Posted on 03/27/2004 6:28:43 PM PST by anymouse
Three years after its first test flight ended in an explosion, NASA on Saturday successfully launched an experimental jet designed to reach speeds approaching 5,000 mph.
The unpiloted X-43A made a 10-second powered flight, then went through some twists and turns during a six-minute glide before plunging into the Pacific Ocean about 400 miles off the California coast.
"Everything worked according to plan. It's been wonderful," NASA spokeswoman Leslie Williams said. "I actually thought it was the most beautiful thing I've ever seen. We've been waiting a few years."
It wasn't immediately clear what speed the needle-nosed jet achieved after it was boosted to about 3,500 mph by a rocket, Williams said.
The first X-43A flight ended in failure June 2, 2001, after the modified Pegasus rocket used to accelerate the plane veered off course and was detonated. An investigation board found preflight analyses failed to predict how the rocket would perform, leaving its control system unable to maintain stable flight.
NASA built the X-43A under a $250 million program to develop and test an exotic type of engine called a supersonic-combustion ramjet, or scramjet.
In theory, the air-breathing engine could propel an airplane to speeds of Mach 7 or faster, enabling around-the-world flights that would take several hours. The Department of Defense (news - web sites) also is working on the technology, which it's eyeing for use in bombers that quickly could reach targets anywhere on the globe.
The 2,800-pound X-43A was mounted on a Pegasus rocket booster and carried to an altitude of 40,000 feet by a modified B-52 bomber, which took off from Edwards Air Force Base in the high desert.
A few seconds after the craft was dropped, the rocket flared, sending the jet skyward on a streak of flame and light. At about 100,000 feet, the rocket dropped away.
The scramjet took over, using up about two pounds of gaseous hydrogen fuel before gliding. Applause rang out in the control center at Dryden Flight Research Center at Edwards.
Technological hurdles mean it will be decades before such a plane could enter service. And NASA's role in developing the technology remains in doubt, as the agency recently cut funding for more advanced versions of the X-43A.
Engineers have pursued scramjet technology because it could allow rocket-speed travel but with considerable savings in weight. Rockets must carry their own oxygen to combust the fuel they carry aboard; scramjets can scoop it out of the atmosphere.
In scramjets, oxygen is rammed into a combustion chamber where it mixes with fuel and spontaneously ignites. To work, the engine must be traveling at about five times the speed of sound requiring an initial boost that only a rocket can provide.
A third X-43A could fly as early as the fall.
A manned scramjet bomber could be launched on warning, and told to abort the mission if it turns out to be a false alarm, but could toss nukes at an enemy from well out of range of anti-aircraft missiles, and have the bombs scream in as fast as an incoming ICBM warhead
A couple of generations ago, we went from using biplanes in 1935, to jet fighters in 1945, to the X-15 in 1959
Then again, engineers back then didn't have to deal with all the bureaucracy and paperwork and CYA that we have these days.
Yeeeeah!!!!
Translation: The government doesn't have the budget or the interest to actually work on it.
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