There is a speed of light limit for light. It is the speed of light and it is relative to the Coulomb grid through which the light is traveling.
Coulomb grids move at the speed of the objects that the grid is associated with. The earth's Coulomb grid moves through our Universe at the same speed as the earth moves trough our Universe. Right, Photons travel through Coulomb grids at the speed of light for that grid. The speed of the photons traveling through my eyeball depends on the index of refraction of my eyeball. A Coulomb grid is the sum total of all of the Coulomb force waves making up the grid. A speck of dusk and a proton would not produce many Coulomb waves, so neither would produce a significant Coulomb grid. If the space ship is moving at 0.57 c, the light would be moving at 0.43 c relative to the solar system. But it is moving at c relative to the space ship. People on the space ship measuring the speed of light would measuring it as c. > On 12 June 2014 04:27, <[email protected]> wrote: > >> Tronnies travel at speeds of about 1.57 c with respect to the Coulomb >> grid >> in which they are located. Coulomb grids are *speed of light* Coulomb >> force >> waves that fill our Universe. They are also traveling in a circle with >> one or two other tronnies in the form of an entron, an electron or a >> positron. They reach the opposite side of their circle at exactly the >> same time as their own Coulomb force wave. >> > > Given that there isn't a speed of light limit in your model, it seems > valid > to ask "the speed of light relative to what?" > >> >> If you and I are both located in the same Coulomb grid (for example, >> earth's Coulomb grid) the light from the flashlight would be traveling >> at >> a speed of c relative to the Coulomb grid. > > > Which is itself moving at c. So the photons are stationary with respect > to > the grid. > > >> If I am moving at 0.57 >> relative to the grid, when the photons from your flashlight enter my >> eyeball they would travel at the speed of light relative to the Coulomb >> grid in my eyeball. The frequency of the light would be increase, i.e. >> blue shifted. >> > > So are you saying that when the photons leave the torch they are > travelling > at c relative to the torch's Coulomb Grid (henceforth CG), but when they > enter my eye they're travelling at c relative to *my* CG, which I assume > is > moving with me at 0.57c? So the photons have changed velocity from c to > 1.57c relative to the torch by the time they reach my retina? Have I got > that right? > >> >> Assume you and I are both in the solar system Coulomb grid but I am in a >> large spaceship (large enough to have its own Coulomb grid within the >> solar system's grid) > > > What is "large enough" in this context? Does a speck of dust have a CG > moving with it? What about a proton moving at .999c? > > >> traveling toward the beam at 1.57 c, I would measure >> the speed of the beam as c, but the beam would actually be going >> backward >> relative to the solar system's grid. The light would be blue shifted. >> > > This sounds like the same thing you said about the eyeball of someone > moving at .57c above. So are you saying a torch can send out a beam at c > in > the solar system's grid, which is then swept up by a space ship moving at > .57c towards the light source, and changes velocity so that within the > ship's grid it's moving at c, so in the solar system's grid it's now > moving > at .43c? > > -- > You received this message because you are subscribed to the Google Groups > "Everything List" group. > To unsubscribe from this group and stop receiving emails from it, send an > email to [email protected]. > To post to this group, send email to [email protected]. > Visit this group at http://groups.google.com/group/everything-list. > For more options, visit https://groups.google.com/d/optout. > -- You received this message because you are subscribed to the Google Groups "Everything List" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To post to this group, send email to [email protected]. Visit this group at http://groups.google.com/group/everything-list. For more options, visit https://groups.google.com/d/optout.
