| > ... but anybody's who spent any time at all modeling the problem has probably worked through them. Yes on the modeling but the consensus was 'not physically possible'. Not a solution to the problem. In a single impulse launch[1] the amount of energy that is dumped into the atmosphere around the mass you are accelerating results in temperatures that convert that mass into vapor. Any additional energy just moves it closer to being a plasma. > If you can accidentally shoot something outward at multiples of escape velocity, you can certainly do so on purpose. The point here is that the 'cover' in the case of the article did not get into space. A hypothesis that the cover went into space was proposed, but that hypothesis was shown to be false (or untenable) after additional calculations were made. At no time, even "by accident", has anyone sent something into space on a single impulse launch. And the math and models all say it isn't possible, these days you could run the CFD analysis yourself on a high end desktop if you had the software. In the 80's when Reagan's "Star Wars" program was promising a huge market for launch capacity to LEO, a dozen or more companies sought to get into the launch business. The key feature they were shooting for was "single stage to orbit" but all sorts of things were contemplated, including single impulse ideas. Even for impractical (from a cargo perspective) long skinny javelin type shapes do not reach orbit before vaporizing. I also have a faint memory of even an ASAT system (trying to 'shoot' things in orbit) that failed to do so due its inability to change the laws of physics. (that would have probably been an Aviation Week article, I haven't subscribed for nearly a decade so early 2000's?) On the moon without an atmosphere it is a great idea, on earth it just doesn't fly (pun intended :-). [1] The term "Single Impulse Launch" describes a launch system where all of the energy that is applied to a mass it done at once (and typically by a system attached to the departure point) such that once the mass and the energy system separate, no additional energy is added (post impulse, the mass is ballistic. During ballistic flight it is only being acted on by air resistance, gravity, and sometimes geomagnetic forces) |
Just spent about an hour poking around the internet. Fun subject! I believe you are stating this as far too certain of a thing when it's not. But hey, an hour doesn't mean much :)
There are three issues. Issue #1: without some way of correcting orbit, all you could ever get is some crazy long ballistic orbit (Which is another way of saying an elliptical orbit which intersects the ground). Solution? A sabot with standard space-capable gear inside.
Issue #2: hard acceleration needed. Solution? Not as big of a problem for cargo as you would think. Bull encased his gear in wet clay and it worked in a cannon setup. Some proposals calls for a 2km track with a 100G load, which is fine for a lot of cargo.
Issue #3: the atmosphere is basically a brick at the speed required. This sounds like much more of a problem than it is. Think about it: we have capsules re-entering Earth's atmosphere all the time, sometimes as fast as 12km/sec -- and that's at an very slight angle. Shooting more directly into space, the atmosphere would be mostly cleared in an extremely small amount of time. Bull was working with about 1/4 escape velocity decades ago. Even with gear like the Navy's new railgun, you're in the ballpark.
On my cusory search, I couldn't find other commenters as pessimistic as you are. If you have links, please share! I'd love to learn more. In the meantime, here's a paper that studies the issue. https://research.lifeboat.com/ieee.em.pdf
ADD: I by no means intended to imply this problem is easy or trivial, just as far as I can tell, it's nowhere in the neighborhood of being as open-and-shut as "the math doesn't work out"