit if the raw materials (whatever) has to be brought from Earth . A mining/harvesting camp on Moon would be at least a few decades away, until then this can wait on the backburner. An orbital platform harvesting asteroids for heavy metals would rock ! (literally) . Would be nearer to earth and it would put solar sails in the domain of practical rather than as Sci Fi book fodder.
Hmm... all the differential equations in Rocket Science confuse the hell out of me . I suppose the space elevator doesn't have the rocket's exponentially growing weight problem ?. (Now I know why they say "It ain't rocket science)
I'd rather vote on the space catapult to launch rockets at Mach 3 (or higher) with something (jet aeroplanes or Maglev rails on mountains) . If the initial acceleration can be supplied by ground based non-moving power equipment, the rocket could go a looong way in reducing weight.
Sadly the word space Catapult brings into mind unnecessary images of North Elbonia and
Re:For a second I thought .... (Score:2)
The elevator has a similar problem, but I don't recall if it's exponential or geometric. (Despite common confusion there is a difference.) Each given segment of the elevator must support the segment below itself, plus itself. Thus, as you go "up" the elevator (which IIRC actually means "towards the middle" in this case), the elevator has to get thicker and thicker... at least if "normal" materials are used.
That's
Elevator from Earth to Moon? (Score:2)
The point of building on the moon (Score:5, Insightful)
Space Solar Power Satellites (Score:5, Insightful)
An effect of O'Neill's proposal is the creation of space settlements [aol.com] which could house thousands of times the land area of the Earth from asteroidal materials alone. The creator of the space-settlement FAQ [aol.com], Mike Combs, says in that FAQ to the question "Is space settlement a solution to the overpopulation problem?": [aol.com]
This is ironic since O'Neill himself described just such a transportation system and projected depopulation of Earth to require an infrastructure not much larger than that supporting the commercial airlines.Sure, you could, but... (Score:2, Interesting)
orbital_radius^3 = (3,600^2 * surface_gravity * surface_radius^2 * orbital_period^2) / 2*pi^2
...the height of the elevator, therefore; for the moon it's 190000km. In other words, five times higher than one on Earth! That's nearly half-way to Earth; the gravitational disturbances from Earth's much greater mass c
Re:Sure, you could, but... (Score:2)
Then you'd find that the proposal is to put this at the L1 point. The Earth's gravity helps to hold it up, it's not entirely held up by centrifugal force.
Re:Sure, you could, but... (Score:5, Informative)
There are, however, five places in the Earth-Moon system where you could put an object of low mass - like a satellite... or a space elevator counterweight - and have them remain stable with very little energy: the Earth-Moon Lagrange points. The L1 point, a spot approximately 58,000 km above the surface of the Moon, will work perfectly."
In other words, RTFA.
Re:Sure, you could, but... (Score:2)
That being said, I'm not an astrophysicist, and so I don't honestly know - I was just copying the article for the purpose of yelling "RTFA".
Re:Sure, you could, but... (Score:5, Insightful)
It also orbits the Earth once every thirty days - in other words, it's locked in a 1:1 resonance with the Earth. This is of great benefit in this case!
A little background:
Space elevators need to remain stationary with respect to the body that they'll be attached to. With the Earth, that means you need to be rotating at the same speed as the Earth - in other words, GEO.
With the Moon, however, you can either be rotating as fast as the Moon, or orbiting as fast as the moon, because the moon rotates at the same angular speed as it orbits! And there are 5 places where that occurs - the Lagrange points [wikipedia.org].
From any one of those points, the Earth and the Moon are stationary in the sky - that is, you don't see either of them moving with respect to each other. Since the Moon's rotation is defined by its orientation with respect to the Earth, therefore, you don't see the Moon rotating. That is, you're in something that's exactly the same as GEO.
Of the 5 Lagrange points, obviously L3 is silly - it's on the opposite side of the Earth as the Moon. So that won't work.
L2 is similarly silly - it's on the opposite side of the Moon as the Earth. Could be useful for sending things to interstellar space, but not for Earth-Moon transits.
So you're left with L1, L4, and L5. Obviously if you're talking about getting things from the Earth to the Moon, you'd want the one that's deepest into Earth's gravity well - and that's L1, "gravitationally halfway" between the Earth and the Moon. And that's what's being proposed.
One helpful thing is that L1 is unstable - orbits tend to drift away from there. However, an elevator tethered to the moon at least anchors one of the unstable directions (radially towards the moon/away from the moon), and I'm not sure if the perpendicular direction is unstable as well. So it may be that an elevator in that position is stable, and that unpowered objects will tend to move away from the elevator. You'd have a natural deflection mechanism. Pretty interesting!
Actually, a combination of an L1 and an L2 elevator could be quite interesting, though you'd have to build something like a railway around the Moon. Once you do that, though, you could go out past the L2 point, and you could sling yourself into interplanetary space. I'd have to work out how much of a boost you could get, but Mars orbit seems quite reasonable.
It's not as good as a terrestrial elevator (because the Earth rotates so quickly, so you can steal more of the Earth's angular momentum), but it's certainly currently feasible.
Re:Sure, you could, but... (Score:2)
Sigh, I could've tried reading the All Knowing Wikipedia : L1 is stable in the perpendicular direction, so an L1 elevator would be completely stable. Interesting!
Re:Sure, you could, but... (Score:3, Insightful)
The instability is only directly along the earth-moon axis. Imagine a triangle based on the earth, moon, and the object. The earth-moon axis is the base of the triangle, and the other two sides of the triangle represent the earth's and moon's gravitational pulls. The two sides of the triangles nearly balance except that they both pull in the same direction back towards the axis.
So a counter weight on the earth side of the po
Re: Instability of L1 (Score:2)
To the moon? (Score:2)
The human race as a whole is not ready for population of any planet which can't naturally support us. If only takes some bully to smash another kids space suit or some idiotic kids to think it's fun to throw bricks at a glass dome and we have a major emergency.
This isn't sci fi here, the stupidity involved in the human race would destroy anything we set up.
Would you like some moon cheese with that whine? (Score:2)
Re: (Score:2)
Geosynchronous orbit? (Score:2, Insightful)
I guess earth lies in its geosynchronous orbit, since we always see the same side of the moon, but an elevator from earth to the moon would be a little bit long, eh?
Did Anybody RTFA?! (Score:4, Insightful)
Geekdom sure ain't what it used to be.
Re:Did Anybody RTFA?! (Score:2)
-
Big Rail Gun.. (Score:2)
Terrorist! (Score:4, Interesting)
But you are absolutely right. Having no atmosphere, the Moon is the ideal place to put a railgun. Besides Heinlein, many other authors have used that concept, among them Gerard K. O'Neill, who popularized the L5 orbit concept.
Geez you guys (Score:5, Insightful)
And just because it's on the moon and not earth, doesn't mean it can't be quite useful. Imagine being able to send lunar rovers with return capabilities without having to give them heavy expensive fuel for the return trip. Just hop on the elevator and from L1, just a small thruster push and back it comes.
Circular reasoning (Score:2)
Funny, really.
Go down on it (Score:2)
More efficient than parachutes.
Doesn't anyone read the actual article? (Score:5, Informative)
Let me clear these up...
1. The cable would be 58,000 km long. This is the distance from the Moon to the L1 point, which is the balance point of gravity between the Earth and Moon. The Earth pulls the elevator straight using its gravity. If you looked at the Moon from the Earth, the space elevator would always be at exactly the same place on the Moon, always pointed directly at us, like we're tugging at it with the Earth's gravity. This has nothing to do with centrifigal force, like an Earth-based elevator where the counterweight keeps the cable taut.
2. Because of low gravity on the Moon, you could build the elevator with commercially available materials on the market today, like Kevlar or M5. The cable would be light enough that it could be launched on a single heavy lift rocket available from Arianespace, Boeing or Lockheed Martin.
One launch = one lunar space elevator
3. You could connect a second cable to the Moon's south pole, so the two cables form a V, and then bring up water ice from the south pole. This would put water, air and rocket fuel into high Earth orbit at a fraction of the price of bringing it up from Earth.
4. As you make the cable longer, it allows you to kick objects into high-Earth orbit. You could transfer materials from the Moon into orbit for relatively little fuel.
One end at L1, not the center of mass? (Score:2, Interesting)
The cable would be 58,000 km long. This is the distance from the Moon to the L1 point, which is the balance point of gravity between the Earth and Moon.
Wouldn't the cables center of mass need to be at L1 or slightly above (relative to the Moon), rather than the end of the cable? If one end of the cable were at L1 and the other end on the moon, the moon's gravity would have a greater effect than the Earth's gravity, so the cable woul
Re:Doesn't anyone read the actual article? (Score:5, Insightful)
The cable would have to be much longer than that. As the cable is extended toward the surface of the moon, a counter-weight would have to be extended toward the earth so that the elevator's center of gravity would stay at L1 (or else the whole structure would fall to the moon's surface). Once the elevator reached the curface of the moon, the counter-weight would have to be extended yet further in order to offset the weight of the objects traversing the cable. The total length would have to be more than 120,000km.
The concept also doesn't mention coriolis force. The shortest cable would be one that anchors to the lunar surface direcly below L1, however objects travelling on the cable will impart a force onto the cable at 90 degrees to their direction of travel. The base would therefore be best located east or west of the ideal point depending on whether the net traffic on the cable is upward or downward.
Re:Doesn't anyone read the actual article? (Score:5, Insightful)
Re:Doesn't anyone read the actual article? (Score:3, Interesting)
Sigh. This has everything to do with centrifugal force. It is exactly the same as a terrestrial space elevator. That's why you could build a cable to L4, or L5, even though gravity doesn't appear to balance there at all. It's all about solving the 3 body problem in a rotating frame.
When we talk about a space elevator for Earth, we're talking about building a cable to geosynchronous orb
Uh oh (Score:2)
Generator? Deorbit? (Score:2)
For sure, it's the solar rather than the earth's field that bothers me, but since the earth-moon system is orbitting the sun I'd expect some kind of generator effect. Not to mention the fact that nobody really has a clue about the dynamics of the solar field.
So, even after somebody does some calculations to
Let's get some things clear. (Score:2, Informative)
The elevator does not go from the earth to the moon.
The moon is not in geostationary orbit around anything. It rotates to keep the same side towards us.
The top of the elevator would be at Lagrange point L1, which is the point at which Lunar gravity and Earth's Gravity are balanced. It is balanced, but unstable. Stationkeeping would be necessary.
People would rarely use the Lunar Space Elevator for personal transport. It would be only for cargo. (Similar to the long awai
The L-Prize (Score:3, Insightful)
$100M for the first kg of lunar material moved, without rocket propulsion, to a Lagrange point.
Yikes (Score:2)
Brilliant (Score:2)
Why don't they spend the money (Score:2)
Looks like a more urgent issue.
Re:how to design against terrorists? (Score:3, Insightful)
You must be american. Get over it - or take some lessons from countries (Spain, England) that have had "terrorists" to deal with for many years - and you don't see them going bananas over it and mentioning it in all sorts of contexts.
Re:how to design against terrorists? (Score:2, Interesting)
And of course if you anchor the elevator offshore (makes most sense for security anyway) then all you're going to get is a splash.
Re:how to design against terrorists? (Score:2)
Re:how to design against terrorists? (Score:2)
Not if you use the elevator itself...
Re:how to design against terrorists? (Score:2)
Uh, because there's money to be made? Do the neocons need another reason?
Yeah, yeah, I'm a liberal french coward...
Re:how to design against terrorists? (Score:2)
Well, someone has to clean the toilets in the new Golden Age. ;-)
Re:how to design against terrorists? (Score:2)
Re:how to design against terrorists? (Score:3, Insightful)
A terrestrial cable would be 100,000 km long.
Planes fly at about 10 km.
SpaceShipOne just climbed to 100 km.
Anything a terrorist does to a cable will be done to less than 0.01% of the cable.
Get a clue - terrorists can't do anything more than annoy a space elevator. Anything they can do is recoverable.
Re:how to design against terrorists? (Score:3, Insightful)
"Anything they can do is recoverable"
LOL.
Sneak a nice big bomb into a satellite/space vehicle/payload, put it on one of the lifts and blow it up part of the way.
Re:how to design against terrorists? (Score:2)
Of course with the US intent on creating ever more numerous and ever more dangerous terrorists maybe in a couple of decades it will be a threat.
Re:orbit (Score:2, Insightful)
oh, right... this is
Re:orbit (Score:2)
Only if the Earth had zero mass. The cable only has to reach the point where the Earth's gravity has more pull than the Moon's. Beyond that point, any mass will fall towards the Earth, keeping the cable straight.
Re:Uranus (Score:2)
Re:A good thing (Score:2)
Re:Can we give this topic a rest please? (Score:2)
I bet our futrure generations, say in 199 years from now, will be thinking "Gee we should have listened to him", while beeing stuck in a small space with the worst possbile music, for 5 days.
Murphy(c)
As a space elevator detractor: This is different. (Score:2)
You can buy, off the shelf, tens of thousands of miles of fiber that does this job.
The scale of the lunar elevator can be much smaller.
It is vastly less vulnerable to terrorism or other mishap.
This really could solve the Earth's energy problems and lead to a dramatic reduction in ecological pressures [slashdot.org].
This is a great idea.
I'm surprised and a bit ashamed that I haven't heard about it before.
It should be the [slashdot.org]