All they need to do is get some materials from one of those UFO's at Area 51 - problem solved! :)
I guess the point is that you'll never know if you don't try. I'm sure they learned a lot about shockwaves that will probably be useful in other applications, including slower speed craft.
It seems to me that ceramics is the answer here - our current technology can handle 2k-3k degree temperatures. I'm not sure how they would hold up to shockwaves since they can be brittle, but at that speed and temperature they may actually be a bit more flexible.
Flying fast within the atmosphere has its applications - there will be times that going out of the atmosphere simply isn't practical - short range applications, for example. I cannot imagine the sonic properties of something travelling Mach 20, it would certainly not be a stealth vehicle; but when you're going that fast you don't need to be stealth.
Avoiding missles, etc doesn't count if it can't get there and burns up on the way. Far better is skipping off the atmosphere or full space flight, both are far easier to do, have far more range, payload. And they are far safer from countermeasures.
There is not much that can withstand 5000F or so the ship has to endure. If you make it bigger for payload, the drag, heat just increases.
I'm having a hard problem find metals, etc that can withstand just 1500F with a decent lifetime which hasn't been easy. Much less the temps a hypersonic craft has to endure.
Over 2500mph just isn't smart in the atmosphere and this, every test before proves this. No?
So please tell me how far can they go and how much payload can they carry? Enquiring minds want to know?
This is a DARPA project. Being able to fly that fast in the atmosphere means that it can outrun anything shot at it (SAM, bullets, etc.) - so that it could get somewhere fast and drop a payload (bombs, etc.). It could also be used to catch anything in the air (planes, missiles, etc.). It would also be extremely difficult to track or anticipate. Even a laser would have a hard time hitting it, especially if it is making random micro adjustments to its flight path. LA to NY in 12 minutes means that it could get to North Korea in under 30 minutes.
Chuck, I was also guessing that the 100x shockwaves might be an anomaly. I just assumed that we knew a lot more about their potential force after all this time, and could therefore compute the relevant loads.
In the early days of SPICE (circuit simulator), the late Bob Pease had a rant in his weekly column. He published a circuit to simulate in SPICE and pointed out a certain resistor dissipated negative power! He said he couldn't wait to put together the real circuit and watch it get colder by the minute. He speculated on the breakthroughs it would bring to food and beer storage.
Then he got serious and made the point: simulations are a good tool but no substitute for hands-on prototypes. Of course simulation software has made huge advances in all disciplines but Pease's point still rings true today.
I absolutely agree...this was a fantastic accomplishment. After all, the whole point of testing something is to determine potential failure modes. Simulations give us a fantastic set of tools to better predict failure, but there is really no subtitute for an actual real world test. So often, we discover important variables or interactions that were not anticipated by simulation.
The amount of plastic clogging the ocean continues to grow. Some startling, not-so-good news has come out recently about the roles plastic is playing in the ocean, as well as more heartening news about efforts to collect and reuse it.
Some of our culture's most enduring robots appeared in the 80s. The Aliens series produced another evil android, and we saw light robot fare in the form of Short Circuit. Two of the great robots of all time also showed up: The Terminator and RoboCop.
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