MaxxQ wrote:SCC wrote:I see three problems with this idea.
1) We have never seen an Impellar wedge of the right size (100 meters across)
Although size is never mentioned, there are two instances where we've seen smallish surface to air missiles used to take out targets. I would guess that the wedge size for those are *at most* 100 meters across, but most likely it's somewhat smaller.
SCC wrote:2) It may not be possible to get it working in an atmosphere, I think there are some sort of limits on how close a wedge of a given size can be operated in an atmosphere
Oh, a wedge can definitely work in an atmosphere. It's just that there are *so* many problems when you do. Even on a pinnace, disregarding the size of the wedge (over 10km on a side, most likely), there's also the issue of how far the wedge is from the pinnace. The center of each wedge plane is probably going to be somewhere around 2-3km away from the pinnace, which would place the leading edges at around 4km above *and* below the plane of the pinnace.
Safety (all other considerations aside) would require that a pinnace approach no closer than 6-7km from the surface. Any closer than that, and you start tearing up rocks, dirt, trees, people, buildings, near-dogs and pseudo-cats, mountains, and so on.
SCC wrote:3) There's the issue of the rest of the planet exploding, remember when Harkness made Randsom's BC blow up the BC was a lot bigger then the pinace he had bring up the wedge
That would only happen if the wedge was lit up underground, and even then, I doubt it would tear the planet to shreds like that. The largest wedges are those attached to SDs and they're only 300km on a side. A livable planet would be roughly 10,000km diameter or so. That's a big difference in ratio from that of a pinnace wedge inside a BC - the pinnace wedge is still *larger* than the size of the BC, whereas in the planetary scenario, the *planet* is orders of magnitude larger than the wedge.
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