Correct, each major object carries its own Coulomb grid that move through our Universe at the speed of the object. In between the major objects the Coulomb grids are overlapping combinations. And we can have a Coulomb grid within a Coulomb grid so light speed will be affected by both grids. For example the Coulomb grid of the earth will also include the Coulomb grid of the solar system. The farther we are from the earth the more influence the solar system grid will have.
Right again; the speed of light can include refractive index. Yes; grids are superimposed and averaged where they overlap. This may get a little complicated in some cases but no more complicated than trying to figure out exactly how "space" is curved half way between the earth and the moon using Albert's approach. Yes, light changes speeds many time as it passes through our Universe, but it is always traveling at the speed of light through the grid it is currently traveling through. There is no reason for it to become blurred. When light travels through a good prism or a microscope or a telescope it can change speeds several times and it does not necessarily become blurred. John R > On 12 June 2014 14:03, <[email protected]> wrote: > >> 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. >> > > So if I understand correctly, the CG is moving at the same speed as the > object. So each object has its own local version of lightspeed. > >> >> 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. >> > > OK. > >> >> 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. >> > > True, but I'm not sure if we should worry about the refractive index, that > seems like an unnecessary complication at the moment. > >> >> 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. >> > > So these grids are all superimposed, and they all move at different > speeds... yes? > > So how do you determine the speed of light at a given point? Is it the > average of the intensity of each CG multiplied by the velocity of that CG? > >> >> 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. >> > > So the light has changed velocity, since it was emitted in the solar > system's reference frame, from c to 0.57c as it approaches the space ship > Does it change speeds gradually, or all in one go? What happens to the > energy involved in light changing velocity by such a large amount? > > It seems to me that if the universe is full of CGs which are all moving at > different velocities, and the speed of light varies according to the > intensity and speed of the CGs it's passing through at any given moment, > that would mean that light is constantly changing velocity as it travels > around the universe. This would mean that images of extended objects at > large distances would tend to be blurred, because the light from them > would > have traversed different regions of space where the intensity and velocity > of the CGs would be different from each other. > > -- > 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.
