if you suppose that the above is correct, and you would have infinite mass, then it stands to reason that you should also have infinite gravity, since there is a direct link between the size of the object and the power of that objects gravity
The pair of scissors I was referring to is Ashbless’ in which the scissors are pushed by rockets which are synchronized. I.e., the moment of closing is already known along the whole length of the scissors, as is the rate of closure. Therefore anyone at any point along the scissors can calculate the rate at which the “sciss” intersection moves. I don’t see how any information is transmitted by that pair of scissors.
So the statment that relativity “really says that information can not travel faster in light” is, to really nitpick, not quite true? The information statement supposes that the principle of causality (macro and micro) hold, which special relativity, stricitly speaking, does not. (It seems to me that at one time there were some quantum field theories that allowed the principle of causality to be violated on some quantum scale.)
MegaDave, relativity contains two conceptually different types of mass. Inertial mass and gravitational mass. Inertial mass is the mass that relates to how hard it is to accelerate an object. The principle of equivalence relates the two types of mass.
Relativistic momentum differs from classical momentum by the 1/sqrt(1-v^2/c^2) term. You can look at an object’s inertial mass as the product of that term by the rest, inertial mass. That does not imply the gravitational force of the object increases.
It’s better to stick with quality over quantity. From the Physics FAQ:
http://math.ucr.edu/home/baez/physics/Relativity/SR/mass.html