What changes has Obama made to NASA?

In summary: Constellation. They would have known that there was no chance of ever recouping the costs and ended the project before it became a total disaster.
  • #106
twofish-quant said:
I am mixing science and politics. There's no way that you can deal with issues like the space program without mixing science, politics, and economics.

Quoted out of context... :
MattRob said:
...(or more specifically, bending science to match political goals)...

twofish-quant said:
It's not. Airplanes are flying fuel tanks. They can get away with a lot because they don't have to carry oxidizers. The problem is that getting you to mach 0.9 at 6 miles is is pretty insignificant for getting you to mach 25 at 100 miles.

The idea is that it would have turbofans so it could fly back to a runway, with a fuel-efficient flight path and good choice of landing site, it wouldn't need to be a "flying fuel tank" because it wouldn't cruise across the Pacific Ocean purely using Turbofans like 747's do, it would just use them to climb. The idea is to take advantage of the fact it already has turbofans, and wouldn't it be more fuel efficient to use turbofans below ~40,000 feet than using rockets the whole way? Once it reaches ~40,000 feet, the mothership could ascend with rockets. There's no reason it can't carry rockets and jet engines. Most airliners carry engines in completely separate modules under the wings. And mixing two different types of engines worked with the B-36 Peacemaker in 1949, it's not exactly a large technical challenge. And wouldn't necessarily have to be limited to ~40,000 feet, the U-2 could cruise above 70,000 feet using turbofans, though I suspect that would require too much performance out of the jet engines for them to remain a modest weight.
twofish-quant said:
If you are holding liquid oxygen, then you have to deal with cryogenic fuels. You can deal with room temperature fuels but those don't have the energy content.

Liquid oxygen and Liquid hydrogen are in entirely different temperature ranges. Liquid Oxygen can be liquid at 90K (-297 *F), but Hydrogen boils at 20K (-423 *F). That's not it, either. Absolute zero is an asymptote, which means that half the temperature is far more than twice as hard to reach. Many metals become brittle well before the boiling point of nitrogen, 77K or -320 *F, so I can only assume it must be a great engineering challenge to find a material that is not only still malleable at the range of Liquid Oxygen, but at twice as cold as that. Then you have to build many, many moving parts out of it, turbopumps, valves, etc. and build the entire rocket assembly out of it, fuel tanks, pipes, and other bits. And finally, icing becomes even more of a problem. The insulation on the ET is only needed because liquid Hydrogen is so cold. If the Space Shuttle used RP-1/LOX, Columbia would not have happened, because much stronger insulation could be used, unlike the foam-like material needed for Liquid Hydrogen.

An aside, to illustrate the difference; You could pour liquid oxygen in a coffee thermos, put the lid on (careful not to screw it on), and it'd take it a day or so to boil off. As for liquid hydrogen, I have yet to ever see or even hear of it being stored in anything other than a thick, double-walled vaccum-insulated container.

twofish-quant said:
If you ask me the problem with Communism is that they assumed that people would act in different ways than they actually do. *OF COURSE* people will act for personal gain.

If you assume that people don't act for personal gain, you'll end up with a political and economic system that just doesn't work. There are no-doubt people that are self-sacrificing, but people that aren't in it for personal gain, rarely end up in positions of major political or economic power, because they are nice and get eliminated by people that are hungry.

Politicians want votes. Business people want money. Workers want bread and circuses, and scientists (being human) aren't more self-sacrificing than anyone else. Your typical scientist wants funding and glory so that they can papers written. If you get a group of senior scientists together, they'll start gossiping like old women about how they are trying to get funding for their university, and also who is "in" and who is "out".

The problem of getting people to the LEO or the moon is not a scientific problem. We've done it before. It's a business/political problem.

I couldn't agree more, but there is a difference in-between pressing an idea solely for political purposes and personal gain as opposed to doing it for the advancement of mankind, etc. The whole debate over the existence of altruism aside, there's a balancing point where most people fall, and scientific endeavors done because someone wants to make money aren't as successful as ones purely for the sake of science. If it's done to make money, then there are plenty of ways to "succeed" that would actually be failing when it comes to developing the technology. I.e, you don't need the technology to work, you just need to get money out of the whole deal (I believe this is called a scam.). It doesn't matter what technology it is, it's development can be marred in this way.
 
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  • #107
MattRob said:
The idea is that it would have turbofans so it could fly back to a runway, with a fuel-efficient flight path and good choice of landing site, it wouldn't need to be a "flying fuel tank" because it wouldn't cruise across the Pacific Ocean purely using Turbofans like 747's do, it would just use them to climb.

Pegasus does something like that. The useful thing about using an airplane as a first stage is that for light satellites you don't to create much special infrastructure, and you can launch on a moments notice. Which becomes really, really important if you are in the middle of a shooting war.

The trouble is that you save money only because the aircraft you are using is commercial off-the shelf aircraft, which limits your payload. If you want to launch something that can carry a human being then you have to develop the carrier aircraft, at which point your costs go crazy.

Many metals become brittle well before the boiling point of nitrogen, 77K or -320 *F, so I can only assume it must be a great engineering challenge to find a material that is not only still malleable at the range of Liquid Oxygen, but at twice as cold as that. Then you have to build many, many moving parts out of it, turbopumps, valves, etc. and build the entire rocket assembly out of it, fuel tanks, pipes, and other bits.

But this is a been there, done that sort of thing. We have the technology to work with liquid hydrogen, and it's not particularly difficult.

I couldn't agree more, but there is a difference in-between pressing an idea solely for political purposes and personal gain as opposed to doing it for the advancement of mankind, etc.

Less than you think. A lot of people that do altruistic things for the advancement of mankind are doing it so that they get the glory for doing something for the advancement of mankind.

The whole debate over the existence of altruism aside, there's a balancing point where most people fall, and scientific endeavors done because someone wants to make money aren't as successful as ones purely for the sake of science.

I strongly, strongly, strongly disagree. Projects that have no economic or political payoff tend to go nowhere at best or at worst become topics of rather petty political politicking. You really need some economic or political goal in order to "get stuff done."

If it's done to make money, then there are plenty of ways to "succeed" that would actually be failing when it comes to developing the technology.

And that's great. If you can generate wealth without developing new technology, that's wonderful. For LEO, we just have to stop thinking of things in terms of technology development and more in terms of a "space trucking" company. If you have some engineers start a trucking company, they'd be spending decades on AI robots that don't work, meanwhile the business guy just hires some strong people off the street to put the stuff into trucks.

Why the heck are we talking about spaceplanes when we have rockets.

I.e, you don't need the technology to work, you just need to get money out of the whole deal (I believe this is called a scam.).

It's called getting something done. Sometimes high technology is useless or counterproductive. Space travel is a case in point. We want to get stuff into low Earth orbit as cheaply as possible. If you are in this for "science" then you end up spending huge amounts of money on things that don't work, which means that you end up getting nothing done. Not that there is anything necessary wrong with that.

If you don't need technology to generate wealth, then don't use technology. McDonalds is an exteremely profitable business and they don't use much in the way of technology.

If you look at this as a business problem. You don't care if the solution is high tech, low tech, or no tech. You can just look at the Russians and copy what they do. For getting stuff into space, there isn't a need for massive technology development since the technology to do it is fifty years old. It's a process/efficiency/business problem, which is the type of thing that research labs and scientists are just horrible at.

It doesn't matter what technology it is, it's development can be marred in this way.

But what has killed the space program is the idea of technology for the sake of technology. The problem with high-risk technology is that sometimes it just won't work.
 
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  • #108
twofish-quant said:
But this is a been there, done that sort of thing. We have the technology to work with liquid hydrogen, and it's not particularly difficult.

But there's a reason SpaceX uses LOX-RP1. It's not too difficult, but whether it's cost-effective or not is questionable. Is the performance increase worth the increase in development AND construction costs, massively increased maintenance and complexity, which in turn makes more room for more accidents, as well as making the entire system more expensive? Apparently SpaceX doesn't think so.

twofish-quant said:
Less than you think. A lot of people that do altruistic things for the advancement of mankind are doing it so that they get the glory for doing something for the advancement of mankind.

[...]

I strongly, strongly, strongly disagree. Projects that have no economic or political payoff tend to go nowhere at best or at worst become topics of rather petty political politicking. You really need some economic or political goal in order to "get stuff done."

I purposely stayed off of the Altruism debate, that's more philosophical/personal... I didn't mean do projects with no economic payoff, if it makes services easier, makes society run smoother, then it will have economic payoff in a free market/capitalistic society. If it makes spaceflight cheaper, it will make money. But there's a difference in-between doing that and just making personal profit.
If the only objective was personal profit, I would be going into business, not a technical field.
If society was purely bent around profit, there would be a lot less science as a whole. I'm not saying science doesn't have applications, but a lot, and I do mean a lot of it would get cut out out of existence.

For example, how does studying the composition of distant stars make money? So should we cut off all of astronomy because it has no political or economic payoff? Aside from loose technological connections, the only things it's really turned out from a business perspective is pretty pictures that sell well. If everything was just to make a profit, say good-bye to any advanced physical research into the fundamental structure of the universe, 95% of astronomy, all unmanned space exploratory probes, and a lot more than that. Money could be better made by business ventures than space probes or learning a more advanced scientific understanding. This is why a government agency is needed to fund most of this, and government spending is needed to keep science going, aside from publicity donations or applied science. Pure science has no economic/political payoff in the short term, just like advanced space propulsion research. They're both pure science, only at least space propulsion is more promising for applications. I.e., from a purely economic perspective, these wacko space ventures have more right than pure science.
(Pure science meaning science for the sake of science, i.e. studying the expansion of the universe, trying to understand the fundamental structure of the universe, etc.)

twofish-quant said:
And that's great. If you can generate wealth without developing new technology, that's wonderful. For LEO, we just have to stop thinking of things in terms of technology development and more in terms of a "space trucking" company. If you have some engineers start a trucking company, they'd be spending decades on AI robots that don't work, meanwhile the business guy just hires some strong people off the street to put the stuff into trucks.

Why the heck are we talking about spaceplanes when we have rockets.
It's called getting something done. Sometimes high technology is useless or counterproductive. Space travel is a case in point. We want to get stuff into low Earth orbit as cheaply as possible. If you are in this for "science" then you end up spending huge amounts of money on things that don't work, which means that you end up getting nothing done. Not that there is anything necessary wrong with that.

If you don't need technology to generate wealth, then don't use technology. McDonalds is an exteremely profitable business and they don't use much in the way of technology.

If you look at this as a business problem. You don't care if the solution is high tech, low tech, or no tech. You can just look at the Russians and copy what they do. For getting stuff into space, there isn't a need for massive technology development since the technology to do it is fifty years old. It's a process/efficiency/business problem, which is the type of thing that research labs and scientists are just horrible at.
But what has killed the space program is the idea of technology for the sake of technology. The problem with high-risk technology is that sometimes it just won't work.

There's truth to doing whatever makes money, that's why it's nice NASA is working with private space companies now, but at the same time we should continue research into new technologies. Sure a new technology doesn't make money right now, but in the long run new tech does make things cheaper. You can drive down costs by making a rocket simple, but only so much. If you can develop a more efficient way of getting into orbit, then the costs can go even lower. If mankind is to ever really progress, we need those costs to go down. Manned spaceflight isn't purely economic, it's also about our progress and long-term survival as a species.

The problem is I-want-money-now type thinking is too common for people to really see something this grand and long-sighted, where a profit is to be earned it should be earned in spaceflight, but the ultimate goal is also building a better future for mankind and civilization as a whole. I expect that sort of visionary approach to be laughed at, but can anyone who has lived through Mercury, Gemini and Apollo really say it was a waste of money? People want progress. Technological as well as political.
If it means taking nine steps back for every ten steps forward, then it's still ultimately worth it. There will be a payoff to that technology for the sake of technology, just as sure as there's a payoff to knowledge for the sake of knowledge. They're both science for the sake of science.
 
  • #109
Also one should note that typically the cutting edge of pure science (be it mathematics, physics, chemistry etc) will often be in an engineering curriculum half a century (or maybe even less) later.

Even pure maths fits in this category (at least science even if pure is applied!). The best example I can think of in pure maths (besides cryptography) is with wavelets where the FBI uses them to store and detect matches with source fingerprints to other fingerprints in the database.

I think the nine steps back for every step forward is a good description of what happens in research of any kind. We have initial romantic views about accomplishing something but typically the progress comes after many many failed dead ends and by the end the researcher (or team thereof) is probably just happy to get some positive result and is probably exhausted by this time.

One good thing is that many entrepreneurs aren't focused on money, but instead by a burning passion to get something done. They stick it out and carry on with minimum capital and they have a kind of blind optimism that a money hungry investor would not have.

Fads and trends will always come and go, but I have no doubt that entrepreneurs with the right vision, tenacity, and hard work will face the problems that are being talked about and go forward with their venture anyway regardless about the projections that even experts put out there.

I understand when people say the problem is a financial, political, economic etc problem, but that's what entrepreneurs do: they start with a goal and they face problems, and they problem solve to get around them. People that solve problems reap their rewards and when the problem is something that was faced by segments of society, then they rightfully benefit a lot more.

If you got the right team of problem solvers in one room, you would do quite a lot and I dare say you could even surprise yourself with what you can accomplish.
 
  • #110
MattRob said:
Is the performance increase worth the increase in development AND construction costs, massively increased maintenance and complexity, which in turn makes more room for more accidents, as well as making the entire system more expensive? Apparently SpaceX doesn't think so.

True, but in another context it might make sense.

If the only objective was personal profit, I would be going into business, not a technical field.

Sure, but when you talk about personal stuff, money isn't everything. For me, I went into physics because it was fun and interesting. Not much to do with money, but it's still quite selfish anyway. Also, I like solving problems. At various points in my career, I got stereotyped into "pure technical" roles which I absolutely hated because I find that business and political problems are as interesting as physics ones.

One other thing is that if you just think about technical problems, you just aren't going to get that much done.

If society was purely bent around profit, there would be a lot less science as a whole. I'm not saying science doesn't have applications, but a lot, and I do mean a lot of it would get cut out out of existence.

If you look at what gets funded and what doesn't, it's mostly around profit. People fund science because scientists have been able to make the argument that if you spend money on science, you get useful toys out. If you want to see what the science would look like without this argument, look at a German philosophy or Medieval literature department.

For example, how does studying the composition of distant stars make money?

Well. it so happens that the energy mechanism that powers distant stars also is used in the 2000 or so hydrogen bombs that the US uses to maintain world domination. If it turned out that no one in the US knew how to make a hydrogen bomb, and lots of people in Iran did, bye, bye Saudi oil fields.

One thing that I saw first hand after the collapse of the Soviet Union, was the US paying large amounts of money to Russian astrophysicists to work in the US. Russia was broke, and the fear was that if the US didn't come up with money then the North Koreans or the Iranians would.

One of the things that a scientist can do is to go to a politicians and say "Give me money to work on stuff that I'm interested in. I can't tell you how you are going to make money from it. I don't even know how you are going to make money off of this. But based on past experience you will get money and power from this."

Astrophysicists can do this. German philosophers can't. That's why astrophysicists get money, and German philosophers don't.

So should we cut off all of astronomy because it has no political or economic payoff?

1) It's false. Stop funding astrophysics, and in a decade or two, no one in the US will know how to build an H-bomb

2) It's not a should question. If I can't go to a politician or voter and explain to them why they should give me their money, then they won't. It so happens that astronomy does have huge political and economic payoffs.

If everything was just to make a profit, say good-bye to any advanced physical research into the fundamental structure of the universe, 95% of astronomy, all unmanned space exploratory probes, and a lot more than that.

Nope. If you look at senior astrophysicists, they spend a good chunk of their time and effort going off to various people trying to "sell" astronomy. They've done a pretty good job at it. You sell something by playing on basic human emotions. Love, fear, anger.

Pure science has no economic/political payoff in the short term, just like advanced space propulsion research.

Pure science has a lot of economic/political payoff. The problem is that the payoff is too distant and uncertain to attract private funding.

But when we are talking about "space trucking" that's not in that arena.

(Pure science meaning science for the sake of science, i.e. studying the expansion of the universe, trying to understand the fundamental structure of the universe, etc.)

And the US started putting massive amounts of money in this starting in the 1940's to build better bombs.

Sure a new technology doesn't make money right now, but in the long run new tech does make things cheaper.

If you have a working economic system, which the Russians didn't.

You can drive down costs by making a rocket simple, but only so much.

Eat the low hanging fruit first.

I expect that sort of visionary approach to be laughed at, but can anyone who has lived through Mercury, Gemini and Apollo really say it was a waste of money? People want progress.

People don't necessarily want progress. Progress is sometimes annoying. Also being a visionary is fine, but you have to realize that you have to work with people with different visions. Getting enough people to agree with you on something is the "political problem."

There will be a payoff to that technology for the sake of technology, just as sure as there's a payoff to knowledge for the sake of knowledge.

Not necessary. See Russia. Great scientists. Lousy business people.

They're both science for the sake of science.

You are contradicting yourself. You happen to believe that putting money in science will ultimately help society. Personally I agree, but that's "science for the sake of helping society." The problem that you will run into is that a lot of problems just aren't science problems, they are political/economic/social problems, and if you ignore politics/economics/sociology, you'll end up with "pure science" which ends up being rather useless.

The Russians were really, really good at pure science. Best physicists in the world. The problem was that they also had a broken political and economic system which means that all of the breakthroughs in science didn't go to make better consumer goods.
 
  • #111
MattRob said:
The idea is that it would have turbofans so it could fly back to a runway, with a fuel-efficient flight path and good choice of landing site, it wouldn't need to be a "flying fuel tank" because it wouldn't cruise across the Pacific Ocean purely using Turbofans like 747's do, it would just use them to climb.
Won't work, at least not for any sizable payload. There is something to be gained for launching from high altitude, but the losses are huge. An aircraft capable of serving as the launch platform for getting people into space would have to be orders of magnitude larger than the largest airplane. Orbital does use a similar concept with its Pegasus rockets, but those are rather small rockets. Pegasus is very expensive in terms of payload mass to orbit and in terms of cost per kilogram to orbit.
 
  • #112
twofish-quant said:
We have the technology to work with liquid hydrogen, and it's not particularly difficult.
Liquid hydrogen is an absolute bear to work with compared to liquid oxygen. Liquid hydrogen is much colder than LOX and the tiny size of the hydrogen molecule makes LH2 systems prone to leaks. Issues with the liquid hydrogen system have caused ten different Shuttle launches to be delayed, starting with STS-30 in 1989, and ending with STS-133 (which hasn't launched yet). Liquid hydrogen is a high-tech fuel, complicated in the case of the Shuttle with its side-mount design.

The apparent improvement in specific impulse offered by LH2 as a fuel is to some extent illusory. Hydrogen's low density and cryogenic nature mandate a much larger, more massive fuel tank than is needed for non-cryogenic fuels. This reduces, but does not eliminate, the advantage of LH2 as a fuel.
 
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  • #113
@ An aside to D H, I have personal experience with that second part. Flew out to the Cape to see STS-133 launch. After going to Kennedy at least four times (one of which involved waiting in a rainy parking lot at 4am...), they had to push the whole launch back to February. Well, now it's February and I'll be leaving to Florida again tomorrow afternoon.

twofish-quant said:
Sure, but when you talk about personal stuff, money isn't everything. For me, I went into physics because it was fun and interesting. Not much to do with money, but it's still quite selfish anyway. Also, I like solving problems. At various points in my career, I got stereotyped into "pure technical" roles which I absolutely hated because I find that business and political problems are as interesting as physics ones.One other thing is that if you just think about technical problems, you just aren't going to get that much done.

The United States is nothing but the collection of 300,000,000 individual lives. And apparently everybody in the U.S. is willing to spend tens of times more money on Oreos than spaceflight, if you look at how the economy is.

I didn't say don't worry about economics. Chiro's post is a fine example of my point.

twofish-quant said:
If you look at what gets funded and what doesn't, it's mostly around profit. People fund science because scientists have been able to make the argument that if you spend money on science, you get useful toys out. If you want to see what the science would look like without this argument, look at a German philosophy or Medieval literature department.

Well. it so happens that the energy mechanism that powers distant stars also is used in the 2000 or so hydrogen bombs that the US uses to maintain world domination. If it turned out that no one in the US knew how to make a hydrogen bomb, and lots of people in Iran did, bye, bye Saudi oil fields.

One thing that I saw first hand after the collapse of the Soviet Union, was the US paying large amounts of money to Russian astrophysicists to work in the US. Russia was broke, and the fear was that if the US didn't come up with money then the North Koreans or the Iranians would.

One of the things that a scientist can do is to go to a politicians and say "Give me money to work on stuff that I'm interested in. I can't tell you how you are going to make money from it. I don't even know how you are going to make money off of this. But based on past experience you will get money and power from this."

Astrophysicists can do this. German philosophers can't. That's why astrophysicists get money, and German philosophers don't.

And the only problem with spaceflight is there isn't a long history of past experience. Projects are expensive and take a long time, so this history won't develop for a long time, and in order for it to develop at all people need to be able to say that. It's sort of like a Catch-22, making it difficult for government, and nigh impossible for private. Also, these arguments for getting useful tools out of these projects in the long run - can all be applied to defend advanced propulsion research in manned spaceflight.

twofish-quant said:
Nope. If you look at senior astrophysicists, they spend a good chunk of their time and effort going off to various people trying to "sell" astronomy. They've done a pretty good job at it. You sell something by playing on basic human emotions. Love, fear, anger.

Manned spaceflight -> Hope.

twofish-quant said:
Pure science has a lot of economic/political payoff. The problem is that the payoff is too distant and uncertain to attract private funding.

But when we are talking about "space trucking" that's not in that arena.

My reply is simply that there's a department for getting the job done, and a department for improving the job in the future. Computer companies don't just either sell computers or make them better, they sell them and make them better. There's no reason "space trucking" shouldn't be in that area.

twofish-quant said:
Eat the low hanging fruit first.

Low hanging fruit being what SpaceX is doing. Researching advanced designs would be planting crops. You can get by fine without planting crops, to some extent, but planting crops makes the difference in-between a primitive nomadic society and civilization as we know it.
You can get by without it, but to really thrive you have to invest in the future. Even if it isn't quiet as easy as we thought, the future of a plentiful, easy harvest everyone can enjoy is sure to come if we keep on planting. But only if we keep on planting.

twofish-quant said:
You are contradicting yourself. You happen to believe that putting money in science will ultimately help society. Personally I agree, but that's "science for the sake of helping society." The problem that you will run into is that a lot of problems just aren't science problems, they are political/economic/social problems, and if you ignore politics/economics/sociology, you'll end up with "pure science" which ends up being rather useless.

The Russians were really, really good at pure science. Best physicists in the world. The problem was that they also had a broken political and economic system which means that all of the breakthroughs in science didn't go to make better consumer goods.

My point is that science for the sake of science will ultimately help society. I think that's something we can all agree on, but I go a step further and say: Especially when it comes to designing vehicles to make LEO cheap. And I'm not saying to ignore the current economic/political situation, we still need SpaceX and their cheap LEO systems, but we also need to keep looking at how we can make manned spaceflight even cheaper than what's possible with current technology.

You don't put all of your money into improving your product or selling it. You put money into both. And there's no reason we shouldn't do the same for manned spaceflight, it's a product like any other. It's a product currently being paid for by the people of the United States as a whole. (NASA, specifically) It's a product that should ultimately one day be much cheaper and more easily available than it can ever be with current technology. The point of the "improving the product" is being underplayed. The "selling it" is what NASA is doing with SpaceX. If we are to ever achieve the ultimate dream of human spaceflight, then the only way to do it is to invest in the future. You can't expect to reap a harvest if you haven't planted any corn. It will never come if we just sit back without investing in it and expect it to happen on it's own.
 
  • #114
MattRob said:
The United States is nothing but the collection of 300,000,000 individual lives. And apparently everybody in the U.S. is willing to spend tens of times more money on Oreos than spaceflight, if you look at how the economy is.

And that's because they get bombarded by commercials about how good Oreo's taste. Get some money, hire some of the people that sell Oreo's and have them sell manned space flight.

And the only problem with spaceflight is there isn't a long history of past experience.

We've been doing it for fifty years. That's plenty of experience.

Projects are expensive and take a long time, so this history won't develop for a long time, and in order for it to develop at all people need to be able to say that. It's sort of like a Catch-22, making it difficult for government, and nigh impossible for private.

From a project management standpoint, sending people into LEO isn't any worse than designing an airliner, rolling out a new car, drilling for oil, or putting out microchips. Private companies are willing to spend billions of dollars doing those things.

Also, these arguments for getting useful tools out of these projects in the long run - can all be applied to defend advanced propulsion research in manned spaceflight.

Which I'm all in favor of. What I'm against is using untested technology to do things in the next ten years. When making plans out to 2020, we have to use tried and true technologies and then do what we can to beat down the cost of getting into LEO. Once we get to 2020, we can see what technologies are promising, and then figure out what to do for the next ten years.

I have nothing against blue sky research. What I'm very strongly against is holding the US space program hostage to that sort of research. I'm also very strongly against "not invented here." One thing that helps the Chinese space program is that people in China are not afraid to copy the US or Russia when the US or Russia just does things better. One problem that the US has to realize is that it's not number one in manned space flight (Russia is), and China has a plan that "makes sense." India should get in the game before the decade is out.

My point is that science for the sake of science will ultimately help society. I think that's something we can all agree on

You and I agree on this. Other people might not. The other thing about money is that it's a good sign to see what people really believe. Someone might *say* they they are for science, but talk is cheap. You find out what people really believe when you see what they are willing to pay for, and people don't believe that science will help them that much based on funding levels.

And in any case once you argue that you should be funded for the sake of helping society, you then have to ask questions about *which sciences* should be more funded. One dollar that goes into space research means less money that goes into biotech research.

And I'm not saying to ignore the current economic/political situation, we still need SpaceX and their cheap LEO systems, but we also need to keep looking at how we can make manned spaceflight even cheaper than what's possible with current technology.

Sure, but I'm saying that none of that will matter before 2025, and if you ignore the short term, you'll never get to the long term. The big danger is that if the US doesn't keep a presence in space right now, then it's not going to have the technological infrastructure to do anything with advanced propulsion even if we find something.

And then there is a good chance that we'll roll snake-eyes and there *won't* be any advanced propulsion techniques that work. If you have things like SpaceX, then the US is still in the game. If you ignore those then the US has nothing.

And then it boils down to dollars and cents. If you want to spend $10 million on scramjet research, that's great! If you want to spend $10 billion, then we have a problem.

The "selling it" is what NASA is doing with SpaceX. If we are to ever achieve the ultimate dream of human spaceflight, then the only way to do it is to invest in the future.

We've been sending people into space for fifty years. We've achieved human spaceflight. The question is now what.

Also, Americans have this unfortunate habit of thinking that the US is the world. I have no worries about *human* spaceflight. Russia and China have sent people in LEO. China apparently has a plan to get people to the moon. India is planning on something before the end of the decade. And there are about a dozen nations with the technological infrastructure to send people into LEO if they wanted to.

I'm very worried about *American* manned space flight. That's a totally different issue.

You can't expect to reap a harvest if you haven't planted any corn. It will never come if we just sit back without investing in it and expect it to happen on it's own.

You have me confused with someone else.

I'm not saying that we shouldn't spend money on weird technology. I'm saying that we shouldn't expect to weird technology to rescue the US manned space program. Any advanced propulsion system is not going to be ready for prime time before 2020, and when we first use scramjets, we should expect some things blowing up from time to time.

What I'm saying is that advanced propulsion will not save the US manned space program.
 
  • #115
MattRob said:
My reply is simply that there's a department for getting the job done, and a department for improving the job in the future. ... Low hanging fruit being what SpaceX is doing. Researching advanced designs would be planting crops.
NASA does do research into new propulsion techniques. Neither twofish nor I have said that NASA should stop doing that. What both of us have said is that it is a very bad idea to prematurely push a new technology as the one big hope for the future.

Trans-atmospheric vehicle / scramjets is, IMO, the prototypical example of a new technology pushed before it was ready for prime time. Absolutely huge amounts of money have been spent on this technology, more than ten billion dollars for the X-30 National Aero-Space Plane program alone, with very little to show. (Not quite: The X-30 research did show that getting past Mach 10 would be extremely hard; getting past Mach 17, not possible.)

On this forum and on others, people perpetually ask "Why isn't NASA using technology X," substitute "technology X" for scramjets, nuclear propulsion, laser propulsion, space elevators, launch loops, rail launchers, etc. (pick your poison; they've all been discussed). The answer is that while NASA is doing/supporting research into all of these technologies, not a single one of these is anywhere close to being ready for prime time. Most of these never will be ready for prime time. Which ones will be? There's no telling. A quote by Einstein is very applicable here: "If we knew what we were doing it wouldn't be called research, would it?"

You mentioned Space X. Space X was founded in 2002. It flew its first rocket in 2008, and only just recently flew its first rocket capable of going to the Space Station. Note that this latter flight was more than two years late; replicating 50+ year old rocket technology is not as easy as Musk originally thought it would be. Launching a vehicle with people on it will take a few more years, maybe quite a few more years. That's a ten to fifteen year time span just to bring extremely well-known technology up to snuff, and that is by a hard-nosed entrepreneur who knows very well how to squeeze schedules, people, and pennies.

Think about that last sentence in terms of how long would it take to bring an unknown technology up to snuff by a squishy-nosed government project manager who doesn't have control of the budget and who is subject to undue meddling by NASA HQ and by congresscritters. (Regarding this last term: The general public rates congresscritters as only slight worse than used car salesmen. I have an even lower opinion.)
 
  • #116
D H said:
That's a ten to fifteen year time span just to bring extremely well-known technology up to snuff, and that is by a hard-nosed entrepreneur who knows very well how to squeeze schedules, people, and pennies.

The good news is that 1) it's cheap and 2) it's known that it can be done. That means that even with all of the problems, the project doesn't get cancelled. It's costing more and taking longer than expected, but it's still within the founders financial capacity, and since it's their money, they don't have to answer to congresspeople about wasting it.

Think about that last sentence in terms of how long would it take to bring an unknown technology up to snuff by a squishy-nosed government project manager who doesn't have control of the budget and who is subject to undue meddling by NASA HQ and by congresscritters.

And to be fair, NASA HQ and congresscritters are doing their jobs. If you want something done efficiently you have to go "lean and mean." The trouble is that if you are dealing with billions of dollars rather than millions of dollars you just can't go "lean and mean" since you need large numbers of people to track the money and large numbers of people to do bureaucratic/management type things. Big projects like Apollo are really hard because you can't avoid bureaucracy in multi-billion dollar programs, but at the same time, bureaucracy can kill the project.

The trouble is that "production system" and "research system" don't mix. If you really want funding for scram-jets, what you need to do is to go up to Congress and say honestly, "this is pure research, it could by the next big thing, but there is a 98% chance that it will led to nothing useful". For that, you can't get a billion, but you might be able to squezze out $10 million that will let you fund a "lean and mean" skunk-works project. At the end of five years, you can then go back to Congress and say either "we'll we learned that X won't work give us another $10 million to study something else" or "we found that it does work, now give us $10 billion to put this into production."

(Regarding this last term: The general public rates congresscritters as only slight worse than used car salesmen. I have an even lower opinion.)

Curiously enough, I have a much higher opinion of Congress-people. Once you see how the world looks like to them, a lot of what they do makes sense, and I sort of understand and sympathize with how the world looks like to them.

Part of the reason I'm sympathetic to Congress-critters, is that I've had to do "political stuff." If you go up to someone and sub-consciously you are thinking "X is an idiot and I hate him", most people will catch on very quickly and then stop listening to you. This is especially true for politicians that have a sixth sense for what people are *really* thinking, not just want they are saying. If you want to influence someone, you have to at least understand their view of the world.
 
Last edited:
<h2>1. What changes has Obama made to NASA?</h2><p>Under Obama's administration, NASA has undergone several changes, including a shift in focus towards deep space exploration, increased collaboration with international partners, and a greater emphasis on Earth science research. Additionally, Obama signed into law the NASA Authorization Act of 2010, which outlined the agency's goals and budget for the next several years.</p><h2>2. Has Obama made any changes to NASA's budget?</h2><p>Yes, Obama's administration increased NASA's budget from $18.7 billion in 2008 to $19.3 billion in 2017. This allowed for the development of new spacecraft, such as the Orion spacecraft and Space Launch System, and the continued support of ongoing missions and research.</p><h2>3. What impact did Obama's changes have on NASA's human spaceflight program?</h2><p>Obama's changes to NASA's human spaceflight program focused on transitioning from the Space Shuttle program to a more sustainable and cost-effective approach. This led to the development of commercial crew transportation systems, such as SpaceX's Crew Dragon and Boeing's Starliner, as well as continued support for the International Space Station.</p><h2>4. Did Obama make any changes to NASA's relationship with international partners?</h2><p>Yes, Obama's administration emphasized international cooperation and collaboration in space exploration. This led to partnerships with countries like Russia, Japan, and Canada on projects such as the International Space Station and the James Webb Space Telescope.</p><h2>5. How did Obama's changes impact NASA's Earth science research?</h2><p>Under Obama's administration, NASA's Earth science research received increased funding and support. This allowed for the development of new satellites and instruments to study our planet's changing climate, weather patterns, and natural disasters, as well as the implementation of programs like the Earth Observing System Data and Information System (EOSDIS) to make this data more accessible to the public.</p>

1. What changes has Obama made to NASA?

Under Obama's administration, NASA has undergone several changes, including a shift in focus towards deep space exploration, increased collaboration with international partners, and a greater emphasis on Earth science research. Additionally, Obama signed into law the NASA Authorization Act of 2010, which outlined the agency's goals and budget for the next several years.

2. Has Obama made any changes to NASA's budget?

Yes, Obama's administration increased NASA's budget from $18.7 billion in 2008 to $19.3 billion in 2017. This allowed for the development of new spacecraft, such as the Orion spacecraft and Space Launch System, and the continued support of ongoing missions and research.

3. What impact did Obama's changes have on NASA's human spaceflight program?

Obama's changes to NASA's human spaceflight program focused on transitioning from the Space Shuttle program to a more sustainable and cost-effective approach. This led to the development of commercial crew transportation systems, such as SpaceX's Crew Dragon and Boeing's Starliner, as well as continued support for the International Space Station.

4. Did Obama make any changes to NASA's relationship with international partners?

Yes, Obama's administration emphasized international cooperation and collaboration in space exploration. This led to partnerships with countries like Russia, Japan, and Canada on projects such as the International Space Station and the James Webb Space Telescope.

5. How did Obama's changes impact NASA's Earth science research?

Under Obama's administration, NASA's Earth science research received increased funding and support. This allowed for the development of new satellites and instruments to study our planet's changing climate, weather patterns, and natural disasters, as well as the implementation of programs like the Earth Observing System Data and Information System (EOSDIS) to make this data more accessible to the public.

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