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If the observer or the light source moved at any speed towards or away from each other, no relative speed is detected due to the fact that the movement is perpendicular to y plane and the photons in y plane moving in the direction x and y.
Consider a light source fixed in space XYZ.
An observer facing plane y in z direction
[Said observer] can only see photons from y plane moving in the direction x and y.
Other planes are not visible and only the light speed of y plane
What I actually meant by stating that the photons towards the observer (in the Z direction) are not detected is as follows:-The photons from the light source in the z direction hitting the observer at c1 speed and reflected back at c1 speed when the observer is not moving relative to the light source.
When the observer moves at a speed v (say towards the light source) the photons will hit him at a speed c1+v, and will be reflected back at a speed c1 +v-v (which is c1).
So in this case the photons relativity is not detected.
Thanks for the much appreciated comments made.What I actually meant by stating that the photons towards the observer (in the Z direction) are not detected is as follows:-The photons from the light source in the z direction hitting the observer at c1 speed and reflected back at c1 speed when the observer is not moving relative to the light source. When the observer moves at a speed v (say towards the light source) the photons will hit him at a speed c1+v and will be reflected back at a speed c1 +v-v (which is c1).So in this case the photons relativity is not detected.
Now that is a bit of education for some.
This is the new theories section where you can be wrong or right when describing your view.