New Space Propulsion System Uses Sun's Magnetic Field 124
0b1 writes "ABC Science News has an interesting article on a new space propulsion system, that may beat voyager to the edge of the solar system." Fascinating. Seems like a lot less hassle than a light sail. For a little more info about this and other proposed "no propellant" space propulsion systems, check this NASA page. Lots of interesting concepts, all unfortunately still at the "dream" stage of development.
Re:Voyager... (Score:2)
OSM (Score:1)
The OSM is more of a conduit for space access. someone could start a business repairing satellites, and go through the osm to get up there. Similarly, any person who wants to take part in building the new frontier can go. And even organizations like artemis could hitch a ride with the OSM. Thats how I see it.
The 'open source' aspect of this will be applied to the engineering. The OSM web site will allow people to submit designs and work with existing ones in a bazaar fashion. The good ideas will get picked up on, and eventually one idea will be decided upon as the vehicle of choice to carry us up into orbit. (I already have a fairly solid idea if anybody wants to hear it - pmarsh@alaska.net)
expect to see the OSM site up and running soon. I would have finished it sooner, but im crap with web design.
open space (Score:1)
I say this with feelings of despair and impotence: It seems that the entire future of space colonization is in such a 'dream' state. Sure, its nice sending out probes to give us information a decade down the road, but do we really have to wait that long before we go?
To put it succinctly, I want to be a space pioneer. Im sure a lot of other people want to as well.. I often see people talking about how they long for a trip to space, and wish that they could do something about it. I think that the time is ripe for a revolution..
I propose this: an organization that imitates the model of any open source software project, with the goal of designing and ordering the construction of the hardware necessary to get people into space, and plan out missions to which this organizaiton will devote its resources. Essentially, we design it, we have it built, we pay for it, and we fly in it. Sound plausible?
This is the project that I am undertaking, which I call the 'Open Space Movement'. Currently, its in an experimental stage; I dont know how many people would go for this. I am constructing the website to this, which would serve as a forum and drawing board for those interested. (i do need help with perl/sql/html through.. if anybody is interested in helping)
If anybody wants more info on this, contact me at pmarsh@alaska.net
Some Realistic Propulsion Alternatives (Score:1)
Just a few concepts, none of which seem more than a century away. . .
Re:Sun's? (Score:2)
Having said that, a Microsoft spokesperson is apparently going to announce that ActiveField will be integrated into Windows 2000.
C-SPAN (Score:1)
This is getting scary... it's like C-SPAN's weekly coverage of UK Parliament and
Seriously, I think conversation here would benefit from a little more courtesy like the above post.
I yield the floor.
_damnit_
Re:open space (Score:1)
We should concentrate on setting up an industrial and agricultrual infrastructure around the earth and moon before we head after the other planets. Once we get the ball rolling, it wont be long before everybody and their uncle has their own cheap spacecraft
Re:solar cells? (Score:1)
Because RTGs attract loons.
Re:Would still work? (Score:2)
If a field can be generated which is not a sphere, the distortion may generage some sideways motion. But then the sail would have to be turned off for a while to allow the Sun's gravity to slow the ship's away motion, thus leaving the sideways motion.
If an off-center sail can be created which has no more outward force than the Sun's gravity, the resulting sideways force would dominate. But it won't provide as much acceleration as running with the wind with all sheets out.
Re:Yes, but what can this actually achieve? (Score:2)
If there was any way to tack, then you might be able to exploit the interstellar wind to get just a little bit more acceleration.
Forget the sails... let's talk about the tethers (Score:1)
What's more interesting are the tether systems that they talk about later in the article. We're talking about a practical, propellant-free (we'll ignore the corrections for tidal pull) transit system for getting things to the Moon and back quickly, and Mars and back in what I would consider a reasonable trip (for the time being). Not to mention the ability to cheaply rid the sky of all our LEO trash.
With a reliable and cheap transit system to the moon, we can actually work on building a moon base that can be used for low gravity work and for staging deep space missions. Combined with the international space station, it'll really give space exploration a boost. Same thing goes for Mars. Who knows... with the ability to do long term low-gravity research, we may be able to develop the propulsion system we need to make the next jump.
-Todd
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Angular momentum (Score:1)
Re:First things first! (Score:1)
Duck! Flying toilets! (Score:1)
These 'toilet seats' were in fact one-piece molded toilet _stalls_ for use in B-52 bombers. Imagine a flying porta-john, if you will, now mil-spec it and only order a couple dozen. I'm amazed it only cost $1000.
The "$1000 toilet seat" myth sticks around mainly because it's fun to make fun of the DoD.
Re:Some Realistic Propulsion Alternatives (Score:1)
>behind The Andromeda Strain (Michael Criton?).
This exact plan, with a few differences, was the idea behind Clarke's "The Songs Of Distant Earth." One of my favourite books, actually.
Yeah, Michael Crighton wrote "Andromeda Strain". One of the two books he's written that I actually enjoyed, the original Jurassic Park novel being the other one. I remember reading Jurassic Park about a year before the movie came out... better in print, I think.
0.05c? You're dreaming! (Score:2)
Unfortunately, the top speed achieved here is more like 0.0025 c
This is easy to work out -- light speed is ~300,000kM/s and the solar wind is ~1000kM/s. As you can see it's a long way off.
We'd still need a plasma drive of some sort to provide continuous acceleration -- this collector is a start in that direction but it's not yet there.
Re:Wouldnt this just push you away from everything (Score:2)
And I won't mention setting off a fusion explosion nearby so your sail can get a kick from that...
Practicality of Solar Sails (Score:1)
Solar Sails are:
- Extremely efficent: no reaction products need to be carried up, and no fuel is needed.
- Light: Very important in deployment concerns, where weight=money. Sail material is often Mylar or Kevlar, which is much lighter and more stable than rocket fuel.
- Nonexhaustive: The sun is always there. I suspect the solar wind tapers off as you get further out, but if you are going out of the system anyway, you're probably going to need some other form of propulsion.
Solar Sails are not:
- Easy to deploy: You need a great amount of sail area to obtain a decent acceleration, and all that sail has to be brought into orbit and unfolded somehow. This NASA solutions tries to solve this big problem.
- Quickly Accelerating: You won't pull huge numbers of g's with a solar sail, but the important thing to remember is that they provide (relatively) constant slow acceleration over a long period of time, as opposed to a quick acceleration over a short period of time. In the end, they achieve the same result in about the same time frame.
- Active: Control of thrust must be achieved through manipulation of the sails, and not manipulation of the thrusting medium, as opposed to a liquid rocket, where thrust can be controlled by adjusting flow and mixture. Once again, maybe by varying the strength of the magnetic bottle, NASA can achieve more active control.
Seems reasonable to me, especially with the NASA improvements.
I wonder if you could somehow reverse the polarity on the magnetic bottle and use the wind to pull the craft in towards the sun.
Re:Changing directions (Score:1)
Re:Practicality of Solar Sails (Score:1)
Not possible. The reason it is efficient is that it doesn't expend any energy to get the propulsion (apart from dissipative losses in maintaining the magnetic field). The solar wind will only push the craft away from the sun. Too bad. You'll just have to slingshot around some planet if you want to get back.
Re:open space (Score:1)
Vote for representatives who fund NASA!
Other uses for thed field... (Score:1)
Just wait (Score:2)
/* We can't get through ONE topic around here without a Microsoft shot, can we? */
RCA 1802/1804 derivative (Score:1)
Re: Pioneer 10 alive and well. (Score:1)
mike
Re:Some Realistic Propulsion Alternatives (Score:2)
Essentially, you'd need a number of very powerful lasers and the solar system's biggest Fresnel lens, both of which would remain in the system and provide power to the craft. The light pressure pushes the sail at a reasonable speed to wherever.
Eventually when you need to switch from accelleration to decelleration (so as to remain in the destination system), the main body of the sail detaches from the payload (which retains a smaller sail, pointing in the opposite direction). The main sail then deforms just enough to focus a lot of light at the small sail. This slows down the ship for an insertion orbit into the system.
It's interesting, but would require a hell of a lot of engineering work to build. On the plus side that laser would probably keep alien invasions at bay.
Re:light sails are a pipe dream (Score:1)
This vs. chemical propellant (Score:1)
For those who have asked "how do you return", a few people have pointed out that you can slingshot around a planet to change your direction. But in practice, you don't bother: With most (all?) deep space probes the only things that get sent back are radio signals.
It's still way too slow for interstellar travel, but this technology might be used to more cheaply explore our own solar system. But given the slow acceleration rate, I wonder if regular chemical propellant would still be better for nearby planets.
Does anyone know at what distance this would become faster and/or more cost-effective than chemical propellant? Could it be used for an unmanned trip to Mars, or would chemical propellant still be the better choice? What about Jupiter?
Re:Yes, but what can this actually achieve? (Score:1)
use solar wind to push a probe out to the fringes of the solar system... then kick in the ion propulsion engines, and you're off to the races. Saves a _lot_ on power that could be better used once you've reached the end of the sun's influence.
And unlike solar sails, it's a hell of a lot easier to turn of a field than it is to crumple back up a mylar sheet. Most people can barely get their tents back into the bags... bow to you expect a space probe to do it?
- Greg
Re: Pioneer 10 alive and well. (Score:2)
(Mind you, there wouldn't seem much point to it, given that a craft carrying the parts could equally carry instruments and do the work itself. On the other hand, getting Pioneers 10 and 11 in fully-working order would be neat, and worth it for the coolness quotient.)
Solar sail races? (Score:2)
There was tonnes of stuff about it in Scientific American, and then... ...nothing. Silence. It was somewhere between the surreal, a conspiracy theorist's wildest dream, and a monumental botch-up by someone.
Re:First things first! (Score:1)
all Go, no Stop (Score:1)
I wonder how it can head cattycorner to the wind?
I wonder how it can tack?
It has no keel like a real sailboat has. The counterforces developed by the keel is what enables sailors to sail in directions the wind is not going.
All in all, an interesting idea and one with lots of potential. Even if the only thrust possible is radially outward from the sun.
Re: Pioneer 10 alive and well. (Score:1)
Plus, that way when we DO get FTL travel, some smart ass won't try to vandalize them.
This technique still requires big solar arrays (Score:1)
The amount of power in sunlight is roughly 1400 Watts per square meter, divided by the square of the distance from the sun (in AU). Thus, at Jupiter's distance, the power is down to about 50 Watts per square meter. If the panels are 100% efficient, they must be about 4.5 meters on a side to produce 1 kiloWatt. Real panels are more likely to be about 25% efficient; thus, one needs panels about 9 meters on a side to provide a single kiloWatt. If the "few" kilowatts mentioned is really 4 kiloWatts, the panels would need to be about 18 meters on a side. That's getting pretty darn big -- and, of course, more massive, decreasing the acceleration of the craft.
At the distance of Saturn, about 10 AU, the panels need to be twice as long on each side to provide the same amount of power.
Solar panels + magnetic fields might work in the inner solar system, but it won't provide much oomph in the outer solar system. A ship could accelerate to a high speed before reaching Jupiter, say, but it would be unable to use its magnetic system to slow down as it passed Neptune or Pluto.
Re:not your idea though, saw it on a tv show once (Score:1)
I believe that one of the books was entitled 'The Fountains of Paradise'.
Re:One foot after the other (Score:1)
<TROLL VERACITY=TRUE>Besides, given current technology, manned space is a waste of money. That's why the NASA budget cuts are doubly criminal - cutting basic science, but NOT the space station.</TROLL>
Re:Voyager... (Score:1)
Re:DOH!!! (Score:1)
Brilliant. Someone moderate this *way* up!
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Heliopause (Re:Voyager...) (Score:1)
I was watching the great BBC series The Planets last night on ABC Australia, and it was the episode on the Sun. This is great series btw, very approachable.
The interviewees described what they think was the heliopause interacting with a coronal mass ejection. Voyager 2 monitored the CME pass at +100 days from the Sun, and then it monitored a massive magnetic disturbance at +400 days. So NASA thinks that the heliopause caused this disturbance, and it's approximately 4 times the distance from sun as Voyager is now, which means that Voyager will meet the heliopause in another ~ 60-65 years (uncertainty on my part - Voyager accelerated every time it bypassed a planet, but hasn't since Neptune), as it has been travelling for 22 years now.
I don't know if the RTGs or Voyager itself will survive that long.
Re:Yes, but what can this actually achieve? (Score:1)
Re:open space (Score:1)
The new designs call for a in-ship recycling center....water, air, waste, all recycled....and you grow your food....no more packaging.
Its all live off the land...even while traveling thru space.
I've got a signed book from Zubrin....he is brilliant and I would like to see both Mars and the moon colonized within 30 years....think we can make it happen?
Re:RCA 1802/1804 derivative (Score:1)
Check out the minutes of the Pioneer 10 Virtual Conference [nasa.gov] for more details.
mike
Wake me when we get there.... (Score:1)
Sun's? (Score:1)
After all, the total magnetic disturbance from all those unsold copies of BoB (on floppy) would be phenomenal....
First? Nah.
DOH!!! (Score:1)
Re:Yes, but what can this actually achieve? (Score:2)
It can be VERY useful. Suppose you want to send a probe to Saturn. Launch it normally, use M2P2 to propell it to Saturn at a low cost. Braking can be done using the same aerobraking manouver used for the Mars mapping probe (whose name escapes me at the moment). Now, it is moving as slowly as they want it to be (within orbital mechanics of course).
Voyager... (Score:1)
And is it still sending data/pictures back to us? That'd be a cool webcam site!
(Please, no lame Trek jokes!)
Yes, but what can this actually achieve? (Score:1)
It's powered by the solar wind, which means that it's not going to get you very far interstellar wise, and I'm sure scientists prefer slower craft to study the planets.
So while I'm sure it's a good idea, I'm just wondering what _practical_ use it has. (and yes, I know all about the supposed lack of practical uses of flight etc
At least their acronym doesn't rip off Star Wars *grin*
DOH!!! (Score:2)
A few points (Score:1)
Re:DOH!!! (Score:1)
One thing I wondered about is the article is dated April 8th
Re:Wake me when we get there.... (Score:1)
Of course, that assumes it accelerates instantly and never has to slow down for entry. Which are not the case. It also assumes a straight line trajectory, which wouldn't happen.
Still, even if you half the speed and triple the distance you've got a trip time of only about 7 weeks. It's a vast improvement from the current 6-7 months trip time.
More in-depth article available (Score:2)
Re:Yes, but what can this actually achieve? (Score:1)
Re:DOH!!! (Score:1)
Pioneer (Score:1)
Correct me if I'm wrong, but hasn't Pioneer made it out already?
Question about Deceleration and Moving Toward Sun (Score:1)
1. Assuming that you were moving straight out (that is, away from the sun), how would you decelerate, other than aerobraking or some other technique (i.e. how could you stop at an arbitrary point)?
2. In sailing, you can move into the wind by tacking - but that relies at least somewhat on the keel. How could one move in a similar fashion in space?
-Josh
Re:Yes, but what can this actually achieve? (Score:1)
With this technology Vlassic can corner the market on interplanetary pickle shipments...
Re:Yes, but what can this actually achieve? (Score:1)
Close up readings of another Star in our life time == good thing.
The "chunky salsa" problem (Score:1)
What I'd Like to see (Score:1)
Sail: Small Manageable
Power: Solar radiation focused through a lens.
'Course there's always positional alchemy.
Take two quantum fluctuations, big ones. The disturbance of space-time in one area equals the disturbance of space-time in the other in mass and form. Preserving form is the hard part.
One must avoid trying to create singular quantum events or you'll be sorry.
Ok so it's fast... (Score:1)
Re:Pioneer (What kind of computer?) (Score:1)
Does anybody know what type of computer the Pioneer and Voyager craft contain? I can't seem to find this level of detail on any of NASA's web sites.
mike
Re:Ok so it's fast... (Score:1)
Replace the many tons of return fuel with the equipment to create a colony and lab equipment to analyze the samples on Mars. Only later, when increased interplanetary travel has made investment in the necessary infrastructure practical, do the original colonists get to come back for a vacation.
This plan has the advantage of not risking any possible contamination of Earth by returning astronauts. Even long term medical problems would have become visible before the first return trip. (Not that such is a risk is great, as demonstrated by the Martian metorites that have already "contaminated" Earth.) But, every little bit helps convince the PointyHaired Politicians.
Despite this rather extreme level of commitment, I believe NASA would get volunteers if they asked today....
Re:The "chunky salsa" problem (Score:2)
Re:One foot after the other (Score:2)
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Re:First things first! (Score:1)
Bzap. Lightning. Fire fire fire.
I'm sure that's not exactly what you meant.. but it would also give you one hell of a ride if the "rope" got caught in a twister.
Re:Yes, but what can this actually achieve? (Score:1)
"The number of suckers born each minute doubles every 18 months."
-jafac's law
Re:Some Realistic Propulsion Alternatives (Score:1)
ship people to Tau Ceti ?? Build them on-site. Alternately, clone and in-vitro them, then teach the
resultant kids via robotics and advanced AI (Note: James Hogan suggested this idea in a novel,
10-15 years ago...). This is a one-way, colonization-trip concept. .
This, I believe, was the underlying concept behind The Andromeda Strain (Michael Criton?). The aliens send out a buzillion little plastic pellets, with a genetically engineered organism that survived on the pellet material and gamma rays, as a message to other life, unfortunately, the organism had a nasty habit of mutating into something that caused all the blood in the human body to spontaneously, and instantly coagulate.
"The number of suckers born each minute doubles every 18 months."
-jafac's law
Re:Wouldnt this just push you away from everything (Score:1)
We need to do this.
As someone else said, this could return a probe from Alpha Centuri within my lifetime.
"The number of suckers born each minute doubles every 18 months."
-jafac's law
Re:Wake me when we get there.... (Score:1)
>Sounds like a cheap way to get to Mars. Getting BACK, however...
I was thinking the same thing....
Re:A few points (Score:1)
Re:Some Realistic Propulsion Alternatives (Score:1)
Sorta like dirty stories for enginerds
Re:Question about Deceleration and Moving Toward S (Score:1)
solar sails and such (Score:1)
One quick note on tethers, though (the sky-hook/elevator idea). That's a very promising new development, and a lot of research is going into that. It's totally different from magnetic sails, though, and it gets things off the ground and into earth orbit, and magnetic sails go from a bit away from the earth (I think we have to be outside the bowshock of the earth's magnetosphere). So, tethers could be used to get us off the ground, and a magnetic sail could then take us up, up and away.
Re:A few points (Score:1)
Re:Forget the sails... let's talk about the tether (Score:1)
There's the linearly increasing weight of the teather(say 1 foot = 100lbs). You'd never find a material that could support it's own weight.
Then there's the payload, or orbiting sattelite attached to the teather - At some point on the teatherm the forces of gravity dissipate, and the mass at the end of the teather starts to pull the teather in the opposite direction - causing a huge stress point on the teather.
Then there's Anchoring the damn'd thing... And forget about it if that sucker ever snapped at some point BELOW the gravity threashhold - can you say jack and the beanstalk?
Nice concept though - but therare other ways...
Re:M2P2 (Score:1)
Realistic Propulsion (Score:1)
To be honest, I think a manned "cruise" to anywhere beyond Pluto would be idiocy at this point. We should really take a good study at our own solar system first hand before we try to run off to the next to see what's there. Everyone's eager to meet E.T.
Re:Voyager... (Score:1)
More information on the current status of the probes can be found at
http://vraptor.jpl.nasa.gov/
"Cake or death!" (E. Izzard)
Not new thechnology. (Score:1)
That's my 1/50 of $1.00 US
JM
Big Brother is watching, vote Libertarian!!
Re:Pioneer (Score:1)
Re:Voyager... (Score:1)
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Changing directions (Score:2)
I'm sure people with the proper tools, such as the Satellite Tool Kit [stk.com] orbit calculator or Orbital Mechanics CDROM [tripod.com], can make some interesting launches by using the Earth and Moon to redirect trajectories [hughespace.com].
Re:Question about Deceleration and Moving Toward S (Score:1)
One foot after the other (Score:2)
Mars Direct, only moreso. Using this, you could cut down on fuel mass and bring along (a lot) more supplies (and thus make life easier for our mars explorers -- imagine having frozen strawberries once a month instead of Tang).
In any event: this would make getting to the outer planets a lot easier. Instead of having to do a Voyager and visit each one, we could orbit an observer satelite around anything we find interesting out there well within a decade -- all the planets, Titan, Io, Europa; watch 'em all at the same time, 24/7.
Now *that's* a killer webcam site.
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solar cells? (Score:1)
Or then again, just use RTG's and ion engines.
Would still work (Score:2)
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Re:Ok so it's fast... (Score:1)
On the other hand, you could use the new drive to propel you towards the planet you are investigating, insert into an orbit, then use standard rockets to get back to earth. This has the benefit of time, and is more efficient than current means because only half the rocket fuel would need to be carried on-board.
Re:solar cells? (Score:1)
URL (Score:1)
I'm not sure exactly when they plan to get people up there(there's a timeline, but I don't know how current it is) , but they have a mailing list and will have a chat on Saturday
go to:
irc.superchat.org
#luna
4 PM CDT Saturday August 22(the one coming up)
I'll try to remember to go there and ask them about the current status of their plans.
Re: (Score:1)
Re:open space (Score:1)
Also read "The Case for Mars" by Zubrin if you haven't yet. The guy is an ex-NASA bigwig who makes a very convincing case that we could go to and permanently settle Mars TODAY using off-the-shelf technology, for a cheap price too.
Re:solar cells? (Score:1)
Re: (Score:1)
Re:Changing directions (Score:1)
Re:Pioneer (Score:1)
Re:Voyager... (Score:2)
Hughes Rescues Satellite (Score:2)