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Australian Scramjet Launched
CaptainAlbert writes: "The University of Queensland, Australia is reporting the (possible) success of their "HyShot" scramjet test. The BBC have got this covered too. Apparently, they're now poring over the data loggers, trying to figure out if it actually flew under its own power." We had a story about these guys a while back.
space power! It just shows what a government unemcumbered by public relation's driven regulations can do. I suspect Australia will soon colonize the Moon, which is but a bit drier and harsher than the Australian outback. As Heinlein's Moon is a Harsh Mistress shows, having a conivct background really helps in outer space.
Maybe if NASA has spent it's budget more wisely, on perhaps investing more money into these kind of developments and research rather than wasting it on kamikazee projects and shuttle launchings, we'd probably be on Mars by now...
"Never let the truth get in the way of a good story..."
"The scramjet needs to reach Mach-5 to start working"...
This isn't too practile... need to be moving very fast to start working
Cruise TT
Hey! Why dont we all get together and build our own scramjets? :-) they said that they built it from parts off the automobile shelf.. so why not look at your car in a new way and wonder how it works at mach 5? :-D
The things the poor Aussies do to get to London :) It must be rather hard living down there.
:)
Only kidding of course. But I think it's a cool academical experiment: put a rocket into space and spend weeks trying to find out whether it actually worked...
But the big problem is that scramjets only start to work at speeds greater than five times the speed of sound, or Mach-5.
I don't know much about aeronotics, but wouldn't this be a problem getting it up to speed? Wouldn't you have to bulk it with some heavy equipment just to get it up to speed if you wanted to use this in a usefull application?
Can all fish swim?
We've bought a lot of bits and pieces off the shelf from automotive shops
I think they answered their own question.
They don't know...it was too fast.
Blarf.
They say in the BBC article that the US first achieved the supersonic combustion bit a few weeks ago. But, IIRC, the russians tested a ScramJet a while back, also from a rocket - and succeeded. Of course, poor funding probably delayed/cut further research, which is a shame - they're excellent at experimental (vs. theoretical, simulated) research.
I don't have references, unfortunately... but I'm sure google might provide some...
And let's not forget, ramjets have been in use for quite a while - again, the russians being in advance on the west, check out their air-to-air missiles.
Anyone reminded of those supercavitation torpedoes? Yet another area where those "technologically backward" russians are by far more advanced than the west...
Just how much brainwashing do we get?
My concern is whether there is actually a demand for supersonic flight, or whether the current conventional airliners represent the 'good enough' level of technology which means there is no incentive to replace them. The current state of the travel industry makes me think it will be a long time before we see a scramjet based airliner at JFK.
In the meantime, the Europeans seem to be about to revive the Concorde. Its a bit annoying that we don't have anything to beat that. Maybe these superjumbos will be as impressive, but they won't be supersonic
Look at the shape of the vapour trail. Considering how crazily it wobbled, does it look like a successful rocket launch? Can you even imagine it doing that at Mach 5?
Ceci n'est pas une sig
But it makes sense since it was the point in the flight where there is the highest speed and best chance of engine ignition
but this also means the test engine is usually destroyed instead of being saved for the next test run
"It is a greater offense to steal men's labor, than their clothes"
Experts say scramjet technology has the potential to reduce the flying time from London to Sydney to two hours, and substantially cut the cost of space launches.
...
But the big problem is that scramjets only start to work at speeds greater than five times the speed of sound, or Mach-5.
Parte the firste: The idea is put forth in the BBC article that a scramjet could cut down flight times from London to Australia - great when you've got the hankering for an oil can of Foster's.
Patre the seconde: It is stated that scramjets only work at speeds in excess of Mach 5.
... I'm pretty sure that most people would pass out long before the scramjet would even take off - and without the aid of the beverage cart. I can see the use in space launches, but for commercial apps it is likely quite limited for the above reason.
An aside: If you're into rocket history, there is a recent biography of John Parsons called 'Sex and Rockets'. Parsons was one of the earliest innovators of rockets and solid fuel technologies associated therewith. He was among the handful of people at CalTech who helped take rockets out of science fiction and into reality. Worth the read.
Sir, could you please float back to your seat? We'll be reentering the atmosphere soon.
No, I think the Concorde is safe, for now.
- If the initial stage consumes so much fuel and the fuel to weight ratio is such a big deal in rocket science.
- Why don't they launch rockets from under water using that submarine ICBM technology and leverage the floatation benefits for better performance?
Then again maybe their is something to being a "rocket scientist" and I should stick to my knitting. I know the
A bit of Googling revealed the following:
From The Ramjet/Scramjet Engine:
- a scramjet is a kind of ramjet
- "A ramjet has no moving parts and achieves compression of intake air by the forward speed of the air vehicle. Air entering the intake of a supersonic aircraft is slowed by aerodynamic diffusion created by the inlet and diffuser to velocities comparable to those in a turbojet augmentor. The expansion of hot gases after fuel injection and combustion accelerates the exhaust air to a velocity higher than that at the inlet and creates positive push."
- "Scramjet is an acronym for Supersonic Combustion Ramjet. The scramjet differs from the ramjet in that combustion takes place at supersonic air velocities through the engine. It is mechanically simple, but vastly more complex aerodynamically than a jet engine. Hydrogen is normally the fuel used."
Scramjet research seems to be a hot topic in the aerospace world - I saw references to projects underway in the UK, in the US Defense Department, at NASA, and of course Australia, all of which have claimed some or other big advances in the past year or so.Finally, here's Scientific American article that gives a bit more technical detail.
Cruise missiles that travel so fast they are extremely difficult to track and intercept.
I'm sure the US military is paying attention to this.
You're Just Jealous Because The Voices Are Talking To Me.
Please have a look here: http://news.bbc.co.uk/olmedia/1625000/images/_1626 448_trail300afp.jpg
Tell me now, who else thinks this looks like aquarian born product of an amorous escapade?
Lots of top developments have been made by these sorts of projects while large funded defence projects fail miserably.
Look at how long the Russian's could keep people in space. And of course the ultimate
US: We spent millions of dollars developing this pen which will work in Space or underwater, what did you do
USSR: We used pencils and crayons.
Millions of dollars on one side, 5 cents on the other.
Defence is stupidity with a budget.
An Eye for an Eye will make the whole world blind - Gandhi
I assume that it'll take a while to get up to full speed (not least because I don't think passengers would like being squished by a big acceleration). So if you were going, say, London to Paris you're not really going to have much time to get up to speed. What sort of distances do you need to cover before this option becomes worthwhile (i.e. more economical)? Would London to NYC be far enough? How about LA to Tokyo?
So, how is this supposed to work? Get in your plane, accelerate up to mach 5, wait for scramjet to kick in, cruise for a while, then land. At mach 5 it takes under an hour to fly across the Continental US. Of course, you need to accelerate up to mach 5, unless you want everyone tossing their cookies you can't do that too fast. It'll probably take 1000+ miles of the trip just to get up to speed. Another 1000+ to decelerate.
;)
Basically we've reduced this to those who fly half way around the world. And how many people do that often enough to make up for development costs? It aint ever going to happen. You're better off waiting for them to invent a transporter. The number of people with the desire for this kind of service is simply way too small.
That being said, its fun technology to watch, but you'll never see it used in the commercial airlines. And no, I didn't actually read the article
I'm an Aerospace Engineer (unemployed of course)
and I used to visit UQ occasionly.
The brains behind their scram jet involve a fat bastard who smells, a tall guy with a giraffe neck and a platted mullet and a surprisingly attractive woman from NY.
congratulations to them. Shame they weren't shown in the story - some knob gets the cred.
.. I remember when I studying at UQ, that they had built a hypersonic wind tunnel. The stream of gas could punch holes in sheets of steel.
A mate of mine was researching how to make a mass spectrometer that could work inside/with the wind tunnel. To do the scramjet research, given the speed of the gasses, they needed to know if they could achieve combustion inside the engine rather than several kilometers behind it!
Simon
Let's just assume that in ten years time you'll be able to travel from London to Sydney on one of these things. What are the implications with regard to terrorism? Seriously. As we have seen a 747 full of fuel is very effective bomb, wouldn't one of these be so much worse due to momentum? And of course they would reach their target so much more quickly.
My other thought is, if they travel so fast, what mechanism will be used to slow them down at the other end? Just air resistance?
The first German rocket scientists supposedly freaked out the same way you did, when they couldn't figure out why their guidance systems still left their rockets apparantly wobbling in all directions. It turned out not to be the guidance systems at all - just the wind. The rocket paths were straight, but shifting winds at different altitudes blew them into crazy lightning-strike looking things as the rocket was still aloft. I'd be surprised if the same phenomenon wasn't the explanation for that photo.
Weren't the experimental prototypes of the F-16 fighter known as yard darts due to their propensity to end up in someone's back yard in the middle of the Colorado testing area? Looks like these scramjets are going to give them some good competition...
This reminds me a little of what happens in third-world countries (I've spent many years in a couple of them). You don't need a drain system if your town is on a hillside leading down to the ocean. But every time it rains hard, the streets flood and you can't get around. No town in most developed nations would be built without a drain system, no matter how convenient the local geography. And the result, in the end, is that more gets done, in a more sustainable way.
Extrapolate that attitude, and you've got the space pen. The people using the pencils and crayons are no longer able to mount space missions without outside help.
Thought I heard the replacement for the F117 stealth fly once a day at night in New Mexico. They were almost scrambled to chase airliners ... supposedly it uses a new superstealth scramjet / jet turbine combination with auto adjusting nozzles. Use of super heat resistant ceramics in the nozzle and other areas of the plane help resolve the superheat issues.. variable nozzles are used to adjust the flutter.
...
BTW, NASA did give Lockheed Martin the contract to build the next generation Space Shuttle which supposedly will use ScramJets
in a sort of hypersonic transport configuration.
An unmanned cargo only configuration was let out to Orbital
Supersonic planes might have sounded like a good ideas a few months ago, but now I think that the though of freankin' fast supersonic planes crashing into buildings will make it hard for people to get funding for these.
Can you imagine the damage one of those things would do?
You can't take the sky from me...
Wouldn't it possible to apply this technology to UAVs (an aircraft without any crew onboard) transporting cargo only, you would cut the acceleration and decelaration problem (unless the cargo can't take the pressure, but this problem would be much easier to solve anyway)... Of course, there would probably be a need for cargo that needs to be sent somewhere REALLY fast, to pay for the development cost.
And yes, it shows. :)
The point about the "London in two hours" thing is that it gives you a frame of reference. This is mass media we're talking about, not The Journal of Astrophysics. An enormous point about the scramjet is that if it worked, it would allow vehicles to exit the atmosphere without the heavy multiple stage disposable rockets and large amount of fuel that is currently required. In theory, this could turn space travel into a commute.
Because of the sonic boom, jets are restricted to subsonic flight over populated areas. So for planes whose primary purpose is to move passengers within the U.S. and/or Canada, the capacity for supersonic flight is a worthless, yet expensive, feature.
The best diplomat I know is a fully activated phaser bank.
-- Scotty.
This was already attemped.
The Arizona Highway Patrol were mystified when they came upon a pile of smoldering wreckage embedded in the side of a cliff rising above the road at the apex of a curve. The metal debris resembled the site of an airplane crash, but it turned out to be the vaporized remains of an automobile. The make of the vehicle was unidentifiable at the scene.
The folks in the lab finally figured out what it was, and pieced together the events that led up to its demise.
It seems that a former Air Force sergeant had somehow got hold of a JATO (Jet Assisted Take-Off) unit. JATO units are solid fuel rockets used to give heavy military transport airplanes an extra push for take-off from short airfields.
Dried desert lakebeds are the location of choice for breaking the world ground vehicle speed record. The sergeant took the JATO unit into the Arizona desert and found a long, straight stretch of road. He attached the JATO unit to his car, jumped in, accelerated to a high speed, and fired off the rocket.
The facts, as best as could be determined, are as follows:
The operator was driving a 1967 Chevy Impala. He ignited the JATO unit approximately 3.9 miles from the crash site. This was established by the location of a prominently scorched and melted strip of asphalt. The vehicle quickly reached a speed of between 250 and 300 mph and continued at that speed, under full power, for an additional 20-25 seconds. The soon-to-be pilot experienced G-forces usually reserved for dog-fighting F-14 jocks under full afterburners.
The Chevy remained on the straight highway for approximately 2.6 miles (15-20 seconds) before the driver applied the brakes, completely melting them, blowing the tires, and leaving thick rubber marks on the road surface. The vehicle then became airborne for an additional 1.3 miles, impacted the cliff face at a height of 125 feet, and left a blackened crater 3 feet deep in the rock.
Most of the driver's remains were not recovered; however, small fragments of bone, teeth, and hair were extracted from the crater, and fingernail and bone shards were removed from a piece of debris believed to be a portion of the steering wheel.
Now that's the best use of automobile parts yet.... Think he hit Mach 5?
Linuxrunner
www.slightlycrewed.com - Because aren't we all?
Some posters seem to be under the impression that a SCRAMjet/RAMjet powered "plane" would need to spend an hour accelerating to speed in order to keep people from passing out or heaving guts, etc.
It's not nearly that bad.
People can generally withstand sustained G forces in the neighborhood of 8 Gs if properly supported. That works out to about 200 miles per hour per second. 5G to ignite the scramjet is about 3800 mph sea level, close enough to use 4000 mph back-of-the-envelope to get 20 seconds to scramjet ignition, maybe 40 seconds to Mach 10.
A two minute climb should be very endurable.
The limiting factor is more likely to be power-to-weight ratios than G-forces.
Why even ask the terrorism question? It's a cross between being off-topic and trolling. Why don't you try answering the question, then it might become a little more obvious how senseless and inappropriate it is.
"Gee, terrorists might be able to hit buildings faster! Ack! Oh no! Wait, no, would the force of a scramjet be enough to breach a nuclear power plant? What if a terrorist took a scramjet, flew to space and took out an important satellite?"
The available answers are either obvious, or lead to chicken-headed questions that we only have speculative answers for, considering the scramjet is experimental and few individuals are intimately familiar with it. Either way, the question spreads FUD. Come on people.. Someone mod this down please!
As mentioned in the BBC article, DARPA made the first successful scramjet launch this past August. Here is the DARPA report on the launch. The BBC's description of the DARPA launch is a tad misleading - they say it was launched from a "gun", but really it was a 2 stage, 150 foot railgun capable of launching a 17 pound projectile at 9,200 mph.
I had a high-school friend who went into the Navy and spent time on a sub. This was back in the 70's, so things may have changed since then, but...
According to him, those things were *immensely* manual. He described some valve that was part of the diving process being behind/beside his bunk. When the dive alarm sounded, he (or whoever was bunking at the time) had to turn that valve. He got to where he could do it in his sleep and never know he had touched the valve.
From my own tour of the Battleship Massachusetts, that thing was a giant machine where some of the moving parts happened to be people. It took 25 men to keep one of the 5" gun turrets firing and fed with ammo, and 125 men for a 16" gun turret. There wasn't much automation. Granted it was WWII, but it also signifies a mind-set. I've been through the Albacore and Nautilus (both 50's era, I know) and have seen nothing to refute that mindset.
I can readily believe that opening the torpedo door was someone's personal responsibility, and perhaps he was even sleeping between torpedos at the time.
The living have better things to do than to continue hating the dead.
Scramjets operate at very high altitudes due to the thinner atmosphere. At sea level, the entire plane would probably turn into a very un-aerodynamic heap of aluminum slag in under 10 seconds. Travelling for 10 seconds at Mach 6+ is not very far figuratively, so pointing it towards a single target is not very effective.
This will be great for getting to orbital/suborbital speeds, but only for reconnissance purposes since ICBMs travel around Mach 19 during reentry. You really don't have a reason to go any faster than that....
B
Flamebait
Serious inquiries only.
It all depends on the Requirements:
If what was needed was a tool to allow an astronaut to take notes while in Space, then the end result in both cases was that the problem was solved, altough the pen approach was clearly the LEAST efficient use of the available resources (time and money).
On the other hand, if what was needed was a system to deposite a fine layer of an ARBITRARY liquid or soluble substance (for example special inks), then the pen approach was the only one to solve that problem.
many times
The US Space program used ordinary pencils in space throughout the Mercury and Gemini programs. Paul Fisher, founder of the Fisher Pen Company, spent over one million dollars of his own money developing the Fisher Space Pen before he came up with a working prototype in 1965, which he submitted to NASA for evaluation. NASA approved it for space flight in September 1965, and purchased 400 pens at $2.95 each in December 1967. The Soviet space program adopted them in 1968.
Why is it that the proponents of "one nation under God" are so eager to get rid of "liberty and justice for all"?
The HyShot home page has lots of cool stuff, such as pictures. The thing is launched on a suborbital rocket which goes to 300km altitude and Mach 7.6 (with some help from gravity on the way down). Compare with Mach 25 for orbit - many rocketplane companies are aiming for suborbital instead of going straight to orbit.
Anyway, back to HyShot, the home page contains lots of details about what happens in what order and all that good stuff.
My favorite version of the rocket car story:
http://www.ddave.com/rocketcar/
Read it. Yes, it is long - but it is arguably the best story on the internet...
So - is this the truth about the rocket car? Or is it...something else?
I leave that for you to decide in the end...
Reason is the Path to God - Anon
the following URL has what may be the true origin of the rocket-car-in-the-cliff legend:
http://www.geocities.com/Baja/Canyon/7665/
... So the prooven solution for water proofing is to use a "carrier shell" and compressed air.
;P
So the more flotation you need, the bigger you design the shell... *Rubbing chin... *
Can you imagine the fuel/weight you might save by launching a Titan this way!!!
Now what about a beowolf cluster of these things...
The Navy likes manual controls because they _work_. Sailors are more likely to survive hits and still do their job than electronic controls -- and sailors don't corrode away in salt spray and tropical heat, but electronics sure will. So you definitely should have manual controls for everything possible and drill the crew on them now and then.
;-). My son is on the USS Ogden (LPD -- that's a troop transport with a well-deck for landing craft). It's definitely heavy on the manual control, but then it's 50 years old!
That said, electronics could be used much more than it is to bring information to the few men actually controlling the ship, and to give them more direct control. E.g., one reason that sub surfaced underneath a Japanese trawler was that the sonarman couldn't get through the crowd of civilians to mark contacts on the whiteboard. Whiteboard??? Why not a big flat-panel display so the sonar & radar operators can mark all contacts without leaving their stations?
Finally, I was under the impression that even in WWII, subs had mechanical interlocks on the torpedo tube doors and firing mechanism. That is, you're blocked from opening the inner door if the outer door is open and vice versa, and whatever it is that switches the torpedo on shouldn't work until the inner door is closed and the outer door open. Plus the crewman should check the indicator for the outer door before firing. But obviously even mechanical interlocks break sometimes, and the crew must have ways of defeating them when needed.
All this is second-hand at best. I was an electronics tech in the Air Force myself (relatively cushy job, right -- that's why I picked that branch to enlist
Only the air moving through must be at Mach 5.
So it would be possible to have some kind of air booster to start the process. Then as the craft approaches Mach 5 the booster wouldn't be needed.
I'm not saying that boosting the air flow to Mach 5 is easy. Just a thought.
...as funny as it is, its all made up. the cult of the dead cow are text file legends, my good friend steve says, from back in the bbs days, and they wrote the original. funny how it gets around thou. http://www.cdc.com i think.
Dont ask me...Im just the bass player.
Accelerating at 1/10g (3.2 ft/sec/sec) to keep the passengers comfortable:
Mach 5 = 3000mph at high altitude = 4400 ft/sec
Time to reach this speed: 4400/3.2 = 1375 sec = 23 minutes
Distance covered while accelerating: 1/2(4400)(1375) = 3,025,000 feet = 573 miles
And your deceleration is going to be at least as long, so it's not worthwhile on trips much shorter than LA-NYC.
If the customers can be less comfortable, accelerate at 1g and your acceleration covers 57 miles in 137.5 seconds. But the ticket is going to be very expensive -- the plane has to go faster than most fighter jets BEFORE it can turn on the scramjets. So it needs ungodly big conventional engines, or else rockets. And the seats have to swivel around because you really don't want to hang from your seatbelt in 1g deceleration for 2 minutes.
Someone mentioned accelerating at 8g. This only takes 7 miles -- you could launch from an electromagnetic catapult to scramjet speed, IF the scramjets will run in thick air at low altitude. Of course, your passengers need a thorough physical, and there is still that deceleration issue.
Scramjets are not for airliners. The military applications should be obvious -- and you can use something like the space shuttle boosters in that case. Other than that, they might be useful for space launches -- get to Mach 5 with solid-fuel rockets, then use the scramjets to get to the outer fringes of the atmosphere at Mach 15 or so before you have to switch back to rockets. (The trouble with rockets is that they carry their own oxygen, which outweighs the fuel...)
Having said that, the current thought in naval design is a balance between low manpower automation USS Yorktown Smart Ship and the arsenal ship and manpower for flexibility and most importantly, damage control
Somewhere, something incredible is waiting to be known. -- Carl Sagan
Seriously.
The point of the scramjet is that you don't need to carry a supply of oxygen onboard once you reach those speeds, which are NOT that fast if you consider orbital velocities. That's a HUGE weight difference.
The idea is that you get enough compression at those speeds that you can force enough oxygen into the chamber to burn fuel without the need for a supply of liquid-oxygen. Of course, you may still need that liquid oxygen in space, when you have no atmosphere.. but still.
The whole point is to save fuel on the way up.
A working scramjet is MUCH more efficient than a non-scramjet.. why else do you think they are doing this?
The intended application is a) super fast flight (missiles, cargo) and b) Space launch.
The high speeds needed to start the scramjet engine are not such a problem. The scramjet elimenates the need to carry MASSIVE amounts of oxygen to run the engine at these speeds. In a scramjet, once you reach mach 5 or so, you can stop using onboard oxygen... so you can either launch with less on board (less weight, more efficient) or keep more on board for when you leave the atmosphere behind you (longer trip, more maneouverability, more efficient)
The real point about the MiG 25 is that it was a classic example of the 80:20 rule; they achieved 80% of the performance of an SR71 for about 20% of the cost.
I'm utterly in awe of the SR71's technology, but was it really necessary to have an aircraft capable of Mach 3 *cruise*? Would not an aircraft designed along MiG25 lines capable of a Mach 3 *dash* when over enemy territory have done the same missions for vastly lower development and running costs? Remember, it was running costs that finally did in the Blackbirds.
I understood the use of vacuum tubes was not as dumb as it sounds; the radar put out phenomenal amounts of power to get around jamming measures which was beyond the capability of solid-state electronics at the time.
No the Mig 25 and SR71 are not in the same class; that's because the latter was designed with cost as no object and the former obviously designed by pushing conventional technology to its limits to save cost.
Parsons was one seriously wierd dude.
h tml
He was heavily into Aleister Crowley and was also involved with Ron Hubbard's early experiments in occultism, before the latter founded $cientology.
See for example http://kbs.cs.tu-berlin.de/~jutta/me/caltech-cos.
...when Professor Simmons gave a lecture to the Engineering students in the first week of our course in '95. During the speech, he held up a strange cone-shaped nozzle which he explained was a prototype of the amazing scramjet research being conducted in the windtunnel under the complex run by the Mech Eng. department. He stressed the UQ did not stint on its research projects; the nozzle he was holding cost over AUD$10,000 to create. He then placed the scramjet piece on the table next to the podium.
Where is promptly rolled off and fell onto the floor.
Some of the students in the front row tried to dive and catch it, but they were too slow. The tip of the nozzle had hit first, and bent to a 30 degree angle, ruining it.
Professor Simmons was not a popular figure in Mech Eng. for a long time afterwards.
"Einstein argued that [...] God is not capricious or arbitrary. No such faith comforts the software engineer." ~ Brooks
During that era, they certainly were. I had a look at an Australian Oberon diesel submarine from the era (it's moored at the maritime museum in Sydney), and to make it do *anything* was incredibly complex. Firing a torpedo required adjusting half a dozen different valves, manually loading the torpedo from storage, and so on.
As well as the controls on the bridge, though, they were duplicated in various other parts of the ship, so if the bridge controls were damaged you could launch a torpedo from the crew quarters, IIRC. They basically slept next to them.
Of course, these days you could replace most of that with a controller and some relays. It'd be interesting to have a look at a Collins-class sub to see how much of the fire sequence is now automated.
Any sufficiently advanced technology is indistinguishable from a rigged demo
--Andy Finkel (J. Klass?)
From this article
"We've had to build all sorts of ancillary equipment, and do it on the cheap. For instance, one of things we had to do is ensure that the payload's spin was correct. To get the spin balance right we bought a second-hand car tyre balance from Bob Jane. It works beautifully!"
Great, when they have this option for commercial aircraft, they'll probably start having private cabins for people who request, and have money, for it. Then those people will have something to do for the whole trip.
Apparently it didn't do what it should have after all. http://www.uq.edu.au/news/index.phtml?article=2567
Australia is the USAs best friend, but: Why cant you accept that just because the oz boys spent $20M on their scroungejet engine and NASA spent 200M just to see their carrier rocket blow up that: a) If it didn't happen in the USA it didn't happen and b) if it did happen it must have been terrorists. OPEN YOUR MIND TO THE WHOLE WORLD. My dad went to the USA and was told 'You speak good english for an Australian' and Isn't Australia just over the river.