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Fro a stationary perspective the number of dot-waves in a photon will depend upon the gravitational density.
As I see it, photons are soft energy devices and they breathe.
GG: A photon from the right and a photon from the left of spaceship will have exactly the same energy to a stationary spaceship. Yet the effect of the photon to the spaceship moving toward the photon will be at a higher energy level due to the speed of the spaceship. The spaceship is filled with photonic dot-waves and these will add to the photon as it hits the spaceship or subtract from the photon when the space ship is traveling in the opposite direction.
I do not recall saying that the gravitational constant varies with the gravitational field intensity. Yet I may have since I do not have the best of memory.
I do not recall saying that the gravitational constant varies with the gravitational field intensity.
I say that G varies with time.
So I will have to revise my words in the future. Thanks.
The conservation laws look at the universe as a static entity.
They failed to adequately explain what happened before the big bang inversion and what will happen in the future.
So I looked for solutions.