Warp limit

The use of a conventional warp drive within a star system is exceptionally dangerous. A warp drive uses a gravitational field to bend normal space into a "subspace envelope" around a ship. This effect can easily be imbalanced and disrupted by the presence of a large gravitational field. To safely engage warp engines in the Sol system, for instance, a starship should be outside the orbit of Neptune.

Warp drive cannot be enaged safely near terrestrial planets inside the warp limit of the star, which is the location of most of these worlds. A world of comparable mass to Earth which is outside of the warp limit tend to have warp limits of approximately 0.4 light-minutes.

While conventional warp drives are very dangerous to use inside systems because of high particle densities, it can be fatal to use hyperspace drive inside a system. Stars and other massive objects create gravitational singularities in hyperspace. It is fatal to attempt to enter or leave hyperspace inside these singularities.

Smaller planetary bodies do have d-warp limits, but are virtually always with in the warp limit of the star itself. A planet of comparable mass to earth which is outside the hyperperspace limit of its star would have a hyperspace limit of approximately 0.5 light-minutes.