The discussion revolves around the completeness of special relativity (SR), particularly in relation to the twin paradox and the implications of different inertial reference frames. Participants explore the nature of simultaneity, time dilation, and how different observers perceive motion and aging in relativistic contexts.
Participants generally agree that both observers in the twin paradox can be correct in their perspectives, but they disagree on the implications of this for the completeness of SR. The discussion remains unresolved regarding whether SR can definitively determine motion and aging in all scenarios.
Limitations include the dependence on definitions of simultaneity and the unresolved nature of how to interpret motion in a single inertial frame. The discussion also highlights the need for General Relativity in contexts involving gravity.
russ_watters said:You've stated this several times and it has been explained to you that (and how) it is wrong several times. I'm not sure what else can be said - it is up to you whether you want to believe the reality or not.
Vitro said:So, assuming the same speed of light in this frame too, how can you get the events of the pulse reaching the two ends be simultaneous? Please note that when we say the speed of light is constant we mean wrt the frame where you measure it, not wrt the light source.
Mister T said:These experimental results have been confirmed to such an overwhelming extent that there is no room left for doubt.
SR fails way outside the black hole. That's why GR was introduced.flexible_time said:I don't agree the validity of SR is confirmed in the region of singularity point such as black hole.
I think you need to read the paper by Pal that I linked to earlier. He shows that the principle of relativity leads to either Newton or Einstein (and no other option) without invoking a constant speed of light. The idea of a constant speed falls out of the maths. So no, the two ideas are not contradictory.flexible_time said:One more thing I would like to point out is that it is impossible to see only the notion of absolute moving without the notion of absolute rest. I think the opposite notion of moving is resting. So if light is absolutely moving in space, then we need to accept that there exists the notion of "absolute rest" because the notion for moving and rest is like the head and tail of a coin as we always can see the relative resting and relative moving between two inertial frames. If you agree with light is moving absolutely in space, you must also accept the notion of absolute rest. What do you think that?
Of course. But then they won't be simultaneous in the other frame.flexible_time said:What if I move the position of a pulsing light slightly from middle to the leading end after considering the velocity of the rod relative to light? In this way, I think it would be possible to get the events of the pulse reaching to two ends be simultaneous measured with regard to my frame.
A.T. said:SR fails way outside the black hole. That's why GR was introduced.