Back to Moon in 2015? 697
Mistress.Erin writes "NASA has announced they may send astronauts back to the moon as early as 2015, and may build an international base once they get there. From TFA:"The next mission to land a man on the moon will take place in 2015 at the earliest, the new chief of the United States' space program said on Monday, adding the mission could be followed by the construction of a multinational space station there. But NASA has not yet decided what vehicles will be used to reach the moon, or what will succeed the aging space shuttle fleet, which is due to be retired in 2010.""
I got a vehicle (Score:2, Funny)
There's a giant Big Boy statue down the road you can use...
who needs a vehicle? (Score:2, Funny)
Re:I got a vehicle (Score:3, Funny)
Hmmm. Sounds like a good idea for a TV program...
Re:I got a vehicle (Score:3, Insightful)
One nice meteor and splat we're toast... or someone with to touchy a trigger finger.
The more we're spread out the safer we'll be.
Re:I got a vehicle (Score:3, Funny)
Re:I got a vehicle (Score:4, Funny)
I'm all for science/technology/astronomy but... (Score:3, Insightful)
But still, is there anything on the moon that we can use/do that would be cool, other than just developing the technology used to get there?
-Jesse
Re:I'm all for science/technology/astronomy but... (Score:5, Funny)
The coolest thing would be that everyone can do the moonwalk. Awesome!
Re:I'm all for science/technology/astronomy but... (Score:4, Funny)
Re:I'm all for science/technology/astronomy but... (Score:2)
Re:I'm all for science/technology/astronomy but... (Score:5, Funny)
Or
Today the Moon, 45 years from now the Moon again...
Re:I'm all for science/technology/astronomy but... (Score:2)
-Jesse
Re:I'm all for science/technology/astronomy but... (Score:3, Funny)
Re:I'm all for science/technology/astronomy but... (Score:2)
And ofcourse it will be a nice place to train for NASA's competitors. Practice landing on the moon and then you can go to other planets/moons.
Re:I'm all for science/technology/astronomy but... (Score:2, Insightful)
Re:I'm all for science/technology/astronomy but... (Score:2)
Re:I'm all for science/technology/astronomy but... (Score:4, Insightful)
And as I mentioned in a reply to that different post, you need something to build with. Once the infrastructure is in place, it's far cheaper to lift raw materials from the moon than it is to lift them from the earth.
Re:I'm all for science/technology/astronomy but... (Score:2)
Re:I'm all for science/technology/astronomy but... (Score:5, Interesting)
If things go well and a Luna base becomes well established, it becomes a much easier launching pad to form other bases/colonies elsewhere. The gravity well on the moon makes regular launches much less cost prohibitive.
Re:I'm all for science/technology/astronomy but... (Score:3, Funny)
But, of course, I'm sure they've thought of that and will prepare accordingly...
Re:I'm all for science/technology/astronomy but... (Score:5, Informative)
Babysteps. Since the 1960s we've lost the capability to send anything large on an interplanetary cruise. In fact, we shelved most of the technologies that would allow us to perform such cruises quickly and efficiently. As a result, we need to rebuild our space infrastrucutre. Part of that rebuilding is an inexpensive method for getting to and from the moon. CEV Spiral two will most likely use nuclear engines for moving passengers to and from the moon. As we gain real world experience with those engines, we can begin contemplating the task of sending a manned mission to Mars.
The key thing to remember about the current CEV program is that it's built on real technology we have today. This is a big change for NASA which has always expected some sort of miracle technology for their next vehicle. The bright side of this change is that we'll have the CEV completed in a relatively short period of time, and it will cost a reasonable amount compared to the $$$ that went into the Shuttle program.
Re:I'm all for science/technology/astronomy but... (Score:3, Interesting)
Aside from that how exactly would you use a technology that doesn't rely on combustion to produce the needed thrust to enter orbit.
Not saying that it couldn't be done but it seems like it would still be easier to burn something to get into orbit.
Re:I'm all for science/technology/astronomy but... (Score:5, Informative)
That impression is quite wrong. Nuclear technology has not been used because:
1. It hasn't met the mission profiles. (It was even considered for the Shuttle upper stages.)
2. People are afraid of nuclear.
In the case of CEV Spiral Two, the engines would be used for pure orbital work, so there would be little to no concern of any materials reaching Earth.
If anyone knows of a way to get thrust from fission I'd love to hear it.
Man, I thought I'd gotten everyone around here trained in how Nuclear Thermal Rockets [wikipedia.org] work. Here's the short of it:
Most nuclear reactors derive their power production from the thermal aspect of the reaction. As the core heats up, the heat is pumped into a generator where a turbine is turned. During the push to reach the moon, some enterprising engineers figured that if you could heat a propellant using a nuclear reactor, you could dump as much thermal energy into a working fluid as the materials could withstand. The result is that massive amounts of thrust can be obtained by simply heating a stream of hydrogen, oxygen, or even plain old air. (See: Project Pluto [wikipedia.org]; rather nasty weapon that was.) Since hydrogen and oxygen can't become radioactive, there would be little issue of spreading nuclear materials. Unfortunately, there was a Graphite Ablation problem from the heat, but the modern TRITON engine [nuclearspace.com] fixes that by utilizing Tungsten cladding.
Does that answer your question?
Re:I'm all for science/technology/astronomy but... (Score:3, Informative)
There are many fission-related engines. Offhand, I can think of solid/liquid/gasseous/plasma core, antimatter-catalyzed microfission (there's also microfusion - basically, you use a miniscule amount of antimatter in a trap to start a fission or fusion reaction), photonic rockets (you take
Re:I'm all for science/technology/astronomy but... (Score:3, Insightful)
Its an idealogical step back from the shuttle. Becoming more of a "do all disposable" similar to the ever reliable Appolo hardware that was quickly adapted to 3 totaly different sets of missions with little effort. Leaving us without a "Jack of all trades" craft such as the space shuttle, able to do crew and cargo on the one vehicle and function as a remote scientific research platform yet very difficult to change or retrofit for a very different task.
It is a
Re:I'm all for science/technology/astronomy but... (Score:5, Interesting)
It is a shame that we've waited this long to even consider it.
Infrastructure/Building material (Score:2)
At current technology levels, that makes the moon's mass worth on the order of $10^25, or ten trillion trillion dollars. Cool, eh?
Personally, I think we ought to develop cheaper means of getting into orbit before we try anything really ambitious in space. But if we are going to use our current chemical r
Re:Infrastructure/Building material (Score:3)
If the last 30 years have proven anything, it's that space access is a chicken and egg problem. You won't get competition for cheaper vehicles until you have a market for those vehicles. Yet you can't create the market without having cheap space access. The Space Shuttle actually drove UP launch costs instead of realizing the promised launch savings! That's why the Delta and Atlas r
Re:Infrastructure/Building material (Score:4, Interesting)
I realize that we both want the same thing, we just disagree on the approach. Most of the NASA issues I've seen go way back to the moment that Nixon effectively shut down the space program. Any and all money was channelled into the Shuttle program, which was subsequently screwed up by Nixon's demands for a "jack of all trades" vehicle. The engineers did an amazing job on the shuttle, and by all rights its technology and power outstrips that of the Saturn V. The problem is the amount of crap hard-bolted to that technology, and the Carter administration's demands to "stretch out" the costs. The result was a half-rate craft that was unable to complete any mission effectively.
Regean tried to build on the existing investment by supporting NASA's plans for Space Station Freedom, a Lunar Transit, and eventually a Lunar Base. He also pushed NASA to complete the National Space Plane to provide for cheap access to space. But between the Shuttle's downtime after Challenger and Clinton's cutbacks to the space program (which resulted in that piece of shit in the sky known as the ISS), all the original goals of Regean's program have been missed.
Now we're scrapping all of our super-fancy technology and doing it the way we know it can be done. I see this as a *good* thing because it's the only way our space program will progress. Remember, NASA's current budget is being sucked dry by flying and maintaining the space shuttle. At $500 million per launch, it's anything but and effective method for getting to space!
The CEV program (even if only Spiral One is completed) will free up NASA's coffers to do more interesting stuff than sending 104 metric tonnes up and down the gravity well. (Yes, the Space Shuttle weighs that much.) We don't have figures yet, but even at $100 million per launch the CEV will be 5 times as cost effective as the shuttle is today. My guess is that realistic launch costs will settle somewhere closer to $50-$75 million per launch. A significant savings.
Unfortunately, it seems like the capital, either political or monetary, to build them isn't easy to find. To me, that says that the designs aren't really that great. Building prototypes is the most important step of R&D - and I was saying that we need to build better engines before spending $umpteen billion in space.
Now slow down a moment here. Quite a few prototypes *have* been built. The NERVA program was considered successful, and was ready to fly prior to the cancellation of pretty much all space programs. The Orion was prototyped in many forms (you've seen the Put-Put video I assume?) but finally died in the cancellation of the Saturn V program. The linear aerospike engines and hyrdrogen slush technologies were key to the X-33. That program was underfunded and undercommitted to by NASA (as was the Delta Clipper). Most of these engines are developed enough to take a risk on, but the only one you're likely to see in the near term is the Nuclear Thermal Rockets. The rest will wait until we again have aerospace companies fighting to create the best hardware. (They were pretty disillusioned after their treatment in the 90's.)
Other engine concepts:
- Nuclear Salt Water Rocket: Must be tested in space due to the radioactivity of the fuel.
- Gas-Core Nuclear Rocket: Research is progressing, but no working prototype yet exists.
- Antimatter catalyzed engines: This is related to the Orion engine, and cannot be used on Earth due to the nuclear test ban treaty. A mission is already planned, however.
- Ion Engines: These are already used.
- Solar Sails: These have been used on a few test missions.
- M2P2 Solar Sails: Under development. Could be useful for a more powerful Orion design.
- Deadalus: Excellent solution for travel beyond our sol
Re:I'm all for science/technology/astronomy but... (Score:2)
Re:I'm all for science/technology/astronomy but... (Score:4, Interesting)
Building a base on the moon is similar to that. It takes a little more delta-V to get to the moon. Don't have my notes in front of me, think its on the order of 11km/sec. But leaving the moon is only like 2-3 km/sec
My opinion? Rendezvous in LEO and shoot from there. Screw the moon. But that's just me. I like the brute force method.
-Philski-
Re:I'm all for science/technology/astronomy but... (Score:2)
Re:I'm all for science/technology/astronomy but... (Score:3)
The cost is only incredible if you're looking at a single-shot to the moon trajectory. An orbital rendezvous with reusable engines can drive those costs down significantly. Which is the plan of the CEV program [wikipedia.org]. Instead of misusing a super-booster to send a rather pathetic amount of material directly to the moon, boosters would be used to get the materials into orbit. Fro
By the ISS schedule... (Score:2)
Great if applied to other things. (Score:5, Funny)
Re:Great if applied to other things. (Score:5, Insightful)
This will never hapen in 10 years time with the current funding and emphasize placed on the space program. NASA simply won't get the money needed to get to the moon. It's only ment as a distraction from Iraq and to give the country something to rally behind. This way the conservative media can have talking points about what a visionary president we have. Bush seems really pre-occupied with creating a legacy. Taking on Social Security, The largest nation building exercise since WWII (Iraq), Return to the moon, Star Wars... So far his legacy isn't looking very good. Unfortunately , we will be the ones paying for his poorly managed projects.
What ever you do don't concentrate on Iraq.
Then & Now (Score:5, Interesting)
NASA today: "We will go to the moon in this decade... at the earliest. Maybe. But hey, don't hold your breath."
For real, how can it possibly take longer to do it again, if we already did it before? The R&D phase is over. We know what to do.
1) Build Saturn V
2) Put spaceship on top
3) MTV Flag
What, did we lose the Saturn blueprint or something?
Re:Then & Now (Score:2, Informative)
Re:Then & Now (Score:5, Informative)
The reason why the Saturn V *seems* useless is that the primary focus of the Apollo and Gemini programs was to develop the technology and execute a plan to reach the moon. If the Saturn V was still flying today, you can bet it wouldn't cost several billion dollars to get the ISS up there. We'd launch the stupid thing in two or three pieces, only minor assembly required. Compare that to the dozens of shuttle flights and Russian launches necessary to get the current structure up there. And it's not even done!
Re:Then & Now (Score:3, Insightful)
The Shuttle is a clever system, and it still has uses, but we put too many eggs in that basket. We should have been developing every possible alternative. Instead, we find ourselves indebted to the Russians for our continued prese
Re:How about this: (Score:3, Informative)
In the meantime, we should be abl
Re:Then & Now (Score:2, Funny)
Or did we? [google.com] Sorry, couldn't resist :D
Re:Then & Now (Score:2, Informative)
No. Urban Legend. The plans are still on microfilm
Re:Then & Now (Score:2)
No but most of the parts are no longer available. Things like specific nuts, bolts, gaskets, and electronics.
Also the blue prints are not cad drawings they are microfilm. So if where where going to build a new Saturn it really would be a new Saturn. It would have to be an almost complete new design.
Next is MONEY. The US just does not want to spend the kind of money it would take for a "crash" program. During the Apollo days many good programs where cance
The Difference (Score:2, Interesting)
Nowadays we don't have anything to prove. There's no motivation other than science. We can't reuse the Saturn V. Remember what the Saturn V put on the moon? A little tin foil lander, and a small buggy of a car. Not much effec
Re:The Difference (Score:3, Funny)
Re:Then & Now (Score:2)
Re:Then & Now (Score:5, Informative)
The Saturn V wasn't the only piece of technology we used. There's also the landing vehicle, the lunar orbitor, etc. We don't have any of those things laying around and the people, facilities, and processes involved in engineering them are dead, retired, or demolished. Kennedy's moon mission was just about getting there and bank so we could thumb our noses at the Soviet Union. Neener neener neener. If we go again, the mission is different. This time it's about conducting science and testing vehicles and technologies for taking us to Mars and beyond.
Kennedy's moon landings were a stunt for international bragging rights. If that's the only reason we wanted to go again, it'd be much easier. Also, we know much more about the hazards of space travel now, and have to re-engineer ships to deal with it. The attitude of this nation is MUCH different now than it was in 1960. Government regulations are far stricter, and the loss of crew is less acceptable (not that people ever ACCEPTED the loss of a crew but the flak NASA catches for it now is far worse than what they got 40 years ago).
Computer technology is different and probably incompatible with the hardware systems of those old monsters, and the launch facilities in Florida aren't big enough to launch a Sat-V anyway (they never were, either, the Sat-V had to be rolled out with its own tower).
So you can't just rebuild everything, it's not that simple.
Re:Then & Now (Score:3, Insightful)
The point I'm trying to make is that whipping up a design that passes all the relevent federal and NASA checks and balances for approval and human safety (don't you think our safety requirements are just a liii
politics on the moon (Score:3, Interesting)
Re:politics on the moon (Score:2, Interesting)
Right now, no one. Keep in mind that no one really "owns" anything. You own something to the extent that you can excert your force and defend something. Take a look at airspace. When the Soviets shot down a U2 spyplane from umpteen thousands of feet, they owned that airspace at that point.
When it comes to real estate, such as your house, you don't own the land...you own "rights" to the land (ie fee simple, leasehold, tenants-in-common) granted by the gov
Re:politics on the moon (Score:2)
What will replace the space shuttle fleet? (Score:4, Insightful)
Seriously. I recently returned from a tour in the middle east. Damn near everything is contracted out: food, showers, embarkation/debarkation. With an increasing number of viable "space" start-ups, it isn't hard to imagine that NASA hasn't announced a shuttle replacement because they're waiting for these guys (or gals) to come up with a cheap alternative that they can purchase time on.
You eliminate a large chunk of the paperwork when a sig on the dotted line passes the logistics to someone else.
Mind the oversimplification (Score:2)
You don't want Richard Branson [virgingalactic.com] lobbing stuff up 'there' randomly; there is a great deal of non-cheap stuff in orbit.
Then, if stuff comes down and wipes out the Marikina City Footwear Museum [bbc.co.uk], think of the international uproar.
That's why it's rocket science.
Why? (Score:5, Insightful)
For all of that effort (both in the initial build, and in the launch/materials costs for maintenance)...what do we get? Not much, even in terms of science.
I'd love for us to do more space exploration, but honestly, I think a really big station at L4 or L5 would be a much better idea. Locally stable gravitiational point, but not a deep gravity well, far less dust, very low g environment, etc.
It's not as sexy as the moon, but really...L5's the place to be, not the moon.
Re:Why? (Score:4, Insightful)
L5 is an excellent place to build...but you need something to build with. The moon is ideal for harvesting raw materials, due to its shallow gravity well and lack of atmosphere.
From Gundam Wing (Score:3, Interesting)
2) Build solar powered launch catapult.
3) Build space station.
Re:Why? (Score:2)
(Note: I admit that I'm extrapolating from just a few facts, but given the state of the lun
Re:Why? (Score:4, Insightful)
The most dust sensitive articles left on the moon (small mirrors for laser reflection) are still working just fine more than 30 years since a last de-dusting was possible.
Re:Why? (Score:5, Insightful)
http://gltrs.grc.nasa.gov/reports/2005/TM-2005-21
Also, the dust is far from a constant size, and is far more abrasive than you'll find here on earth, due to a lack of erosion mechanisms on the moon.
Re:Why? (Score:3, Interesting)
The Viking probes to Mars, which were designed/ operated in only a slightly later time frame had no such major troubles because they expected and acted on the dust. Mars is
Re:Why? (Score:3, Interesting)
Yeah right. A moon base and still no solid ISS? (Score:3, Insightful)
1) Develop a vehicle to get stuff back and forth from the moon, and
2) Put a permanent base on the moon?
Jehoozatz, if they can't do it in Earth orbit, how are they going to do it on the moon?
Re:Why? (Score:3, Insightful)
One of the great things about the moon is the lack of atmosphere. This means that when you move dust away from a place it will not return easily.
Sweepers, vacuums, or (GASP!) explosives could be used to remove the dust from a proposed build site. No more dust and no wind to bring it back!
Personally I think that he explosive idea is the best as any mechanical device would be subject to the same abbrasive damage that your proposed installation wou
Moon is a bad place to refuel for Mars... (Score:3, Interesting)
Secondly, Mars and the moon are going to be totally different kettles of fish to colonize. Mars has an atmosphere, thin as it is, roughly 24-hour days, and a bloody cold climate. The Moon has n
Back to the moon (Score:2, Funny)
space station? Or moon base? (Score:2)
We better invite the Russians (Score:3, Interesting)
Erm... (Score:5, Funny)
We don't know how we're going to get there or do what we want to do once we get there, but by god, we're going.
Great., NASA is run by PHBs.
again, why (Score:2, Insightful)
Publicity Stunt (Score:2, Insightful)
Significance of the statement (Score:2, Insightful)
Why? (Score:3, Insightful)
Seriously. Why?
NOTE:"because", "because it's there", "human curiosity/wonder", and other such pie-in-the-sky BS will not wash. Justifying the billions with "hey, look, we ended up with velcro last time" also doesn't cut it. Nor does "lots of people will be employed with those billions". I'm looking for clear, useful results; not pie-in-the-sky philosophical goodies and promises worthy of a campaign speech. It's a goddamn ROCK and I want to know why we should pay a LOT of money to send a bunch of egotistical people there.
I challenge thee, Space Fanboys of Slashdot.
Re:Why? (Score:2)
To learn how to make things that will work in space, to learn how to deal with the effects of long term spaceflight, and how to determine materials for worthiness.
Example: Neptune happens to be made from compound similar to natural gas. Would it be viable to have automated spaceflights to gather for "free energy" pas the cost of the rockets used? Having a gaseous planet provide limitless energy is a 'nice incentive'.
Also getting off of the single gravity well we exist
Re:Why? (Score:2)
Why eh? Ill take a stab at a troll..
I'm soliciting viewpoints. Not trolling. I'm dead serious. There's a difference, and dismissing me as a troll doesn't invalidate the question.
To learn how to make things that will work in space, to learn how to deal with the effects of long term spaceflight, and how to determine materials for worthiness.
What of the previous moon trip, Skylab, the russian station, ISS, the Shuttle missions?
Re:Why? (Score:2, Funny)
At least it would have solved a few problems now. Granted, it would have also created a lot more, but we'd never have to deal with software patents. ;)
Re:Why? (Score:3, Informative)
Actually, he didn't dismiss you. If he had, he wouldn't have bothered responding to your post at all.
True, but he did make the typical knee-jerk reaction of Slashdotters- which is to brand an unpopular or controversial opinion or question as being a "troll" just out for reactions. This is particularly so of what I call Space Fanboys, who think that any geek who isn't in absolute favor of space-ish things must be a heathen or troll. I DID post it to get opinions, and freely admitted so- I didn't do it
Re:Why? (Score:2)
Short answer, we shouldn't. Hear me out...I think we should spend a lot of money sending people with Low Self esteem there. Also, the process should be incomplete. Let them figure it out, let them finance it. It will give them confidence. Then we will show the world who has the "right stuff"
Re:Why? (Score:2)
NOTE:"because", "because it's there", "human curiosity/wonder", and other such pie-in-the-sky BS will not wash.
Well first answer me then we humans should do anything we do.
We can just sit around and wait until we die, or we could actually have goals as a species. One such goal would be to settle land away from this planet, and settling the moon is a clear useful result towards that goal.
Re:Why? (Score:4, Interesting)
Off the top of my head
- Manufacturing and heavy industry should really be moved off Earth; low-g doesn't offer quite the same cool possibilities that zero-g (okay, microgravity) does, but it's still possible to build things cheaper (locally) the less they weigh; more generally, pollution is less of a concern because, you know, the Moon has no air, no water, and no life. You can dump stuff in an empty crater and it either sits there if it's heavy, or sublimes off into space if it's light. And, of course, there's plentiful solar power.
- Various types of medicine and surgery, again, would benefit tremendously from low-g. Of course, for this to work, you have to find a way to move sick people off Earth that doesn't involve the crushing g-forces of current space flight
- Astronomy: the far side is just about the best possible place to build telescopes. Yes, better than L-5, because (again) the gravity is light enough to allow huge delicate structures, but it's still a planet, and building a long-term support base with local materials is a lot easier than hauling everything off into the middle of nowhere.
- Way station for future voyages. Other posters have mentioned the relative ease of building and launching interplanetary spacecraft on the Moon as opposed to Earth. Here's another benefit: the Moon has the lowest gravity of any place people are likely to live, which means that not only could visitors from Earth go there and be comfortable, so could those from Mars, the Jovian and Saturnian moons, etc. I can easily see the Moon becoming the Solar System's busiest hub for trade, diplomacy, and tourism.
Take two (Score:3, Informative)
John F. Kennedy Address at Rice University in the Space Effort September 12, 1962
President Pitzer, Mr. Vice President, Governor, Congressman Thomas, Senator Wiley, and Congressman Miller, Mr. Webb. Mr. Bell, scientists, distinguished guests, and ladies and gentlemen: I appreciate your president having made me an honorary visiting professor, and I will assure you that my first lecture will be very brief. I am delighted to be here and I'
More public interest for Moon instead of ISS? (Score:3, Insightful)
Not to spoil the nerdfest here... (Score:2)
Scientific American (Score:3, Interesting)
I've got mixed feelings about that viewpoint. I can't help but think the real problem is an aging, risk-adverse bureaucracy and fragmented goals. It's easy to argue all day about what is important or not. Personally, I'd like to see cost-to-orbit decreased by new technology. To me that should be the major national goal. Then the rest of these questions (which are really about money) would not be so pressing. But perhaps that is fixing the long-term problem instead of bickering over budgets today. And heck, that's no fun!
Why? (Score:4, Insightful)
This whole "To the moon" thing reeks of nothing more than a plan by our good buddy Jr. Bush to:
a) Distract everybody from the fact that his economy is crumbling and he's not doing so well in a very unpopular war, and
b) Develop an excuse to justify the weaponization of space.
Mod me flamebait, but all political discussions are flame wars and this announcement is way more about politics than it is about science.
Re:Why? (Score:3, Insightful)
It would take sincerity. (Score:3, Insightful)
Yeah, he's real dedicated to space. Mars/Moon is a boondogle designed to make Bush look like Kennedy. He wants to be a visionary without the annoying aspect of actually impleme
Misplaced priorities? (Score:4, Insightful)
We currently run a huge deficit. All economists tell you this isn't good for the country.
Our healthcare system is in shambles. It is shameful to hear that Cuba, that has had our economic sanctions for decades, still beats us in some specific medical fields.
Our education system is in disarray. Students are non-achievers these days. We are also un-able to attract bright students from abroad!
Out-sourcing is out of hand. We are exporting our manufacturing base. I hear that if the present rate continues, one-third of our entire defense equipment will be manufactured abroad.
Need I mention immigration? The illeagal immigrants do not pay into any social security system here. When this is going on, you then hear politicians saying that the syetem is nearly broke. Heck, it's nearly broke because not enough people are paying into the system...why?...because a good chunk of people are being payed "under the table".
Let me stop...I could go on and on. But our politicians have got their priorities wrong in my opinion. Do not be supprised to hear the following: "billions disappear at NASA!" or "NASA still dogged by technical problems despite billions"! Let's wait and see.
Re:Misplaced priorities? (Score:2, Offtopic)
Re:Misplaced priorities? (Score:3, Insightful)
The education system in America needs repair no doubt about it. I don't agree that we no longer attract bright students from abroad. I would say that a degree from a U.S. institution is still highly v
Re:Misplaced priorities? (Score:3, Informative)
Of course, I imagine England is similar, too.
The need for new designs (Score:4, Insightful)
That fine powdery moon dust turns out to be ridiculously abrasive. The moon happens to lie outside of the major influence of the Earth's magnetic field, so high energy charged particles are a big problem. Considering the setbacks to the shuttle program recently, I wonder if NASA has the budget to start new designs of this sort. Especially considering the fact that we spent enormous amounts of money sending men to the moon Kennedy style.
Even more, mention of setting up a base on the moon brings thoughts of even greater engineering, construction, and financial burdens. Sending a lander and a few go-karts to the moon is far easier than building a habitat that must withstand the dust, temperatures, and high energy particles. The maintenance required to keep things working on the ISS is tough enough, but throw it a quarter of a million miles away from the Earth on a ball of sandpaper and see how long it lasts.
This isn't to say I'm not optimistic. I truly hope that we go to the moon and begin building clusters of human life off of this rock we call home. We have all of our eggs in one basket, and the moon seems a good place to start diversifying. I just think that 2015 may be a bit overly optimistic with current budget restraints. (At least in the 60's we had some competition to try to bankrupt, and even then it took us until Reagan to finish the job)
Maybe another priority (Score:3, Insightful)
The biggest problem with moon exploration (Score:4, Insightful)
We have many major and serious problems on Earth now and are projected to have many more in the not-to-distant future. None of these problems are addressed by anybody's absurd space program.
I realize that this the least-receptive audience in the world for a rational discussion about the need of a Moon program, nevertheless you are all are really just going to have to used to the fact that there aren't that many people left who seriously share your vision of space exploration.
The Moon has been right above us for billions of years, and it will be there for billions of more years. It won't make any difference if we address more serious problems first and go back to the Moon in a hundred years or so from now. Nothing there is going to change.
This is not a troll; it's a serious challenge to the entire mind-set that there are valid reasons to spend billions of dollars on a Moon exploration program.
Can we really be ready in 2015? (Score:3, Insightful)
What it comes down to is that propultion technology has not really advanced that far. Sure, it's more efficient and fine-tuned, but it's not revolutionarily different. I mean, if all you have is chemicals, all you can do is tinker with what chemicals you use. The only revolutionary change will occur when we develop propultion technology that doesn't use chemicals.
Slashdot Commies Oppose Private Lunar Missions? (Score:4, Interesting)
Baldrson [geocities.com] writes "Peter Diamandis, originator of the Ansari X-Prize is now claiming private companies may beat NASA back to the Moon [space.com]: "In the next five to eight years we will have the first private orbital flights occurring. When you're in orbit you are two-thirds of the way to anywhere. I predict that within about three years of private human orbital flights...you'll have the first private teams of people stockpiling fuel on orbit and making a bee-line for the Moon." If Diamandis's math is correct and Bigelow's $50M America's Space Prize [space.com] is sufficient for orbit, NASA could set up an "Apollo Prize" for a lot less money than they'd spend themselves to return to the moon. Indeed, someone like Paul Allen could afford [salon.com] to endow such a prize if NASA gets too bogged down with funding cycle politics again [slashdot.org]."
Reality check (Score:4, Insightful)
Peak Oil? So what? (Score:2)
Re:In other news... (Score:3, Informative)
Add to that the outer space treaty and several other treaties that significantly limits any rights to claim land in outer space, and it's quite clear that this guy has no basis in international law at all.
Re:why not use the $ for universal healthcare? (Score:4, Insightful)