noblehunter wrote:Assume a perfectly spherical side-wall?
Do we know how fast a wedge can accelerate in a practical sense? For ships and missiles, it's limited by the inertial compensator's ability to preserve the the object being accelerated but that's not a limit if the desire is just to get something moving as fast as possible as quickly as possible.Louis R wrote:That theory is for the mathematical construct that is the wedge itself. Like your typical 1st-year dynamics exercise, it assumes that all dimensions and masses not specifically given are zero. In the real world, using real nodes to generate that wedge with finite power, near-infinite accelerations don't - and can't - happen.
Plotline in most Sci-Fi medias forbids hyperspace initiation inside a star or planet's gravity well with varied consequences ranging from the imminent destruction of the planet in the Star Trek universe to the destruction of the offending ship in other worlds. In-between, is the plain old inability to activate such systems within a planet or star's gravitational influence because of its effect on the ship's engines, to navigational difficulties which amounts to the "directional compass needle" going haywire to hyperspace engine monsters.
The Vagaari possessed gravity well projectors known as ship nets on some of their ships which were used to prevent their victims fleeing to hyperspace. Chiss Commander Thrawn and his warriors of the Chiss Expansionary Defense Force managed to capture one of these devices from the Vagaari and later put it to use in the Outbound Flight crisis.
http://starwars.wikia.com/wiki/Gravity_wells
http://scifi.stackexchange.com/question ... vity-wells
There are actually real world theories attempting to calculate what would happen during one of these events.