well, the experiment is the following , 2 spaceships traveling in the same direction near the speed of the light increase its mass (and gravitational energy), so there is a attraction between these,now the attraction rate will be different for a external observer??? (by the relative increase of mass) or the gravity effects between both ships will be the same for the crew and observers??(lets imagine that both are huge mass ships and are travelling very close), so the ships will collide???
i mentioned that in other post, well, now it have a thread
btw, what about this...
1-a mass that travel very,very near of C can turn in a cold star???
2-what happens if the lenght particle that goes near C fall below uncertainly limits??
3-what is the energy limits to turn a wave into a particle (i mean the max frecuency)
4-could we "see" the gravitons dececcelerating very heavy particles near C velocity???, actually we are adding gravitons increasing their speed???
5-what is the velocity of the gravitatory energy, is also C???
6-if isnt C, then the explanation could be that the gravitons are very, very low energy photons with a huge lenghtwave that can travel much faster than the light (like high frecuency energy travels slower than the standar C,, with more frecuency it has more probability to turn in a particle and in the end have muuuuuch lower speed)
sooo, what you think guys....