Well, forget about the speed of light for a minute. Couldn't you travel at almost any much lesser speed (see post #32) and just run a camera or something on your "ship", or whatever it is, etc, and see if the speed at which the camera records as you're moving along speeds up a bit for what is ahead of you, or for what you are headed to or towards, as you were moving towards it, or slows down a bit for what is behind you, or for what you are recording as you were receding away from it?
Ok, Say it's 1/10,000 of c, well if the camera speeds up 1/10,000 of t as you were headed towards something, but slows down 1/10,000 of t as you were moving away from the opposite thing away from it, or whatever you were leaving at that speed, etc...?
Anyway, would that do anything at all for us really? Or maybe not maybe, etc?
If the speed is exactly 1/10,000 of c, and the change in the camera's speed of recording is exactly 1/10,000 t faster for what's being recorded ahead of you as you were moving to or towards it, and exactly 1/10,000 t slower for what was being recorded for what's behind you as you were moving or receding away from it...?
Anyway, does that do anything for us really? Or really not really, etc?
If the figures always match exactly, etc.
Does that do anything for us really?
If the fractions or percentages of c were always exactly equal to the changes in the camera's recording speed being faster or slower as it was moving along, or t, etc?
Take Care.