Title | Posted |
---|---|
Unmanned LACs | Aug 2004 |
Honor's Second Marsh strategy | Aug 2004 |
c-Fractional missile attack plan | Aug 2004 |
Energy-siphon effect | Aug 2004 |
How big is a recon drone? | Aug 2004 |
Wedge interaction | Aug 2004 |
Counter-missile pods and two-stage counter-missiles | Aug 2004 |
Wedge-killer missiles | Aug 2004 |
Masada and the Eridani Edict | Jul 2004 |
<em>Medusa-Bs</em> | Jun 2004 |
A collection of posts by David Weber containing background information for his stories, collected and generously made available Joe Buckley.
The Manticoran FTL com and, for that matter, gravitic sensors in general, do not function solely in normal-space. Or, to put it more precisely, they do not detect solely n-space phenomena. The grav pulses of an FTL com, like an impeller wedge, distort local n-space. They also produce an echo in hyper-space--a sort of ripple or cascade effect--which is what the gravitics actually detect and measure. In theory, any gravity field--even that of an itty-bitty meteor--produces the same sort of ripple or cascade; in practice, only a very powerful gravity field produces on which present-generations gravitics can detect and/or measure. A hyper footprint, on the other hand, is detectable at far greater distances than any impeller wedge simply because the "ripple" a starship produces as it actually enters or leaves hyper is much more of a roaring cataract. The real trick for the FTL com was developing the ability to produce finely controlled pulses (ripples), and the RMN has been steadily improving that ability.